CN110670656B - Slurry sucking and conveying method for river treatment - Google Patents

Abstract

The invention discloses a slurry suction and conveying method for river regulation, which comprises the following steps: the suction and delivery mechanism operates and sucks and delivers the slurry into the sliding barrel; when the traction pin is arranged between the first lower contact point and the third lower contact point, the piston rod is static, and the one-way valve is switched from a closed state to an open state; when the traction pin is arranged between the lower contact point III and the upper contact point I, the one-way valve is always in an open state, and the piston rod makes ascending motion and pushes the slurry into the discharge pipeline; when the traction pin is arranged between the upper contact point I and the upper contact point III, the piston rod is static, and the one-way valve is switched from an opening state to a closing state; when the traction pin is arranged between the upper contact point III and the lower contact point I, the one-way valve is always in a closed state, the piston rod descends and finally the sliding cylinder and the piston are restored to the initial positions, and the slurry is continuously conveyed into the sliding cylinder; and the sucking and conveying mechanism and the pushing device continue to convey the next round of slurry, and the process is repeated.

Description

Slurry sucking and conveying method for river treatment

Technical Field

The invention relates to the field of dredging equipment, in particular to a mud dredging method.

Background

The slurry pumping device is widely used for excavating coastal beach culture plants; carrying out sand lifting, dredging and diking on the lake and the river; modifying a low-lying area; large, medium and small hydraulic engineering; the invention provides a mud extracting device, which adopts a packing auger suction and conveying mode to suck mud, adopts a pushing mode to convey the mud into a storage device, can form a reciprocating circulation process of sucking and conveying the mud and pushing the mud into the storage device, and is more convenient and faster in the whole mud sucking process.

Disclosure of Invention

In order to solve the defects of the prior art, the invention aims to provide a mud dredging method, which can form a reciprocating cycle process of sucking and conveying mud and pushing the mud into a storage device, and the whole mud sucking process is more convenient and faster.

In order to achieve the technical purpose, the technical scheme adopted by the invention is as follows.

The slurry sucking and conveying method for river channel treatment includes the following steps:

firstly, slurry suction and conveying;

s1: the suction and delivery mechanism arranged in the fixed shell operates and sucks and delivers the slurry into the pushing device;

the pushing device comprises a slurry pushing mechanism and a one-way conveying mechanism, the slurry pushing mechanism comprises a pushing pump and a pushing component, the pushing pump comprises a bracket part and a pushing pump body, the bracket part comprises a fixed bracket and a movable bracket, the fixed bracket is fixedly arranged in the fixed shell and fixedly provided with a guide post with a guide direction vertical to the ground, and the movable bracket is movably arranged outside the guide post and forms sliding guide fit;

the pushing pump body comprises a pump shell, a sliding cylinder, a piston and a piston rod, wherein the pump shell is of a vertically-arranged cylindrical structure with an opening at the upper end and a closed lower end, the closed end of the pump shell is fixedly arranged at the top of a fixed support, a connecting nozzle is further arranged outside the pump shell and close to the opening end of the pump shell, the connecting nozzle is connected and connected with the sucking and conveying mechanism, a first penetrating hole is further coaxially formed in the closed end of the pump shell, the sliding cylinder is of a vertically-arranged cylindrical structure with an opening at the upper end and a closed lower end, the sliding cylinder is coaxially arranged in the pump shell and forms sealed sliding guide fit, the initial position of the sliding cylinder is located between the connecting nozzle and the closed end of the pump shell, a second penetrating hole is coaxially formed in the closed end of the sliding cylinder, the piston is coaxially arranged in the sliding cylinder and forms sealed sliding guide fit, the piston rod and the pump shell are, the part of the piston rod below the pump shell is externally provided with a contact block in a threaded connection mode, the outside of the piston rod is also sleeved with a stroke spring, one end of the stroke spring is abutted against the contact block, and the other end of the stroke spring penetrates through the through hole and is abutted against the closed end of the sliding barrel;

an operator enables a mud suction end of the suction and delivery mechanism to be positioned in the mud, then the suction and delivery mechanism operates and sucks and delivers the mud in a packing auger suction and delivery mode, and the mud is finally delivered into the sliding barrel through the connecting nozzle;

(II) slurry pushing and discharging stage;

s2: the suction and delivery mechanism drives the pushing member to synchronously operate through the power connecting mechanism while operating;

the pushing component comprises a fastening bracket, sliding plates and a belt transmission assembly, the fastening bracket is fixed on the fixed bracket, the fastening bracket is provided with guide rods with the guide directions vertical to the ground, the sliding plates are horizontally and movably arranged outside the guide rods and form sliding guide fit between the two groups of the sliding plates, the sliding plates are provided with traction holes with the guide directions parallel to the extending directions of the sliding plates, connecting pieces are arranged between the sliding plates and the sliding brackets and are connected through the connecting pieces, each connecting piece comprises a guide rod, the guide rod is vertically fixed on the sliding support, the sliding plate is provided with a guide hole, the sliding plate is movably sleeved outside the guide rod through the guide hole, the bottom of the guide rod is provided with a limiting bolt, the guide hole and the guide rod form sliding guide fit, the buffer spring is sleeved outside the guide rod, the top end of the buffer spring is abutted against the sliding support, and the bottom end of the buffer spring is abutted against the sliding plate;

the belt transmission assembly comprises a driving belt wheel, a driven belt wheel and a transmission belt, the driving belt wheel is positioned above the driven belt wheel, the diameters of the driving belt wheel and the driven belt wheel are consistent, the axial direction of the driving belt wheel and the driven belt wheel is parallel to the ground and perpendicular to the extending direction of the sliding plate, the driving belt wheel and the driven belt wheel are movably arranged on the fastening support and can rotate around the axial direction of the driving belt wheel and the driven belt wheel, the transmission belt is arranged between the driving belt wheel and the driven belt wheel, a traction pin is horizontally;

two groups of contact points, namely an upper contact point I and an upper contact point III, of which the tangential directions are vertical to the ground, of the driving belt wheel and the transmission belt, one group of contact points, namely an upper contact point II, of the driving belt wheel and the transmission belt, of which the tangential directions are parallel to the ground, two groups of contact points, namely a lower contact point I and a lower contact point III, of the driven belt wheel and the transmission belt, of which the tangential directions are vertical to the ground, of the driven belt wheel and the transmission belt, are respectively, and one group of contact points, namely a lower contact point II, of the driven belt wheel and the transmission belt, of which the tangential directions are parallel to the ground, are respectively;

the one-way conveying mechanism comprises a one-way valve and an opening and closing component, the one-way valve is arranged at the opening end of the pump shell, the movement state of the one-way valve can be divided into an opening state in which the inside of the one-way valve is communicated and mud can smoothly pass and a closing state in which the inside of the one-way valve is blocked and mud cannot pass, and the opening and closing component is triggered by the pushing component and is used for controlling the operation state switching of the one-way valve;

a discharge pipeline is arranged between the one-way valve and the storage equipment for storing the slurry, and the discharge pipeline is connected and communicated with the one-way valve and the storage equipment for storing the slurry;

when the suction and delivery mechanism runs, the belt transmission assembly runs through the power connection mechanism, the belt transmission assembly runs and enables the traction pin to move synchronously along with the transmission belt, when the traction pin is located between the first lower contact point and the third lower contact point, the piston rod is static and does not move, the one-way valve is switched from a closed state to an open state, and when the traction pin is located at the third lower contact point, the one-way valve is switched to the open state;

s3: when the traction pin is between the third lower contact point and the first upper contact point, the one-way valve is unchanged in state and is always in an open state, the piston rod can do ascending motion, in the ascending process of the piston rod, the piston rod firstly draws the sliding cylinder/piston to synchronously ascend, in the process, the sliding cylinder can close the connection position between the connection nozzle and the pump shell, and when the opening end of the sliding cylinder ascends to be in contact with the one-way valve and cannot continuously ascend, the piston rod ascends and continuously draws the piston to synchronously ascend and pushes slurry into the discharge pipeline through the opening end of the pump shell and the one-way valve;

s4: when the traction pin is positioned between the first upper contact point and the third upper contact point, the piston rod is static, the one-way valve is switched from an open state to a closed state, and when the traction pin is positioned at the third upper contact point, the one-way valve is switched to the closed state;

s5: when the traction pin is between the upper contact point III and the lower contact point I, the one-way valve is in a constant state and is always in a closed state, the piston rod can do descending motion, the movable rod descends and finally enables the sliding cylinder and the piston to be restored to the initial positions, slurry is continuously conveyed into the sliding cylinder, and when the traction pin is at the lower contact point I, the sliding cylinder is filled with the slurry;

s6: the suction and delivery mechanism and the pushing device continue to carry out next round of slurry conveying, the reciprocating operation is carried out, the slurry can be continuously conveyed into the discharge pipeline, finally the slurry can be conveyed into the storage equipment, meanwhile, in the reciprocating process, in the process that the slurry is conveyed into the sliding cylinder, the one-way valve is in a closed state, the slurry in the discharge pipeline cannot backflow, the slurry is pushed back into the discharge pipeline together with the slurry in the sliding cylinder after being returned into the discharge pipeline by the piston, the one-way valve is in an open state, in the process, part of the slurry in the discharge pipeline flows back into the sliding cylinder, and finally, the slurry in the sliding cylinder is pushed back into the discharge pipeline together with the slurry, and the pushing of the slurry is not influenced.

