Summary of the invention
Technical problem to be solved
Aiming at the defects of the prior art, the invention provides a floating water pollution treatment machine, which solves the problems that when floaters and weeds are treated, large-area aquatic weeds can be formed on the periphery of a water area due to strong reproductive capacity of the aquatic weeds, and the weeds are mutually wound together, so that the aquatic weeds can be broken into blocks when the aquatic weeds are pulled, collected and treated, partial aquatic weeds can directly fall into the bottom of the water area due to the weight of the aquatic weeds, water sources are polluted due to decay after a long time, a large amount of plastic wastes are placed above the aquatic weeds, the floaters are not limited and supported by the aquatic weeds, and the floaters can float and scatter along with the water area.
(II) technical scheme
In order to achieve the purpose, the invention is realized by the following technical scheme: the utility model provides a showy thing water pollution treatment machine, its structure includes suction pump, collecting vat, gasbag, link, air pump, cutting transport structure, the suction pump is installed on the collecting vat, the gasbag is installed in collecting vat and cutting transport structure both sides, link and air pump fixed connection, the gasbag is linked together with the air pump, cutting transport structure is including sheltering from spatial grid structure, transport structure, cutterbar, shelter from spatial grid structure and install on transport structure, the cutterbar is installed in sheltering from spatial grid structure right side and fixed connection.
Preferably, the cutter comprises a belt pulley, a double-shaft rotating motor, a protective casing, a belt and a cutting structure, the belt pulley is fixedly connected with the double-shaft rotating motor, the double-shaft rotating motor is installed inside the protective casing and is mechanically connected, and the belt pulley is movably connected with the cutting structure through the belt.
Preferably, the cutting structure includes rotating shaft frame structure, connection support, gag lever post frame, cutting blade, rotating shaft frame structure install on connecting the support and swing joint, rotating shaft frame structure imbeds on the cutting blade, and fixes through the gag lever post frame, cutting blade is circular structure.
Preferably, the rotating shaft frame structure comprises a threaded ring rod, a first guide ring block, a support rod, a second guide ring block, a groove ring rod and a connecting support rod, the threaded ring rod is arranged between the first guide ring block and the connecting support rod, the first guide ring block and the groove ring rod are integrally cast, the second guide ring block and the groove ring rod are integrally cast, the left side of the support rod is welded with the right side of the second guide ring block, the outer surfaces of the first guide ring block, the second guide ring block and the groove ring rod are all smooth surfaces, and the diameters of the first guide ring block and the second guide ring block are the same and are larger than the diameter of the groove ring rod.
Preferably, the connection support includes bearing, spacing guide ring, undersetting, connection fixed ring frame, upper bracket, the bearing is inlayed and is installed in both sides around undersetting and upper bracket, the undersetting with be connected the fixed ring frame and pour the shaping as an organic whole, it pours the shaping as an organic whole with the upper bracket to connect the fixed ring frame, spacing guide ring and undersetting structure as an organic whole, spacing guide ring and upper bracket structure as an organic whole, spacing guide ring is the ring structure that two semicircle guide rings are constituteed, and mutually supports with recess ring pole.
Preferably, the conveying structure comprises a small motor, auxiliary rolling rods, a conveying belt, an outer support, a floating plate structure and a main rotating shaft rod, the small motor is movably connected with the main rotating shaft rod through a chain, the conveying belt is meshed with the main rotating shaft rod, a plurality of auxiliary rolling rods are arranged on the inner side of the conveying belt, the auxiliary rolling rods are mounted on the outer support, the upper portion of the floating plate structure is fixedly connected with the lower left portion of the outer support, and anti-skid grains are arranged on the outer surface of the conveying belt.
Preferably, the floating plate structure comprises a floating plate seat, an anti-abrasion bottom plate and an inflation cavity, the floating plate seat and the inflation cavity are of an integrated structure, the floating plate seat is bonded with the anti-abrasion bottom plate, and the lower surface of the anti-abrasion bottom plate is a non-smooth surface.
