CN116440587B

CN116440587B - Sand sucking machine

Info

Publication number: CN116440587B
Application number: CN202310423042.5A
Authority: CN
Inventors: 郑笛; 唐棣; 王成; 赵雪莲; 黄文晶; 曹大军
Original assignee: Nanjing Nanlan Environmental Protection Industry Co ltd
Current assignee: Nanjing Nanlan Environmental Protection Industry Co ltd
Priority date: 2023-04-19
Filing date: 2023-04-19
Publication date: 2023-11-10
Anticipated expiration: 2043-04-19
Also published as: CN116440587A

Abstract

The utility model discloses a sand sucking machine, which comprises a sand sucking pool, wherein the sand sucking pool is arranged in the ground, and a sand collecting groove is arranged at the inner bottom of the sand sucking pool; the filter box is installed on the ground; the sand sucking mechanism comprises a sand sucking pump arranged at the left side of the filter box, the liquid inlet end of the sand sucking pump extends into the sand collecting groove, the liquid outlet end of the sand sucking pump extends into the filter box and is fixedly connected with an inclined sand blasting pipe; the filtering mechanism comprises a bearing plate horizontally arranged in the filtering box, a front groove and a rear groove of the bearing plate are fixedly connected with the front inner wall and the rear inner wall of the filtering box, and the upper end of the bearing plate is rotationally connected with a rotating shaft. In the actual use process of the sand sucker, the sand and water body separation is promoted by utilizing the larger impact force generated during sand and stone discharge, and in addition, part of redundant energy can be stored and used for subsequent sand and stone discharge work.

Description

Sand sucking machine

Technical Field

The utility model relates to the field of water treatment, in particular to a sand sucker.

Background

Along with the continuous development of environmental protection industry, the discharge standard of wastewater is continuously improved, common wastewater contains a large amount of sediment, the sediment possibly contains a large amount of heavy metals and chemical substances, and the wastewater containing the sediment is blindly discharged into a pipe network to bring serious influence to surrounding water quality, so that a sand sucker is required to be used, excessive moisture can be carried in the sand sucker in the sand sucking process, on one hand, the downstream sand-water separation cost can be increased, and on the other hand, the water loss in a sand sucking pool is excessive;

for this purpose, the utility model patent with publication number CN218458867U discloses a bridge type sand sucker. Relates to the technical field of sand sucking machines. The sand sucking device mainly comprises a bridge running system and a sand sucking pump, wherein the sand sucking pump is provided with a sand sucking pipe and a sand discharging pipe, the tail part of the sand discharging pipe is provided with a separating tank, the upper part of the separating tank is provided with a filter cabin, the lower part of the filter cabin is meshed, the upper part of the filter cabin is airtight, and the tail part of the sand discharging pipe is communicated with the upper part of the filter cabin; the bottom of the separation tank is provided with a pressurized water pump and a water return pipe, one end of the water return pipe is communicated with the sand suction tank, and the other end of the water return pipe is communicated with the pressurized water pump;

but in actual use, foretell in-process only utilizes the filter capsule to filter, carries out water sand separation, and actual separation effect is relatively poor, still has the water of a considerable part to be stained with and attach on the grit, can't separate, and in addition, follow-up owing to the grit is located the filter capsule, still needs the staff to open the cabin and takes out the grit of taking out to the external world, carries to in the subsequent process through conveyor, and holistic operation is comparatively troublesome.

Disclosure of Invention

The utility model aims to solve the defects in the prior art, and provides a sand sucker, which can promote the separation of sand and water by utilizing larger impact force generated during sand and stone discharge in the actual use process, and can store part of redundant energy and be used for subsequent sand and stone discharge work.

In order to achieve the above purpose, the present utility model adopts the following technical scheme:

the sand sucking machine comprises a sand sucking pool, wherein the sand sucking pool is arranged in the ground, and a sand collecting groove is formed in the inner bottom of the sand sucking pool; the filter box is installed on the ground; the sand sucking mechanism comprises a sand sucking pump arranged at the left side of the filter box, the liquid inlet end of the sand sucking pump extends into the sand collecting groove, the liquid outlet end of the sand sucking pump extends into the filter box and is fixedly connected with an inclined sand blasting pipe; the filtering mechanism comprises a bearing plate horizontally arranged in the filtering box, a front groove and a rear groove of the bearing plate are fixedly connected with the front inner wall and the rear inner wall of the filtering box, the upper end of the bearing plate is rotationally connected with a rotating shaft, the upper end of the rotating shaft is fixedly connected with a filter cartridge, and the inner bottom of the filtering box is communicated with the top space of the sand suction pool through a backflow channel; the auxiliary mechanism is used for improving the sand-water separation effect; and the moving mechanism is used for improving the sand sucking comprehensiveness.