The technical scheme is further improved and optimized.

The fixed casing be one end opening, one end confined shell structure, the open end of fixed casing matches and installs fixed end cover, but fixed casing vertical suspension installation is on advancing equipment such as tractor, fixed casing outside is provided with the handle that the installer was convenient for to hand-operated to lift.

The technical scheme is further improved and optimized.

The suction and delivery mechanism comprises a motor, an installation shell, a suction and delivery barrel and a suction and delivery piece, wherein the installation shell is of a shell structure provided with an inner cavity and is fixedly installed in a fixed shell, the motor is fixedly installed in the fixed shell and positioned above the installation shell, the axial direction of an output shaft of the motor is vertical to the ground, and the power output end of the motor extends into the installation shell;

the suction and delivery cylinder is of a circular pipeline structure with openings at two ends, the suction and delivery cylinder is fixedly arranged at the bottom of the mounting shell and is coaxially arranged with the motor, the bottom end of the suction and delivery cylinder penetrates through the closed end of the fixed shell and extends out of the fixed shell, and a connecting nozzle is arranged outside the suction and delivery cylinder and is close to the mounting shell;

inhale and send a piece including the auger, the coaxial movable mounting of auger is in inhaling and send a section of thick bamboo, the top of auger stretch into to installing the shell in and with the coaxial fixed connection of motor, the bottom of auger stretches out to inhaling and send a section of thick bamboo outside, the auger rotates and can carry mud to the connecting nozzle direction.

The technical scheme is further improved and optimized.

The packing auger comprises an auger shaft, packing plates, a packing plate and a packing box, wherein the packing plate is arranged at the bottom end of the auger, the large surface of the packing plate is parallel to the axial direction of the auger and is fixed at the bottom end of the auger, the distance between the packing plate and a core line of the auger shaft is increased progressively along the rotation direction of the auger for absorbing slurry, the packing plates are arrayed and erected in a plurality of groups along the circumferential direction of the auger, and when the auger rotates for absorbing slurry, the packing plates synchronously rotate and can pack the slurry near the bottom;

the bottom end of the suction and delivery cylinder is provided with a protective cover frame, and the auger bottom end and the gathering plate are both positioned in the protective cover frame.

The technical scheme is further improved and optimized.

The connecting pieces are provided with two groups and are respectively positioned at one end of the sliding plate along the extending direction of the sliding plate.

The technical scheme is further improved and optimized.

The one-way valve comprises a valve casing, a discharge pipeline, a valve core and a valve rod, wherein the valve casing is of a cylindrical structure with openings at two ends, valve covers are arranged at two opening ends in a matching mode, the axial direction of the valve casing is parallel to the axial direction of the driving belt wheel with the transmission assembly, the valve casing is fixedly arranged in a fixed casing, a fixed nozzle is arranged at the bottom of the valve casing, and the fixed nozzle is communicated with the opening end of the pump casing;

the discharge pipeline, the pump shell and the fixed nozzle are coaxially arranged, the bottom end of the discharge pipeline is connected and communicated with the top of the valve shell, the top end of the discharge pipeline penetrates through the fixed end cover and extends out of the fixed shell, a connecting pipe is arranged between the top end of the discharge pipeline and the storage equipment, and slurry is conveyed through the connecting pipe;

the valve core is of a cylindrical structure, the valve core is coaxially arranged in the valve shell, a sealed rotation fit is formed between the valve core and the valve shell, a valve hole penetrating through the radial thickness of the valve core is formed in the outer circular surface of the valve core, when the valve hole is communicated with the fixed nozzle/discharge pipeline, the one-way valve is in an open state, and when the valve hole is not in contact with the fixed nozzle/discharge pipeline, the one-way valve is in a closed state;

the valve rod and the valve core are coaxially arranged, one end of the valve rod is fixedly connected with the valve core, and the other end of the valve rod extends out of the valve shell.

The technical scheme is further improved and optimized.

The opening and closing component comprises guide posts and a linkage plate, the guide direction of the guide posts is parallel to the extending direction of the sliding plate, the guide posts are fixedly arranged on the fastening bracket, and two groups of guide posts are arranged along the direction vertical to the ground and are respectively positioned on one side of the fastening bracket along the direction vertical to the ground;

the extension direction of the linkage plate is perpendicular to the ground, the linkage plate is movably arranged outside the guide pillar, sliding guide cooperation is formed between the linkage plate and the guide pillar, a linkage hole with the guide direction perpendicular to the ground is further formed in the linkage plate, the free end of the traction pin penetrates through the traction hole and is located in the linkage hole, and the traction pin runs and can drive the linkage plate to displace along the guide direction of the guide pillar through cooperation with the linkage hole;

the opening and closing member further comprises a housing, a gear shaft and an opening and closing plate, the housing is of a shell structure provided with an inner cavity and is fixedly arranged at the top of the fastening bracket, and the free end of the valve rod extends into the housing;

the axial direction of the gear shaft is parallel to the extending direction of the valve rod, the gear shaft is movably arranged in the housing and can rotate around the axial direction of the gear shaft, two groups of gear shafts are arranged along the direction vertical to the ground and are a first gear shaft and a second gear shaft from bottom to top in sequence, and the power input end of the first gear shaft extends out of the housing;

a first power transmission part is arranged between the first gear shaft and the second gear shaft, power connection and transmission are carried out between the first gear shaft and the second gear shaft through the first power transmission part, a second power transmission part is arranged between the second gear shaft and the valve rod, power connection and transmission are carried out between the second gear shaft and the valve rod through the second power transmission part, and the first power transmission part and the second power transmission part are both gear speed-increasing structures;

the extending direction of the opening and closing plate is perpendicular to the axial direction of the gear shaft, the opening and closing plate is also provided with a swinging hole of which the guiding direction is parallel to the extending direction of the opening and closing plate, the top end of the opening and closing plate is provided with a rotating hole, and the rotating hole is fixedly sleeved outside the power input end of the first gear shaft;

the top end of the linkage plate is provided with a swinging bulge, the free end of the swinging bulge is positioned in a swinging hole formed in the top end of the opening and closing plate, and when the linkage plate is displaced along the guide direction of the guide post, the linkage plate drives the opening and closing plate/the first gear shaft to axially rotate around the first gear shaft through the matching between the swinging bulge and the swinging hole;

when the traction pin moves between the lower contact point I and the lower contact point I, the one-way valve is in an open state, when the traction pin moves between the upper contact point I and the lower contact point I, the one-way valve is switched from the open state to the closed state, when the traction pin moves between the upper contact point III and the lower contact point I, the one-way valve is in the closed state, and when the traction pin moves between the lower contact point I and the lower contact point III, the one-way valve is switched from the closed state to the open state.

The technical scheme is further improved and optimized.

The power connecting mechanism is arranged between the auger and the belt transmission assembly and comprises a first transmission shaft and a second transmission shaft, the axial direction of the first transmission shaft is parallel to the ground and is vertical to the axial direction of the driving belt pulley of the belt transmission assembly, the first transmission shaft is movably arranged in the installation shell and can rotate around the axial direction of the first transmission shaft, the axial direction of the second transmission shaft is parallel to the axial direction of the driving belt pulley of the belt transmission assembly, the second transmission shaft is movably arranged in the installation shell and can rotate around the axial direction of the second transmission shaft, and the power output end of the second transmission shaft extends out of the installation shell and is positioned on one side of the installation shell facing the belt transmission assembly;

the auger transmission device is characterized in that a first power connecting piece is arranged between the first transmission shaft and the auger, power connection transmission is carried out between the first power connecting piece and the auger through the first power connecting piece, a second power connecting piece is arranged between the first transmission shaft and the second transmission shaft, power connection transmission is carried out between the first transmission shaft and the second transmission shaft through the second power connecting piece, a third power connecting piece is arranged between the second transmission shaft and a belt wheel shaft of a driving belt wheel of the belt transmission assembly, power connection transmission is carried out between the third power connecting piece and the belt wheel shaft of the driving belt wheel of the belt transmission assembly through the third power connecting piece, the first power connecting.