As preferred, shelter from spatial grid structure and include filter screen frame, filter screen, embedding pole, the filter screen is installed in filter screen frame inboard and is connected through the electric welding, terminal surface and embedding pole top weld mutually under the filter screen frame, the embedding pole is equipped with five altogether, and all adopts stainless steel to make, on embedding the outer support with its is quick through the embedding pole.
(III) advantageous effects
The invention provides a floating water pollution treatment machine. The method has the following beneficial effects:
1. according to the invention, the conveying structure and the cutter are arranged, so that the cutting blade fixed on the supporting rod rotates to cut aquatic weeds on the water surface, the aquatic weeds directly fall above the conveying belt after being cut into a strip shape, the conveying belt is driven by the small motor to rotate anticlockwise, and the aquatic weeds falling on the conveying belt move upwards along with the driving of the conveying belt and then fall into the collecting tank, so that the aquatic weeds can be quickly cut, and the cut aquatic weeds are effectively prevented from falling to the bottom of the water.
2. According to the invention, by arranging the conveying structure and the shielding net rack structure, as the floater can only float between the outer supports and continuously moves forwards along with the pollution of the floater to the processor, the floater is filtered by the filter screens under the action of the filter screen racks arranged at two sides of the outer support, so that water is filtered out from the filter screens at two sides, the floater moves upwards along with the conveying belt and then falls into the collecting tank at the leftmost end, and thus the floater is prevented from spreading along with water flow without the limitation of external force, and the garbage on the water surface can be rapidly treated.
Drawings
FIG. 1 is a schematic view showing a structure of a floating water pollution treatment machine according to the present invention;
FIG. 2 is a schematic view showing a structure of a part of the floating water contamination treatment machine according to the present invention;
FIG. 3 is a front view of the cutting and conveying structure of the present invention;
FIG. 4 is a schematic front view of a shelter rack structure according to the present invention;
FIG. 5 is a front view of the conveying structure of the present invention;
FIG. 6 is a front view of the floating plate structure of the present invention;
FIG. 7 is a side view of the cutter of the present invention;
FIG. 8 is a front view of the cutting structure of the present invention;
FIG. 9 is a three-dimensional structural view of the rotating shaft bracket structure of the present invention;
FIG. 10 is a side view of the connecting support according to the present invention.
In the figure: the water pump-1, the collecting tank-2, the air bag-3, the connecting frame-4, the air pump-5, the cutting and conveying structure-6, the shielding net rack structure-T1, the conveying structure-T2, the cutter-T3, the belt pulley-TT 1, the double-shaft rotating motor-TT 2, the protective case-TT 3, the belt-TT 4, the cutting structure-TT 5, the rotating shaft rack structure-D1, the connecting support-D2, the limiting rod rack-D3, the cutting blade-D4, the threaded ring rod-C1, the first guide ring block-C2, the supporting rod-C3, the second guide ring block-C4, the groove ring rod-C5, the connecting support rod-C6, the bearing-DD 1, the limiting guide ring-DD 2, the lower support-DD 3, the connecting and fixing ring rack-DD 4, the upper support-5, the groove ring-C5, the connecting support rod-, The device comprises a small motor-E1, an auxiliary rolling rod-E2, a conveying belt-E3, an outer support-E4, a floating plate structure-E5, a main rotating shaft rod-E6, a floating plate seat-EE 1, an anti-abrasion bottom plate-EE 2, an inflation cavity-EE 3, a filter screen support-F1, a filter screen-F2 and an embedded rod-F3.
Detailed Description
The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.