Compared with the prior art, the invention has the advantages that the sucking and delivering mechanism adopts a packing auger sucking and delivering mode to suck and deliver the slurry into the pushing device, the pushing device adopts a pushing mode to deliver the slurry into the storage equipment, and the power connecting mechanism arranged between the sucking and delivering mechanism and the pushing device can enable the sucking and delivering mechanism and the pushing device to form a reciprocating cycle process of sucking and delivering the slurry and pushing the slurry into the storage equipment, so that the whole slurry sucking process is more convenient and faster; the gathering plate arranged at the bottom end of the packing auger can gather the slurry to the position near the bottom end of the packing auger, so that the packing auger can conveniently absorb the slurry; the protective cover frame arranged at the bottom end of the suction and delivery cylinder can prevent the auger/gathering plate from being damaged by contact collision with the wall part of the pit; in addition, the equipment can be installed on running vehicles such as tractors for use, and can also be manually lifted by operators for use, so that the equipment is more convenient for complex environment work.

Drawings

Fig. 1 is a schematic view of the overall structure of the present invention.

Fig. 2 is a schematic view of the internal structure of the present invention.

Fig. 3 is a schematic view of the internal structure of the present invention.

Fig. 4 is a schematic view of the internal structure of the present invention.

Fig. 5 is a schematic view of the internal structure of the present invention.

Fig. 6 is a schematic structural view of the suction mechanism of the present invention.

Fig. 7 is a schematic view of the structure of the sucking member of the present invention.

Fig. 8 is a schematic structural diagram of the pushing device of the present invention.

Fig. 9 is a schematic structural diagram of the slurry pushing mechanism of the present invention.

Fig. 10 is a schematic structural view of the stent body of the present invention.

FIG. 11 is a schematic cross-sectional view of the thrust pump body of the present invention.

Fig. 12 is a schematic structural view of the pushing member of the present invention.

Fig. 13 is a schematic view of the sliding plate, the sliding bracket and the connecting member of the present invention.

FIG. 14 is a schematic view of the engagement between the belt drive assembly and the slide plate of the present invention.

Fig. 15 is a schematic structural view of the unidirectional conveying mechanism of the present invention.

Fig. 16 is a schematic cross-sectional view of a one-way valve of the present invention.

Fig. 17 is a schematic structural view of the opening/closing member of the present invention.

Fig. 18 is a schematic structural view of the power transmission member i/ii of the present invention.

FIG. 19 is a schematic diagram of the combination of the auger, the power connection mechanism and the belt drive assembly of the present invention.

Fig. 20 is a schematic structural view of the power connection mechanism of the present invention.

Detailed Description

The slurry sucking and conveying method for river channel treatment includes the following steps:

firstly, slurry suction and conveying;

s1: the suction and delivery mechanism 200 installed in the fixed housing 100 operates and sucks and delivers the slurry into the pushing device 300;

the pushing device 300 comprises a slurry pushing mechanism 310 and a one-way conveying mechanism 320, wherein the slurry pushing mechanism 310 comprises a pushing pump 3110 and a pushing member 3120, the pushing pump 3110 comprises a bracket part and a pushing pump body, the bracket part comprises a fixed bracket 3111 and a movable bracket 3112, the fixed bracket 3111 is fixedly installed in the fixed shell 100 and is fixedly provided with a guide column 3113, the guide direction of which is vertical to the ground, and the movable bracket 3112 is movably installed outside the guide column 3113 and forms sliding guide fit;

the pushing pump body comprises a pump shell 3114, a sliding barrel 3116, a piston 3117 and a piston rod 3118, the pump shell 3114 is of a vertically arranged cylindrical structure with an open upper end and a closed lower end, the closed end of the pump shell 3114 is fixedly arranged at the top of a fixed support 3111, the outside of the pump shell 3114 is also provided with a connection nozzle 3115, the connection nozzle 3115 is close to the open end of the pump shell 3114, the connection nozzle 3115 is connected and connected with the sucking and sending mechanism 200, the closed end of the pump shell 3114 is also coaxially provided with a first through hole, the sliding barrel 3116 is of a vertically arranged cylindrical structure with an open upper end and a closed lower end, the sliding barrel 3116 is coaxially arranged in the pump shell 3114 and forms a sealed sliding guide fit, the initial position of the sliding barrel 3116 is located between the connection nozzle 3115 and the closed end of the pump shell 3114, the closed end of the sliding barrel 3116 is coaxially provided with a second through hole, the piston 3117 is coaxially arranged in, one end of a piston rod 3118 is fixedly connected with the piston 3117, the other end of the piston rod 3118 penetrates through the two/one through holes and is fixedly connected with the sliding support 3112, a contact block is arranged outside a part of the piston rod 3118 below the pump shell 3114 in a threaded connection mode, a stroke spring 3119 is further sleeved outside the piston rod 3118, one end of the stroke spring 3119 is abutted against the contact block, and the other end of the stroke spring 3119 penetrates through the through holes and is abutted against the closed end of the sliding barrel 3116;

an operator enables a mud suction end of the suction and delivery mechanism 200 to be located in the mud, then the suction and delivery mechanism 200 operates and sucks and delivers the mud in a packing auger suction and delivery mode, and the mud is finally delivered into the sliding barrel 3116 through the connecting nozzle 3115;

(II) slurry pushing and discharging stage;

s2: the suction and delivery mechanism 200 operates and simultaneously drives the pushing member 3120 to synchronously operate through the power connection mechanism 400;

the pushing member 3120 comprises a fastening support 3121, a sliding plate 3122, a belt transmission assembly 3127, the fastening support 3121 is fixed on the fixed support 3111, a guide rod 3123 with a guide direction perpendicular to the ground is arranged on the fastening support 3121, the sliding plate 3122 is horizontally movably mounted outside the guide rod 3123 and forms a sliding guide fit between two groups, a traction hole 3124 with a guide direction parallel to the extending direction of the sliding plate 3122 is arranged on the sliding plate 3122, a connecting piece is arranged between the sliding plate 3122 and the sliding support 3112 and is connected with the sliding support 3122 through the connecting piece, the connecting piece includes a guide rod 3125 and a buffer spring 3126, the guide rod 3125 is vertically fixed on the sliding support 3112, a guide hole is arranged on the sliding plate 3122, the sliding plate 3122 is movably sleeved outside the guide rod 3125 through the guide hole, a limit bolt is arranged at the bottom of the guide rod 3125, a sliding guide, the top end of the buffer spring 3126 abuts against the sliding support 3112, and the bottom end abuts against the sliding plate 3122;

the belt transmission assembly 3127 comprises a driving/driven belt wheel and a transmission belt, the driving belt wheel is positioned above the driven belt wheel, the diameters of the driving belt wheel and the driven belt wheel are consistent, the axial direction of the driving/driven belt wheel is parallel to the ground and perpendicular to the extending direction of the sliding plate 3122, the driving/driven belt wheel and the driven belt wheel are movably mounted on the fastening bracket 3121 and can rotate around the axial direction of the transmission belt wheel, the transmission belt is arranged between the driving/driven belt wheel, a traction pin 3128 is horizontally arranged on the transmission belt, and the free end of the traction pin 3128;

two groups of contact points, namely an upper contact point I and an upper contact point III, of which the tangential directions are vertical to the ground, of the driving belt wheel and the driving belt are respectively, one group of contact points, namely an upper contact point II, of the driving belt wheel and the driving belt, namely two groups of contact points, namely a lower contact point I and a lower contact point III, of which the tangential directions are parallel to the ground, of the driven belt wheel and the driving belt are respectively, one group of contact points, namely a lower contact point II, of the driven belt wheel and the driving belt, namely a lower contact point II, of which the tangential directions are parallel to the ground, of the driven belt wheel and the driving belt are respectively, and in the running process of the belt transmission component 3127, the traction pin 3128 sequentially passes;

the one-way conveying mechanism 320 comprises a one-way valve 3210 and an opening and closing member 3220, the one-way valve 3210 is installed at the opening end of the pump shell 3114, the movement state of the one-way valve 3210 can be divided into an open state in which the inside of the one-way valve 3210 is circulated and the slurry can smoothly pass through and a closed state in which the inside of the one-way valve is blocked and the slurry cannot pass through, and the opening and closing member 3220 is triggered by the pushing member 3120 and controls the operation state switching of the one-way;

a discharge pipeline 3212 is arranged between the one-way valve 3210 and the storage equipment for storing the slurry, and the two are communicated through the discharge pipeline 3212;

the belt transmission assembly 3127 is operated by the power connection mechanism 400 while the suction and delivery mechanism 200 is operated, the belt transmission assembly 3127 is operated and enables the traction pin 3128 to follow the synchronous movement of the belt, wherein when the traction pin 3128 is between the first lower contact point and the third lower contact point, the piston rod 3118 is stationary, the check valve 3210 is switched from the closed state to the open state, and when the traction pin 3128 is located at the third lower contact point, the check valve 3210 is switched to the open state;

s3: when the traction pin 3128 is between the third lower contact point and the first upper contact point, the state of the check valve 3210 is unchanged and is always in an open state, the piston rod 3118 will do a lifting motion, in the process of lifting the piston rod 3118, the piston rod 3118 first pulls the sliding barrel 3116/the piston 3117 to synchronously lift, and in the process, the sliding barrel 3116 will close the connection between the connection nozzle 3115 and the pump housing 3114, when the open end of the sliding barrel 3116 rises to contact the check valve 3210 and cannot continuously lift, the piston rod 3118 lifts and continuously pulls the piston 3117 to synchronously lift, and slurry is pushed into the discharge pipe 3212 through the open end of the pump housing 3114 and the check valve 3210;

s4: when the traction pin 3128 is located between the first upper contact point and the third upper contact point, the piston rod 3118 is stationary, the check valve 3210 switches from the open state to the closed state, and when the traction pin 3128 is located at the third upper contact point, the check valve 3210 switches to the closed state;

s5: when the traction pin 3128 is between the upper contact point three and the lower contact point one, the state of the check valve 3210 is unchanged and is always in a closed state, the piston rod 3118 makes a descending motion, the movable rod 3218 descends to finally restore the sliding barrel 3116 and the piston 3117 to the initial positions, the slurry is continuously conveyed into the sliding barrel 3116, and the sliding barrel 3116 is filled with the slurry when the traction pin 3128 is at the lower contact point one;

s6: the suction and delivery mechanism 200 and the pushing device 300 continue to deliver the next round of slurry, so that the slurry is continuously delivered into the discharge pipeline 3212, and finally the slurry is delivered into the storage device, and in the reciprocating process, in the process of delivering the slurry into the sliding barrel 3116, the one-way valve 3210 is in a closed state, the slurry in the discharge pipeline 3212 does not backflow, and in the process of pushing the slurry into the discharge pipeline 3212 by the piston 3117, the one-way valve 3210 is in an open state, and in the process, part of the slurry in the discharge pipeline 3212 flows back into the sliding barrel 3116 but is finally pushed back into the discharge pipeline 3212 along with the slurry in the sliding barrel 3116, so that the pushing of the slurry is not affected.

The invention has the advantages that the suction and delivery mechanism adopts a packing auger suction and delivery mode to suck and deliver the slurry into the pushing device, the pushing device adopts a pushing mode to deliver the slurry into the storage equipment, and the power connecting mechanism arranged between the suction and delivery mechanism and the pushing device can enable the suction and delivery mechanism and the pushing device to form a reciprocating cycle process of slurry suction and delivery and slurry pushing into the storage equipment, so that the whole slurry suction process is more convenient and faster; the gathering plate arranged at the bottom end of the packing auger can gather the slurry to the position near the bottom end of the packing auger, so that the packing auger can conveniently absorb the slurry; the protective cover frame arranged at the bottom end of the suction and delivery cylinder can prevent the auger/gathering plate from being damaged by contact collision with the wall part of the pit; in addition, the equipment can be installed on running vehicles such as tractors for use, and can also be manually lifted by operators for use, so that the equipment is more convenient for complex environment work.

The double-pressurization slurry suction and conveying equipment comprises a fixed shell 100, wherein the fixed shell 100 is of a shell structure with one open end and one closed end, a fixed end cover is installed at the open end of the fixed shell 100 in a matching manner, the fixed shell 100 can be vertically hung and installed on a tractor and other advancing equipment, a handle 110 convenient for an installer to manually lift is arranged outside the fixed shell 100, a suction and delivery mechanism 200 and a pushing device 300 are arranged in the fixed shell 100, a sludge suction end of the suction and delivery mechanism 200 penetrates through the closed end of the fixed shell 100 and extends out of the fixed shell 100, the suction and delivery mechanism 200 is used for sucking and conveying slurry into the pushing device 300, a sludge discharge end of the pushing device 300 penetrates through the fixed end cover and extends out of the fixed shell 100 and is communicated with storage equipment for storing slurry, the pushing device 300 is used for pushing the slurry into the storage equipment, a power connecting mechanism 400 is arranged between the suction and delivery mechanism 200 and the pushing device 300, the power connection mechanism 400 is used for receiving the power generated by the operation of the suction mechanism 200 and transmitting the power to the pushing device 300, so that a reciprocating cycle process of sucking and conveying the slurry and pushing the slurry into the storage device is formed between the suction mechanism 200 and the pushing device 300.

The staff makes the mud end of inhaling of mechanism 200 stretch into inside the mud, inhale mechanism 200 operation and absorb mud and finally carry mud to pusher 300 in, pusher 300 operates and with mud propelling movement to storage facilities in, wherein power coupling mechanism 400 makes and constitutes a mud between mechanism 200 and the pusher 300 and absorbs the reciprocal cycle process of carrying, mud propelling movement to storage facilities, in addition, this equipment can hang and install on advancing equipment such as tractor, also can directly carry by operating personnel and move the use.

The suction and delivery mechanism 200 comprises a motor 210, an installation shell 220, a suction and delivery cylinder 230 and a suction and delivery piece 240, wherein the installation shell 220 is a shell structure provided with an inner cavity and is fixedly installed in the fixed shell 100, the motor 210 is fixedly installed in the fixed shell 100 and is positioned above the installation shell 220, the axial direction of an output shaft of the motor is vertical to the ground, and the power output end of the motor extends into the installation shell 100.

The suction and delivery cylinder 230 is a circular pipe structure with openings at two ends, the suction and delivery cylinder 230 is fixedly installed at the bottom of the installation shell 220, the suction and delivery cylinder 230 and the motor 210 are coaxially arranged, the bottom end of the suction and delivery cylinder 230 penetrates through the closed end of the fixed shell 100 and extends out of the fixed shell 100, a connecting nozzle 231 is arranged outside the suction and delivery cylinder 230, and the connecting nozzle 231 is close to the installation shell 220.

The sucking and sending part 240 comprises an auger 241, the auger 241 is coaxially and movably arranged in the sucking and sending cylinder 230, the top end of the auger 241 extends into the mounting shell 220 and is coaxially and fixedly connected with the motor 210, the bottom end of the auger 241 extends out of the sucking and sending cylinder 230, and the auger 241 rotates and can convey slurry towards the direction of the connecting nozzle 231.

An operator extends the bottom end of the packing auger 241 into the slurry, then the motor 210 operates and pulls the packing auger 241 to rotate around the axial direction of the packing auger 241, and the packing auger 241 rotates and conveys the slurry towards the connecting nozzle 231.

Preferably, in the process that the packing auger 241 rotates and conveys the slurry to the direction of the connecting nozzle 231, in order to enable the packing auger 241 to absorb the slurry more conveniently, the bottom end of the packing auger 241 is provided with the gathering plate 242, the large surface of the gathering plate 242 is parallel to the axial direction of the packing auger 241 and is fixed at the bottom end of the packing auger 241, the distance between the gathering plate 242 and the axial core line of the packing auger 241 is increased progressively along the rotating direction of the packing auger 241 absorbing the slurry, the gathering plate 242 is arrayed vertically for a plurality of groups along the circumferential direction of the packing auger 241, and when the packing auger 241 rotates to absorb the slurry, the gathering plate 242 synchronously rotates and gathers the slurry near the bottom end of the packing auger.

Preferably, in order to prevent the wall of the pit or pond where the slurry is located from contacting and colliding with the collecting plate 242 and the bottom end of the packing auger 241 and damaging the collecting plate 242 and the bottom end of the packing auger 241, the bottom end of the suction and delivery cylinder 230 is provided with a protective cover frame 243, and the bottom end of the packing auger 241 and the collecting plate 242 are both located in the protective cover frame 243.

The pushing device 300 comprises a mud pushing mechanism 310 and a one-way conveying mechanism 320, the mud pushing mechanism 310 is connected and communicated with the connecting nozzle 231, the mud pushing mechanism 310 is used for receiving the mud sucked and conveyed by the sucking and conveying mechanism 200 and pushing the mud into the one-way conveying mechanism 320, and the one-way conveying mechanism 320 is used for conveying the mud into the storage equipment in a one-way mode.

The mud pushing mechanism 310 includes a pushing pump 3110 and a pushing member 3120, the pushing pump 3110 is configured to receive the mud sucked and conveyed by the sucking mechanism 200 and push the mud into the one-way conveying mechanism 320, and the pushing member 3120 is configured to drive the pushing pump 3110 to perform a mud pushing operation.

The propelling movement pump 3110 include the support spare, the propelling movement pump body, the support spare includes fixed bolster 3111, movable support 3112, fixed bolster 3111 fixed mounting is in fixed casing 100 and on it fixed guide post 3113 that is provided with direction of guidance perpendicular to ground, movable support 3112 movable mounting constitutes the sliding guide cooperation in guide post 3113 outside and between the two.

The propelling movement pump body include pump case 3114, sliding barrel 3116, piston 3117, piston rod 3118, pump case 3114 is vertical arrangement and upper end opening, lower extreme confined cylindrical structure, the blind end fixed mounting of pump case 3114 is in the top of fixed bolster 3111, the outside of pump case 3114 still is provided with switch-on mouth 3115 and switch-on mouth 3115 is close to the open end of pump case 3114, switch-on mouth 3115 is connected the switch-on with connecting mouth 231, the blind end of pump case 3114 has still seted up wear-to-establish hole one coaxially.