As shown in figures 1 to 10:
example 1
The embodiment of the invention provides a floating water pollution treatment machine which structurally comprises a water suction pump 1, a collecting tank 2, air bags 3, a connecting frame 4, an air pump 5 and a cutting and conveying structure 6, wherein the water suction pump 1 is installed on the collecting tank 2, the air bags 3 are installed on two sides of the collecting tank 2 and the cutting and conveying structure 6, the connecting frame 4 is fixedly connected with the air pump 5, the air bags 3 are communicated with the air pump 5, the cutting and conveying structure 6 comprises a shielding net rack structure T1, a conveying structure T2 and a cutter T3, the shielding net rack structure T1 is installed on the conveying structure T2, and the cutter T3 is installed on the right side of the shielding net rack structure T1 and is fixedly connected with the shielding net rack.
The cutter T3 comprises a belt pulley TT1, a double-shaft rotating motor TT2, a protective casing TT3, a belt TT4 and a cutting structure TT5, wherein the belt pulley TT1 is fixedly connected with the double-shaft rotating motor TT2, the double-shaft rotating motor TT2 is mounted inside a protective casing TT3 and is in mechanical connection, and the belt pulley TT1 is movably connected with the cutting structure TT5 through a belt TT 4.
Wherein, cutting structure TT5 includes swivel spindle frame structure D1, connects support D2, gag lever post frame D3, cutting blade D4, swivel spindle frame structure D1 is installed on connecting support D2 and swing joint, swivel spindle frame structure D1 imbeds on cutting blade D4, and fixed through gag lever post frame D3, cutting blade D4 is circular structure, and the outer loop is the sharpness form structure, causes it to cut the pasture and water on water.
The rotating shaft frame structure D1 comprises a threaded ring rod C1, a first guide ring block C2, a support rod C3, a second guide ring block C4, a groove ring rod C5 and a connecting support rod C6, the threaded ring rod C1 is arranged between the first guide ring block C2 and the connecting support rod C6, the first guide ring block C2 and the groove ring rod C5 are integrally cast, the second guide ring block C4 and the groove ring rod C5 are integrally cast, the left side of the support rod C3 is welded to the right side of the second guide ring block C4, the outer surfaces of the first guide ring block C2, the second guide ring block C4 and the groove ring rod C5 are smooth surfaces, and the diameters of the first guide ring block C2 and the second guide ring block C4 are the same and larger than the diameter of the groove ring rod C5, so that the groove ring rod C5 can limit the rotating shaft frame structure D1.
The connecting support D2 comprises a bearing DD1, a limiting guide ring DD2, a lower support DD3, a connecting fixed ring frame DD4 and an upper support DD5, the bearing DD1 is mounted on the front side and the rear side of the lower support DD3 and the front side and the rear side of the upper support DD5 in an embedded mode, the lower support DD3 and the connecting fixed ring frame DD4 are formed by casting in an integrated mode, the connecting fixed ring frame DD4 and the upper support DD5 are formed by casting in an integrated mode, the limiting guide ring DD2 and the lower support DD3 are of an integrated structure, the limiting guide ring DD2 and the upper support DD5 are of an integrated structure, the limiting guide ring DD2 is of a circular ring structure formed by two semicircular guide rings and is matched with a groove ring rod C5, and can limit the rotating shaft frame structure D1.
The conveying structure T2 comprises a small motor E1, auxiliary rolling rods E2, a conveying belt E3, an outer support E4, a floating plate structure E5 and a main rotating shaft rod E6, the small motor E1 is movably connected with the main rotating shaft rod E6 through a chain, the conveying belt E3 is meshed with the main rotating shaft rod E6, a plurality of auxiliary rolling rods E2 are arranged on the inner side of the conveying belt E3, the auxiliary rolling rods E2 are mounted on the outer support E4, the upper portion of the floating plate structure E5 is fixedly connected with the lower left portion of the outer support E4, and anti-slip grains are arranged on the outer surface of the conveying belt E3, so that when water grass blocks are conveyed, the phenomenon that water grass slips into water cannot occur.