The sliding barrel 3116 is a vertically arranged cylindrical structure with an open upper end and a closed lower end, the sliding barrel 3116 is coaxially arranged in the pump housing 3114, a sealed sliding guide fit is formed between the sliding barrel 3116 and the pump housing 3114, the initial position of the sliding barrel 3116 is located between the switch-on nozzle 3115 and the closed end of the pump housing 3114, and a second through hole is coaxially formed in the closed end of the sliding barrel 3116.

The piston 3117 is coaxially arranged in the sliding barrel 3116, a sealed sliding guide fit is formed between the piston 3118 and the sliding barrel 3116, the piston 3118 and the pump housing 3114 are coaxially arranged, one end of the piston 3118 is fixedly connected with the piston 3117, and the other end of the piston 3118 penetrates through the two or one of the through holes and is fixedly connected with the sliding support 3112.

The partial outside that the piston rod 3118 is located pump case 3114 below installs the conflict piece with threaded connection, the outside of piston rod 3118 still overlaps and is equipped with stroke spring 3119, the one end of stroke spring 3119 is contradicted with the conflict piece, the other end passes the perforation and is contradicted with smooth section of thick bamboo 3116 blind end together, the elasticity of stroke spring 3119 orders about smooth section of thick bamboo 3116 and makes ascending motion.

The one-way conveying mechanism 320 is connected to the open end of the pump housing 3114.

When the motor 210 operates and rotates the packing auger 241 and conveys the slurry into the sliding barrel 3116 through the connecting nozzle 231 and the connecting nozzle 3115, the power connecting mechanism 400 operates the pushing member 3120 and drives the piston rod 3118 to move up and down, wherein during the process that the piston rod 3118 moves up, the piston rod 3118 firstly pulls the sliding barrel 3116/the piston 3117 to move up synchronously, and during the process, the sliding barrel 3116 closes the connecting position between the connecting nozzle 3115 and the pump housing 3114, when the open end of the sliding barrel 3116 rises to be in contact with the one-way conveying mechanism 320 and cannot rise continuously, the piston rod 3118 moves up and continues to pull the piston 3117 to move up synchronously and push the slurry into the one-way conveying mechanism 311320 through the open end of the pump housing 3114, and simultaneously because the sliding barrel 3116 cannot rise, the piston rod 3117 moves up to make the stroke spring 9 in a compressed state; during the descending process of the piston rod 3118, the sliding barrel 3116 is at rest first, when the piston 3117 descends and returns to its position relationship with the sliding barrel 3116, the stroke spring 3119 returns to normal state, and then the piston rod 3118 descends to pull the sliding barrel 3116/piston 3117 to descend synchronously and finally return to the initial position, and so on.

The pushing member 3120 comprises a fastening support 3121, a sliding plate 3122 and a belt transmission assembly 3127, the fastening support 3121 is fixed on the fixed support 3111, a guide rod 3123 with a guide direction perpendicular to the ground is arranged on the fastening support 3121, the sliding plate 3122 is horizontally movably mounted outside the guide rod 3123, the two groups of the guide rod 3123 form a sliding guide fit, and the sliding plate 3122 is provided with a traction hole 3124 with a guide direction parallel to the extending direction of the sliding plate 3122.

Slide 3122 and sliding support 3112 between be provided with the connecting piece and be connected through the connecting piece between the two, it is specific, the connecting piece includes guide arm 3125, buffer spring 3126, guide arm 3125 is vertical to be fixed in on the sliding support 3112, the guide hole has been seted up on slide 3122 and slide 3122 locates the guide arm 3125 outside through the guide hole movable sleeve, and the guide arm 3125 bottom is provided with limit bolt, constitute the slip guide cooperation between guide hole and the guide arm 3125, buffer spring 3126 overlaps locates the guide arm 3125 outside, buffer spring 3126's top is contradicted with sliding support 3112, the bottom is contradicted with slide 3122, buffer spring 3126's elasticity orders about slide 3122 and is descending motion, preferably, the connecting piece is provided with two sets ofly and is located slide 3122 along the one end of self extending direction respectively.

The belt transmission assembly 3127 includes a driving/driven belt wheel and a transmission belt, the driving belt wheel is located above the driven belt wheel, the diameters of the driving belt wheel and the driven belt wheel are the same, the axial direction of the driving/driven belt wheel is parallel to the ground and perpendicular to the extending direction of the sliding plate 3122, both the driving belt wheel and the driven belt wheel are movably mounted on the fastening support 3121 and can rotate around the self axial direction, the transmission belt is arranged between the driving/driven belt wheel, a traction pin 3128 is horizontally arranged on the transmission belt, and the free end of the traction pin 3128 passes through the traction hole 312.

The contact point of the tangential direction perpendicular to the ground of the driving belt wheel and the driving belt has two groups and is an upper contact point I and an upper contact point III respectively, the contact point of the tangential direction parallel to the ground of the driving belt wheel and the driving belt has one group and is an upper contact point II, the contact point of the tangential direction perpendicular to the ground of the driven belt wheel and the driving belt has two groups and is a lower contact point I and a lower contact point III respectively, the contact point of the tangential direction parallel to the ground of the driven belt wheel and the driving belt has one group and is a lower contact point II, and in the operation process of the belt transmission assembly 3127, the traction pin 3128 can pass through the lower contact point I, the lower contact point II, the lower contact point III, the upper contact point I.

While the motor 210 is running, the power connection mechanism 400 receives the power of the motor and synchronously runs the belt transmission assembly 3127, and the belt transmission assembly 3127 runs and synchronously moves the traction pin 3128 along with the transmission belt;

in the process that the traction pin 3128 moves from the lower contact point two to the upper contact point two, the traction pin 3128 is matched with the traction hole 3124 and makes the sliding plate 3122 move upward, wherein between the lower contact point two and the lower contact point three, the sliding plate 3122 moves upward and makes the buffer spring 3126 in a compressed state and the sliding support 3112/the piston rod 3118 is stationary, between the lower contact point three and the upper contact point one, the sliding plate 3122 moves upward and pulls the sliding support 3112/the piston rod 3118 to move synchronously upward, and while the traction pin 3128 moves to the upper contact point one, the piston 3117 is contacted with the one-way conveying mechanism 320, that is, the piston rod 3118 cannot move upward continuously, between the upper contact point one and the upper contact point two, the sliding plate 3122 moves upward and makes the buffer spring 3126 in a compressed state and the sliding support 3112/the piston rod 3118;

during the process that the traction pin 3128 moves from the upper contact point two to the lower contact point two, the traction pin 3128 is engaged with the traction hole 3124 and the sliding plate 3122 moves downward, wherein between the upper contact point two and the upper contact point three, the sliding plate 3122 moves downward and reduces the compression amount of the buffer spring 3126 and the sliding support 3112/the piston 3118 is stationary, between the upper contact point three and the lower contact point one, the sliding plate 3122 moves downward and draws the sliding support 3112/the piston 3118 to move downward synchronously, and while the traction pin 3128 moves to the lower contact point one, the sliding support 3112 has descended to the lowest point and the sliding cylinder 3116/the piston 3117 descends to the initial position, between the lower contact point one and the lower contact point two, the sliding plate 3122 moves downward and reduces the compression amount of the buffer spring 3126 continuously and finally returns the buffer spring 3126 to the normal state, and the sliding support 3122/the piston 3118 is stationary.

The one-way conveying mechanism 320 comprises a one-way valve 3210 and an opening and closing member 3220, the one-way valve 3210 is configured to receive the slurry pushed by the pushing member 3120, an operation state of the one-way valve 3210 can be divided into an open state in which the slurry flows inside and can smoothly pass through, and a closed state in which the inside is blocked and the slurry cannot pass through, and the opening and closing member 3220 is configured to be triggered by the pushing member 3120 and control the operation state switching of the one-way valve 3210.

The check valve 320 comprises a valve casing 3211, a discharge pipeline 3212, a valve core 3213 and a valve rod 3214, the valve casing 3211 is of a cylindrical structure with openings at two ends, the two open ends are matched with each other to install a valve cover, the axial direction of the valve casing 3211 is parallel to the axial direction of a driving pulley of the belt transmission assembly 3127, the valve casing 3211 is fixedly installed in the fixed casing 100, and the bottom of the valve casing 3211 is provided with a fixed nozzle and the fixed nozzle is communicated with the open end of the pump casing 3114.

The discharge pipeline 3212, the pump casing 3114 and the fixed nozzle are coaxially arranged, the bottom end of the discharge pipeline 3212 is connected and communicated with the top of the valve casing 3211, the top end of the discharge pipeline penetrates through the fixed end cover and extends out of the fixed casing 100, a connecting pipe is arranged between the top end of the discharge pipeline 3212 and the storage device, and slurry is conveyed through the connecting pipe.