The floating plate structure E5 comprises a floating plate seat EE1, an anti-abrasion bottom plate EE2 and an air inflation cavity EE3, the floating plate seat EE1 and the air inflation cavity EE3 are of an integrated structure, the floating plate seat EE1 is bonded with the anti-abrasion bottom plate EE2, the lower surface of the anti-abrasion bottom plate EE2 is a non-smooth surface, and the phenomenon that when a processor is placed on the bottom surface, the lower part of the processor is in contact with the ground to slip and generate abrasion can be avoided.
The specific working process is as follows:
when aquatic weeds are treated, the treatment machine is firstly driven to the water surface to be treated, then the double-shaft rotating motor TT2 in the protective casing TT3 is started to operate, the double-shaft rotating motor TT2 drives the belt pulleys TT1 on two sides to rotate, the belt pulley TT1 drives the belt TT4 to rotate, the threaded ring rod C1 is driven by the belt TT4 to rotate, the supporting rod C3 is driven to rotate, the cutting blade D4 fixed on the supporting rod C3 rotates to cut the aquatic weeds on the water surface, the rotating shaft frame structure D1 can stably rotate between the lower support DD3 and the upper support DD5 under the mutual matching effect of the limiting guide ring DD2 and the grooved ring rod C5, the cutting blade D4 can stably cut the aquatic weeds on the water surface, and the aquatic weeds can directly fall onto the conveying belt 3 after being cut into strip blocks, under small-size motor E1's drive for conveyer belt E3 carries out anticlockwise rotation, thereby makes the pasture and water piece that drops on conveyer belt E3 upwards remove along with conveyer belt E3's drive down, then in dropping to collection tank 2, extracts through the water pump 1 water in to collection tank 2, with this can be quick cut the processing to the pasture and water, and effectual pasture and water that prevents after the cutting drops to the bottom.
Example 2
The embodiment of the invention provides a floating water pollution treatment machine which structurally comprises a water suction pump 1, a collecting tank 2, air bags 3, a connecting frame 4, an air pump 5 and a cutting and conveying structure 6, wherein the water suction pump 1 is installed on the collecting tank 2, the air bags 3 are installed on two sides of the collecting tank 2 and the cutting and conveying structure 6, the connecting frame 4 is fixedly connected with the air pump 5, the air bags 3 are communicated with the air pump 5, the cutting and conveying structure 6 comprises a shielding net rack structure T1, a conveying structure T2 and a cutter T3, the shielding net rack structure T1 is installed on the conveying structure T2, and the cutter T3 is installed on the right side of the shielding net rack structure T1 and is fixedly connected with the shielding net rack.
The cutter T3 comprises a belt pulley TT1, a double-shaft rotating motor TT2, a protective casing TT3, a belt TT4 and a cutting structure TT5, wherein the belt pulley TT1 is fixedly connected with the double-shaft rotating motor TT2, the double-shaft rotating motor TT2 is mounted inside a protective casing TT3 and is in mechanical connection, and the belt pulley TT1 is movably connected with the cutting structure TT5 through a belt TT 4.
Wherein, cutting structure TT5 includes swivel spindle frame structure D1, connects support D2, gag lever post frame D3, cutting blade D4, swivel spindle frame structure D1 is installed on connecting support D2 and swing joint, swivel spindle frame structure D1 imbeds on cutting blade D4, and fixed through gag lever post frame D3, cutting blade D4 is circular structure, and the outer loop is the sharpness form structure, causes it to cut the pasture and water on water.
The rotating shaft frame structure D1 comprises a threaded ring rod C1, a first guide ring block C2, a support rod C3, a second guide ring block C4, a groove ring rod C5 and a connecting support rod C6, the threaded ring rod C1 is arranged between the first guide ring block C2 and the connecting support rod C6, the first guide ring block C2 and the groove ring rod C5 are integrally cast, the second guide ring block C4 and the groove ring rod C5 are integrally cast, the left side of the support rod C3 is welded to the right side of the second guide ring block C4, the outer surfaces of the first guide ring block C2, the second guide ring block C4 and the groove ring rod C5 are smooth surfaces, and the diameters of the first guide ring block C2 and the second guide ring block C4 are the same and larger than the diameter of the groove ring rod C5, so that the groove ring rod C5 can limit the rotating shaft frame structure D1.
The connecting support D2 comprises a bearing DD1, a limiting guide ring DD2, a lower support DD3, a connecting fixed ring frame DD4 and an upper support DD5, the bearing DD1 is mounted on the front side and the rear side of the lower support DD3 and the front side and the rear side of the upper support DD5 in an embedded mode, the lower support DD3 and the connecting fixed ring frame DD4 are formed by casting in an integrated mode, the connecting fixed ring frame DD4 and the upper support DD5 are formed by casting in an integrated mode, the limiting guide ring DD2 and the lower support DD3 are of an integrated structure, the limiting guide ring DD2 and the upper support DD5 are of an integrated structure, the limiting guide ring DD2 is of a circular ring structure formed by two semicircular guide rings and is matched with a groove ring rod C5, and can limit the rotating shaft frame structure D1.
The conveying structure T2 comprises a small motor E1, auxiliary rolling rods E2, a conveying belt E3, an outer support E4, a floating plate structure E5 and a main rotating shaft rod E6, the small motor E1 is movably connected with the main rotating shaft rod E6 through a chain, the conveying belt E3 is meshed with the main rotating shaft rod E6, a plurality of auxiliary rolling rods E2 are arranged on the inner side of the conveying belt E3, the auxiliary rolling rods E2 are mounted on the outer support E4, the upper portion of the floating plate structure E5 is fixedly connected with the lower left portion of the outer support E4, and anti-slip grains are arranged on the outer surface of the conveying belt E3, so that when water grass blocks are conveyed, the phenomenon that water grass slips into water cannot occur.
The floating plate structure E5 comprises a floating plate seat EE1, an anti-abrasion bottom plate EE2 and an air inflation cavity EE3, the floating plate seat EE1 and the air inflation cavity EE3 are of an integrated structure, the floating plate seat EE1 is bonded with the anti-abrasion bottom plate EE2, the lower surface of the anti-abrasion bottom plate EE2 is a non-smooth surface, and the phenomenon that when a processor is placed on the bottom surface, the lower part of the processor is in contact with the ground to slip and generate abrasion can be avoided.
Wherein, shelter from spatial grid structure T1 and include filter screen rack F1, filter screen F2, embedding pole F3, filter screen F2 installs in filter screen rack F1 inboard and is connected through the electric welding, terminal surface and embedding pole F3 top are welded under the filter screen rack F1, embedding pole F3 is equipped with five altogether, and all adopts stainless steel to make, and on embedding pole F3 was its quick embedding to outer support E4, thereby made the location that filter screen rack F1 can be accurate install in outer support E4 top.
The specific working process is as follows:
after cutting the pasture and water, the pasture and water upwards moves along with the drive of conveyer belt E3, then drop to in collecting tank 2, and after the effect that rubbish on the pasture and water is supported in the restriction that does not have the pasture and water, because the floater can only wave between outer support E4, move along with the continuation of floater water pollution processor forward, make the floater, and install under the effect of filter screen frame F1 of outer support E4 both sides, filter the showy rubbish through filter screen F2, make water filter away from filter screen F2 of both sides, and make the floater upwards move along with conveyer belt E3, then drop into collecting tank 2 inside at extreme left end department, with this avoid the floater to spread along with rivers under the restriction that does not have external force, and can be quick handle rubbish on the water.
It is noted that, herein, relational terms such as first and second, and the like may be used solely to distinguish one entity or action from another entity or action without necessarily requiring or implying any actual such relationship or order between such entities or actions. Also, the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, article, or apparatus.
Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.