The valve core 3213 is a cylindrical structure, the valve core 3213 is coaxially disposed in the valve housing 3211, and a sealed rotation fit is formed between the valve core and the valve housing 3211, a valve hole 3215 penetrating through the radial thickness of the valve core 3213 is disposed on the outer circumferential surface of the valve core 3213, when the valve hole 3215 is connected to the fixed nozzle/discharge pipe 3212, the check valve 3210 is opened, and when the valve hole 3215 is not in contact with the fixed nozzle/discharge pipe 3212, the check valve 3210 is closed.

The valve rod 3214 and the valve core 3213 are coaxially arranged, one end of the valve rod 3214 is fixedly connected with the valve core 3213, and the other end extends out of the valve housing 3211.

The opening and closing member 3220 is triggered by the pushing member 3120 to rotate the valve rod 3214, and the valve rod 3214 rotates to pull the valve core 3213 to rotate synchronously, so that the communication state between the valve hole 3215 and the fixed nozzle/discharge pipe 3212 is changed, i.e., the movement state of the check valve 320 is changed.

The opening and closing member 3220 includes two guide posts 3221 and a linkage plate 3222, a guiding direction of the guide posts 3221 is parallel to an extending direction of the sliding plate 3122, and the guide posts 3221 are fixedly mounted on the fastening support 3121, and two sets of the guide posts 3221 are disposed along a direction perpendicular to the ground and are respectively located at one side of the fastening support 3121 along the direction perpendicular to the ground.

The extending direction of the linkage plate 3222 is perpendicular to the ground, the linkage plate 3222 is movably mounted outside the guide pillar 3221, and a sliding guiding cooperation is formed between the guide pillar 3221 and the linkage plate 3222, a linkage hole 3223 is further formed in the linkage plate 3222, the guiding direction of the linkage hole 3223 is perpendicular to the ground, the free end of the traction pin 3128 passes through the traction hole 3124 and is located in the linkage hole 3223, and the traction pin 3128 operates and can drive the linkage plate 3222 to displace along the guiding direction of the guide pillar 3221 by cooperation with the linkage hole 3223.

The opening and closing member 3220 further includes a casing, a gear shaft, and an opening and closing plate 3224, the casing is a casing structure provided with an inner cavity and is fixedly mounted on the top of the fastening support 3121, and the free end of the valve rod 3214 extends into the casing.

The axial direction of the gear shaft is parallel to the extending direction of the valve rod 3214, the gear shaft is movably arranged in the housing and can rotate around the self axial direction, two groups of gear shafts are arranged along the direction perpendicular to the ground and are a first gear shaft and a second gear shaft from bottom to top in sequence, and the power input end of the first gear shaft extends out of the housing.

A first power transmission part 3225 is arranged between the first gear shaft and the second gear shaft, power connection transmission is performed between the first power transmission part 3225 and the second gear shaft, a second power transmission part 3226 is arranged between the second gear shaft and the valve rod 3214, power connection transmission is performed between the second gear shaft and the valve rod through the second power transmission part 3226, and particularly, the first power transmission part 3225 and the second power transmission part 3226 are both gear speed increasing structures.

The extending direction of the opening and closing plate 3224 is perpendicular to the axial direction of the gear shaft, the opening and closing plate 3224 is further provided with a swing hole, the guiding direction of which is parallel to the extending direction of the opening and closing plate 3224, and the top end of the opening and closing plate 3224 is provided with a rotary hole and is fixedly sleeved outside the power input end of the first gear shaft through the rotary hole.

The top end of the linkage plate 3222 is provided with a swing protrusion, and the free end of the swing protrusion is located in a swing hole formed in the top end of the opening and closing plate 3224, and when the linkage plate 3222 is displaced along the guiding direction of the guide pillar 3221, the linkage plate 3224/the gear shaft is driven to rotate axially around the gear shaft through the cooperation between the swing protrusion and the swing hole.

When the towing pin 3128 moves between the first lower contact point three and the first upper contact point, the check valve 3210 is in an open state, when the towing pin 3128 moves between the first upper contact point three and the third upper contact point, the check valve 3210 is switched from the open state to the closed state, when the towing pin 3218 moves between the third upper contact point and the first lower contact point, the check valve 3210 is in the closed state, and when the towing pin 3218 moves between the first lower contact point and the third lower contact point, the check valve 3210 is switched from the closed state to the open state.

When the traction pin 3128 moves between the first lower contact point and the third lower contact point, the traction pin 3128 cooperates with the linkage hole 3223 and drives the linkage plate 3222 to synchronously displace along the guiding direction of the guide post 3221 and the displacement direction is directed to the third lower contact point from the first lower contact point, the linkage plate 3222 moves and drives the first opening/closing plate 3224/gear shaft to axially rotate around the gear shaft through the cooperation between the swing protrusion and the swing hole, so as to drive the valve rod 3214 to rotate through the first power transmission piece 3225/the second power transmission piece 3226, the valve rod 3214 rotates and finally switches the check valve 3210 from the closed state to the open state, and when the traction pin 3128 is located at the third lower contact point, the check valve 3210 switches to the open state;

when the towing pin 3128 moves between the third lower contact point and the first upper contact point, the one-way valve 3210 is always in an open state because the guiding direction of the linkage hole 3223 is consistent with the displacement direction of the towing pin 3128;

when the traction pin 3128 moves between the upper contact point one and the upper contact point three, the traction pin 3128 cooperates with the linkage hole 3223 and drives the linkage plate 3222 to synchronously displace along the guiding direction of the guide post 3221 and the displacement direction is directed from the upper contact point one to the upper contact point three, finally the valve rod 3214 rotates and the rotation direction is opposite to the rotation direction of the valve rod 3214 when the traction pin 3128 moves between the lower contact point one and the lower contact point three, so that the check valve 3210 is switched from the open state to the closed state, and when the traction pin 3128 is located at the upper contact point three, the check valve 3210 is switched to the closed state;

when the traction pin 3218 moves between the upper contact point three and the lower contact point one, the check valve 3210 is always in a closed state.

The power connection mechanism 400 is arranged between the packing auger 241 and the belt transmission component 3127, the power connection mechanism 400 includes a first transmission shaft 410 and a second transmission shaft 420, the axial direction of the first transmission shaft 410 is parallel to the ground and perpendicular to the axial direction of the driving belt pulley of the belt transmission component 3127, the first transmission shaft 410 is movably installed in the installation housing 220 and can rotate around the axial direction of the first transmission shaft, the axial direction of the second transmission shaft 420 is parallel to the axial direction of the driving belt pulley of the belt transmission component 3127, the second transmission shaft 420 is movably installed in the installation housing 220 and can rotate around the axial direction of the second transmission shaft, and the power output end of the second transmission shaft 420 extends out of the installation housing 220 and is located on one side of the installation housing 220 facing the belt transmission component 312.

The device comprises a transmission assembly 3127, and is characterized in that a first power connecting piece 430 is arranged between the first transmission shaft 410 and the auger 241, power connection transmission is performed between the first transmission shaft 430 and the auger 241 through the first power connecting piece 430, a second power connecting piece 440 is arranged between the first transmission shaft 410 and the second transmission shaft 420, power connection transmission is performed between the first transmission shaft 440 and the second transmission shaft 440 through the second power connecting piece 440, a third power connecting piece 450 is arranged between the second transmission shaft 420 and a pulley shaft of a driving pulley of the belt transmission assembly 3127, power connection transmission is performed between the third power connecting piece 450 and the pulley shaft of the driving pulley of the belt transmission assembly 3127, specifically, the first power connecting piece 430 and the second.

When the motor 210 operates and drives the packing auger 241 to rotate, the packing auger 241 rotates and finally pulls the driving pulley of the belt transmission assembly 3127 to rotate through the first power connector 430, the first transmission shaft 410, the second power connector 440, the second transmission shaft 420 and the third power connector 450, namely the belt transmission assembly 3127 operates synchronously with the packing auger 241.

During actual work, an operator enables the bottom end of the packing auger 241 to extend into slurry, then the motor 210 operates and pulls the packing auger 241 to rotate around the self axial direction, the packing auger 241 rotates and conveys the slurry towards the direction of the connecting nozzle 231, in the process, the packing auger 241 rotates and pulls the collecting plate 242 to synchronously rotate and collect the slurry near the bottom end of the packing auger 241, the packing auger 241 is convenient to suck and convey the slurry, and the slurry is finally conveyed into the sliding barrel 3116 through the connecting nozzle 231 and the connecting nozzle 3115;

the auger 241 rotates and simultaneously pulls the belt transmission assembly 3127 to operate through the power connection mechanism 400, the belt transmission assembly 3127 operates and enables the traction pin 3128 to follow the belt to move synchronously, wherein:

when the traction pin 3128 is between the first lower contact point and the third lower contact point, the piston rod 3118 is stationary, the check valve 3210 is switched from the closed state to the open state, and when the traction pin 3128 is at the third lower contact point, the check valve 3210 is switched to the open state;

when the traction pin 3128 is between the third lower contact point and the first upper contact point, the state of the check valve 3210 is unchanged and is always in the open state, the piston rod 3118 will make the ascending movement, during the ascending process of the piston rod 3118, the piston rod 3118 first pulls the sliding barrel 3116/the piston 3117 to ascend synchronously, and during the process, the sliding barrel 3116 will close the connection between the connection nozzle 3115 and the pump housing 3114, when the open end of the sliding barrel 3116 ascends to contact the check valve 3210 and cannot ascend continuously, the piston rod 3118 ascends and continuously pulls the piston 3117 to ascend synchronously and push the slurry into the discharge pipe 3212 through the open end of the pump housing 3114 and the valve hole 3215;

then when the traction pin 3128 is between the first upper contact point and the third upper contact point, the piston rod 3118 is stationary, the check valve 3210 switches from the open state to the closed state, and when the traction pin 3128 is at the third upper contact point, the check valve 3210 switches to the closed state;

when the traction pin 3128 is between the upper contact point three and the lower contact point one, the state of the check valve 3210 is unchanged and is always in a closed state, the piston rod 3118 will make a descending movement, the movable rod 3218 descends and finally the sliding barrel 3116 and the piston 3117 will be restored to the initial position, the slurry will continue to be transported into the sliding barrel 3116, and the sliding barrel 3116 will be filled with the slurry when the traction pin 3128 is at the next contact point one;

in addition, in the process of conveying the slurry into the sliding barrel 3116, the one-way valve 3210 is in a closed state, the slurry in the discharging pipe 3212 does not backflow, and in the process of pushing the slurry into the discharging pipe 3212 by the piston 3117, the one-way valve 3210 is in an open state, in the process, part of the slurry in the discharging pipe 3212 flows back into the sliding barrel 3116 but is finally pushed back into the discharging pipe 3212 along with the slurry in the sliding barrel 3116, so that the pushing of the slurry is not affected.

Claims (10)

1. The slurry sucking and conveying method for river channel treatment includes the following steps:

firstly, slurry suction and conveying;

s1: the suction and delivery mechanism arranged in the fixed shell operates and sucks and delivers the slurry into the pushing device;

the pushing device comprises a slurry pushing mechanism and a one-way conveying mechanism, the slurry pushing mechanism comprises a pushing pump and a pushing component, the pushing pump comprises a bracket part and a pushing pump body, the bracket part comprises a fixed bracket and a movable bracket, the fixed bracket is fixedly arranged in the fixed shell and fixedly provided with a guide post with a guide direction vertical to the ground, and the movable bracket is movably arranged outside the guide post and forms sliding guide fit;

the pushing pump body comprises a pump shell, a sliding cylinder, a piston and a piston rod, wherein the pump shell is of a vertically-arranged cylindrical structure with an opening at the upper end and a closed lower end, the closed end of the pump shell is fixedly arranged at the top of a fixed support, a connecting nozzle is further arranged outside the pump shell and close to the opening end of the pump shell, the connecting nozzle is connected and connected with the sucking and conveying mechanism, a first penetrating hole is further coaxially formed in the closed end of the pump shell, the sliding cylinder is of a vertically-arranged cylindrical structure with an opening at the upper end and a closed lower end, the sliding cylinder is coaxially arranged in the pump shell and forms sealed sliding guide fit, the initial position of the sliding cylinder is located between the connecting nozzle and the closed end of the pump shell, a second penetrating hole is coaxially formed in the closed end of the sliding cylinder, the piston is coaxially arranged in the sliding cylinder and forms sealed sliding guide fit, the piston rod and the pump shell are, the part of the piston rod below the pump shell is externally provided with a contact block in a threaded connection mode, the outside of the piston rod is also sleeved with a stroke spring, one end of the stroke spring is abutted against the contact block, and the other end of the stroke spring penetrates through the through hole and is abutted against the closed end of the sliding barrel;

an operator enables a mud suction end of the suction and delivery mechanism to be positioned in the mud, then the suction and delivery mechanism operates and sucks and delivers the mud in a packing auger suction and delivery mode, and the mud is finally delivered into the sliding barrel through the connecting nozzle;

(II) slurry pushing and discharging stage;

s2: the suction and delivery mechanism drives the pushing member to synchronously operate through the power connecting mechanism while operating;

the pushing component comprises a fastening bracket, sliding plates and a belt transmission assembly, the fastening bracket is fixed on the fixed bracket, the fastening bracket is provided with guide rods with the guide directions vertical to the ground, the sliding plates are horizontally and movably arranged outside the guide rods and form sliding guide fit between the two groups of the sliding plates, the sliding plates are provided with traction holes with the guide directions parallel to the extending directions of the sliding plates, connecting pieces are arranged between the sliding plates and the sliding brackets and are connected through the connecting pieces, each connecting piece comprises a guide rod, the guide rod is vertically fixed on the sliding support, the sliding plate is provided with a guide hole, the sliding plate is movably sleeved outside the guide rod through the guide hole, the bottom of the guide rod is provided with a limiting bolt, the guide hole and the guide rod form sliding guide fit, the buffer spring is sleeved outside the guide rod, the top end of the buffer spring is abutted against the sliding support, and the bottom end of the buffer spring is abutted against the sliding plate;

the belt transmission assembly comprises a driving belt wheel, a driven belt wheel and a transmission belt, the driving belt wheel is positioned above the driven belt wheel, the diameters of the driving belt wheel and the driven belt wheel are consistent, the axial direction of the driving belt wheel and the driven belt wheel is parallel to the ground and perpendicular to the extending direction of the sliding plate, the driving belt wheel and the driven belt wheel are movably arranged on the fastening support and can rotate around the axial direction of the driving belt wheel and the driven belt wheel, the transmission belt is arranged between the driving belt wheel and the driven belt wheel, a traction pin is horizontally;

two groups of contact points, namely an upper contact point I and an upper contact point III, of which the tangential directions are vertical to the ground, of the driving belt wheel and the transmission belt, one group of contact points, namely an upper contact point II, of the driving belt wheel and the transmission belt, of which the tangential directions are parallel to the ground, two groups of contact points, namely a lower contact point I and a lower contact point III, of the driven belt wheel and the transmission belt, of which the tangential directions are vertical to the ground, of the driven belt wheel and the transmission belt, are respectively, and one group of contact points, namely a lower contact point II, of the driven belt wheel and the transmission belt, of which the tangential directions are parallel to the ground, are respectively;

the one-way conveying mechanism comprises a one-way valve and an opening and closing component, the one-way valve is arranged at the opening end of the pump shell, the movement state of the one-way valve can be divided into an opening state in which the inside of the one-way valve is communicated and mud can smoothly pass and a closing state in which the inside of the one-way valve is blocked and mud cannot pass, and the opening and closing component is triggered by the pushing component and is used for controlling the operation state switching of the one-way valve;

a discharge pipeline is arranged between the one-way valve and the storage equipment for storing the slurry, and the discharge pipeline is connected and communicated with the one-way valve and the storage equipment for storing the slurry;

when the suction and delivery mechanism runs, the belt transmission assembly runs through the power connection mechanism, the belt transmission assembly runs and enables the traction pin to move synchronously along with the transmission belt, when the traction pin is located between the first lower contact point and the third lower contact point, the piston rod is static and does not move, the one-way valve is switched from a closed state to an open state, and when the traction pin is located at the third lower contact point, the one-way valve is switched to the open state;

s3: when the traction pin is between the third lower contact point and the first upper contact point, the one-way valve is unchanged in state and is always in an open state, the piston rod can do ascending motion, in the ascending process of the piston rod, the piston rod firstly draws the sliding cylinder/piston to synchronously ascend, in the process, the sliding cylinder can close the connection position between the connection nozzle and the pump shell, and when the opening end of the sliding cylinder ascends to be in contact with the one-way valve and cannot continuously ascend, the piston rod ascends and continuously draws the piston to synchronously ascend and pushes slurry into the discharge pipeline through the opening end of the pump shell and the one-way valve;

s4: when the traction pin is positioned between the first upper contact point and the third upper contact point, the piston rod is static, the one-way valve is switched from an open state to a closed state, and when the traction pin is positioned at the third upper contact point, the one-way valve is switched to the closed state;

s5: when the traction pin is between the upper contact point III and the lower contact point I, the one-way valve is in a constant state and is always in a closed state, the piston rod can do descending motion, the movable rod descends and finally enables the sliding cylinder and the piston to be restored to the initial positions, slurry is continuously conveyed into the sliding cylinder, and when the traction pin is at the lower contact point I, the sliding cylinder is filled with the slurry;

s6: the suction and delivery mechanism and the pushing device continue to carry out next round of slurry conveying, the reciprocating operation is carried out, the slurry can be continuously conveyed into the discharge pipeline, finally the slurry can be conveyed into the storage equipment, meanwhile, in the reciprocating process, in the process that the slurry is conveyed into the sliding cylinder, the one-way valve is in a closed state, the slurry in the discharge pipeline cannot backflow, the slurry is pushed back into the discharge pipeline together with the slurry in the sliding cylinder after being returned into the discharge pipeline by the piston, the one-way valve is in an open state, in the process, part of the slurry in the discharge pipeline flows back into the sliding cylinder, and finally, the slurry in the sliding cylinder is pushed back into the discharge pipeline together with the slurry, and the pushing of the slurry is not influenced.

2. The slurry suction and delivery method for river regulation according to claim 1, wherein the fixed casing is a casing structure with one open end and one closed end, the open end of the fixed casing is provided with a fixed end cover in a matching manner, the fixed casing can be vertically suspended and mounted on the traveling equipment, and a handle convenient for an installer to manually lift the fixed casing is arranged outside the fixed casing.

3. The slurry sucking and conveying method for river regulation according to claim 2, wherein the sucking and conveying mechanism comprises a motor, a mounting shell, a sucking and conveying barrel and a sucking and conveying piece, the mounting shell is a shell structure provided with an inner cavity and is fixedly mounted in a fixed shell, the motor is fixedly mounted in the fixed shell and is positioned above the mounting shell, the axial direction of an output shaft of the motor is vertical to the ground, and a power output end of the motor extends into the mounting shell;

the suction and delivery cylinder is of a circular pipeline structure with openings at two ends, the suction and delivery cylinder is fixedly arranged at the bottom of the mounting shell and is coaxially arranged with the motor, the bottom end of the suction and delivery cylinder penetrates through the closed end of the fixed shell and extends out of the fixed shell, and a connecting nozzle is arranged outside the suction and delivery cylinder and is close to the mounting shell;

inhale and send a piece including the auger, the coaxial movable mounting of auger is in inhaling and send a section of thick bamboo, the top of auger stretch into to installing the shell in and with the coaxial fixed connection of motor, the bottom of auger stretches out to inhaling and send a section of thick bamboo outside, the auger rotates and can carry mud to the connecting nozzle direction.

4. The slurry absorbing and conveying method for river regulation according to claim 3, wherein the bottom end of the packing auger is provided with an aggregating plate, the large surface of the aggregating plate is parallel to the axial direction of the packing auger and is fixed on the bottom end of the packing auger, the distance between the aggregating plate and the core line of the shaft of the packing auger is increased progressively along the rotation direction of the packing auger for absorbing slurry, the aggregating plate is arrayed vertically along the circumferential direction of the packing auger for a plurality of groups, and when the packing auger rotates for absorbing slurry, the aggregating plate synchronously rotates and can aggregate the slurry near the bottom end of the packing auger;

the bottom end of the suction and delivery cylinder is provided with a protective cover frame, and the auger bottom end and the gathering plate are both positioned in the protective cover frame.

5. The slurry suction and delivery method for river regulation according to claim 1, wherein the connecting members are provided in two sets and are respectively located at one end of the sliding plate in the extending direction of the sliding plate.

6. The slurry suction and delivery method for river regulation according to claim 1, wherein the check valve comprises a valve casing, a discharge pipeline, a valve core and a valve rod, the valve casing is of a cylindrical structure with openings at two ends, the two openings are respectively provided with a valve cover in a matching manner, the axial direction of the valve casing is parallel to the axial direction of the driving pulley of the belt transmission assembly, the valve casing is fixedly arranged in a fixed casing, the bottom of the valve casing is provided with a fixed nozzle, and the fixed nozzle is communicated with the opening end of the pump casing;

the discharge pipeline, the pump shell and the fixed nozzle are coaxially arranged, the bottom end of the discharge pipeline is connected and communicated with the top of the valve shell, the top end of the discharge pipeline penetrates through the fixed end cover and extends out of the fixed shell, a connecting pipe is arranged between the top end of the discharge pipeline and the storage equipment, and slurry is conveyed through the connecting pipe;

the valve core is of a cylindrical structure, the valve core is coaxially arranged in the valve shell, a sealed rotation fit is formed between the valve core and the valve shell, a valve hole penetrating through the radial thickness of the valve core is formed in the outer circular surface of the valve core, when the valve hole is communicated with the fixed nozzle/discharge pipeline, the one-way valve is in an open state, and when the valve hole is not in contact with the fixed nozzle/discharge pipeline, the one-way valve is in a closed state;

the valve rod and the valve core are coaxially arranged, one end of the valve rod is fixedly connected with the valve core, and the other end of the valve rod extends out of the valve shell.

7. The slurry suction and delivery method for river regulation according to claim 6, wherein the opening and closing member comprises guide posts and a linkage plate, the guide direction of the guide posts is parallel to the extending direction of the sliding plate and the guide posts are fixedly mounted on the fastening bracket, two groups of guide posts are arranged along the direction vertical to the ground and are respectively positioned on one side of the fastening bracket along the direction vertical to the ground;

the extension direction of interlock board perpendicular to ground, interlock board movable mounting constitute the slip guide cooperation between the guide pillar outside and the two, still set up the interlock hole of direction perpendicular to ground on the interlock board, the free end of towing pin pass the pulling hole and be located the interlock downthehole, the pulling pin operation and accessible and the cooperation in interlock hole order about the interlock board and take place the displacement along the guide direction of guide pillar.

8. The slurry suction and delivery method for river regulation according to claim 7, wherein the opening and closing member further comprises a housing, a gear shaft and an opening and closing plate, the housing is a shell structure provided with an inner cavity and is fixedly arranged on the top of the fastening bracket, and the free end of the valve rod extends into the housing;

the axial direction of the gear shaft is parallel to the extending direction of the valve rod, the gear shaft is movably arranged in the housing and can rotate around the axial direction of the gear shaft, two groups of gear shafts are arranged along the direction vertical to the ground and are a first gear shaft and a second gear shaft from bottom to top in sequence, and the power input end of the first gear shaft extends out of the housing;

the gear shaft I and the gear shaft II are provided with a power transmission piece I, power connection transmission is carried out between the power transmission piece I and the gear shaft II through the power transmission piece I, power connection transmission is carried out between the gear shaft II and the valve rod through the power transmission piece II, and the power transmission piece I and the power transmission piece II are both gear speed-increasing structures.

9. The slurry suction and delivery method for river regulation according to claim 8, wherein the extension direction of the opening and closing plate is perpendicular to the axial direction of the gear shaft, the opening and closing plate is further provided with a swing hole, the guide direction of which is parallel to the extension direction of the opening and closing plate, the top end of the opening and closing plate is provided with a rotary hole, and the rotary hole is fixedly sleeved outside the power input end of the first gear shaft through the rotary hole;

the top end of the linkage plate is provided with a swinging bulge, the free end of the swinging bulge is positioned in a swinging hole formed in the top end of the opening and closing plate, and when the linkage plate is displaced along the guide direction of the guide post, the linkage plate drives the opening and closing plate/the first gear shaft to axially rotate around the first gear shaft through the matching between the swinging bulge and the swinging hole;

when the traction pin moves between the lower contact point I and the lower contact point I, the one-way valve is in an open state, when the traction pin moves between the upper contact point I and the lower contact point I, the one-way valve is switched from the open state to the closed state, when the traction pin moves between the upper contact point III and the lower contact point I, the one-way valve is in the closed state, and when the traction pin moves between the lower contact point I and the lower contact point III, the one-way valve is switched from the closed state to the open state.

10. The slurry absorbing and conveying method for river regulation according to claim 3, wherein the power connection mechanism is arranged between the auger and the belt transmission assembly, the power connection mechanism comprises a first transmission shaft and a second transmission shaft, the axial direction of the first transmission shaft is parallel to the ground and perpendicular to the axial direction of the driving belt wheel of the belt transmission assembly, the first transmission shaft is movably arranged in the installation shell and can rotate around the axial direction of the first transmission shaft, the axial direction of the second transmission shaft is parallel to the axial direction of the driving belt wheel of the belt transmission assembly, the second transmission shaft is movably arranged in the installation shell and can rotate around the axial direction of the second transmission shaft, and the power output end of the second transmission shaft extends out of the installation shell and is positioned on one side of the installation shell facing the belt transmission assembly;

the auger transmission device is characterized in that a first power connecting piece is arranged between the first transmission shaft and the auger, power connection transmission is carried out between the first power connecting piece and the auger through the first power connecting piece, a second power connecting piece is arranged between the first transmission shaft and the second transmission shaft, power connection transmission is carried out between the first transmission shaft and the second transmission shaft through the second power connecting piece, a third power connecting piece is arranged between the second transmission shaft and a belt wheel shaft of a driving belt wheel of the belt transmission assembly, power connection transmission is carried out between the third power connecting piece and the belt wheel shaft of the driving belt wheel of the belt transmission assembly through the third power connecting piece, the first power connecting.

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