Preferably, the auxiliary mechanism comprises a lifting cylinder arranged in the filter cylinder, the lower end of the lifting cylinder is fixedly connected with the inner bottom of the filter cylinder through a plurality of connecting thin rods, a plurality of impact blades are fixedly connected with the outer side of the lifting cylinder at equal intervals, and the impact blades are matched with the inclined sand blasting pipe.

Preferably, the moving mechanism comprises a rotating rod which is rotatably connected to the inner wall of the front side of the filter box, a second bevel gear is fixedly connected to the rotating rod, the lower end of the rotating shaft penetrates through the bearing plate and is fixedly connected with a first bevel gear, and the first bevel gear is meshed with the second bevel gear.

Preferably, a connecting strip is arranged on the ground, a chute is formed in the upper end of the connecting strip, a reciprocating screw rod is rotationally connected between the front inner wall and the rear inner wall of the chute, a sliding block is connected to the reciprocating screw rod in a threaded mode, the upper end of the sliding block is fixedly connected with the lower end of the sand suction pump, the sliding block is in sliding connection with the inner wall of the chute, and the front end of the rotating rod and the front end of the reciprocating screw rod are both extended to the outside and are in transmission connection through a transmission piece.

Preferably, the transmission member comprises two belt pulleys, the two belt pulleys are connected through belt transmission, and the two belt pulleys are respectively arranged on the rotating rod and the reciprocating screw rod.

Preferably, the electric power storage device further comprises an electric power storage mechanism, the electric power storage mechanism comprises an electric power storage assembly arranged on the rear side of the filter box, the electric power storage assembly comprises a micro-generator and a storage battery, an input shaft of the micro-generator extends to the inside of the filter box, and a third bevel gear is arranged, and the third bevel gear is meshed with the first bevel gear.

Preferably, the upper end of rose box has been fixed and has been connected with the installation section of thick bamboo, the lower extreme of installation section of thick bamboo extends to inside the rose box to with the upper end cooperation of hoist cylinder, the hoist cylinder is for the up and down terminal surface all is provided with open-ended barrel, the installation section of thick bamboo is terminal surface sealed lower terminal surface and is provided with open-ended barrel, the motor is installed to the upper end of installation section of thick bamboo, the output shaft of motor runs through installation section of thick bamboo and hoist cylinder in proper order, install the screw conveying leaf on the output shaft of motor, the bin outlet has been seted up on the headspace right side of installation section of thick bamboo, the right side fixedly connected with V form stock guide of bin outlet.

Preferably, the lateral wall of axis of rotation is last fixedly connected with horizontal form strip, be provided with the sliding chamber in the horizontal form strip, but sliding block that sliding chamber is provided with side-to-side sliding is provided with in the sliding chamber, one side that the axis of rotation was kept away from to the sliding block passes through spring and one side inner wall elastic connection in sliding chamber, one side fixedly connected with connecting rod that the axis of rotation was kept away from to the sliding block, the other end of connecting rod runs through the sliding chamber to fixedly connected with conducting block, first annular conducting strip and the annular conducting strip of second are installed to the interior bottom space of rose box, first annular conducting strip and the annular conducting strip of second are located the upper and lower part of conducting block respectively, and cooperate with the motor.

Compared with the prior art, the utility model has the beneficial effects that:

1. be provided with a plurality of impact blade, under the cooperation of impact blade and slope sandblast pipe, after the sand pump starts, can let the cartridge filter be in rotation state, with grit and water quick separation, relative prior art can realize the quick separation of water.

2. Utilize the setting of first bevel gear and second bevel gear and the cooperation of driving medium, at cartridge filter rotation in-process, still can let the sand sucking pump carry out back and forth reciprocating motion for the sand sucking work can be more comprehensive to the absorption pump.

3. The electric energy storage device is provided with the electric energy storage component, when the electric energy storage device is used, redundant mechanical energy can be converted into electric energy by the electric energy storage component and stored, after the sand suction is stopped subsequently, the motor can be started automatically, the storage capacity of the storage battery is released and used for subsequent discharging work, and the energy is fully utilized.

Drawings

FIG. 1 is a schematic diagram of a sand sucker according to the present utility model;

FIG. 2 is an enlarged view at A of FIG. 1;

FIG. 3 is an enlarged view at B of FIG. 1;

FIG. 4 is an enlarged view at C of FIG. 2;

FIG. 5 is a schematic front view of FIG. 1;

FIG. 6 is a top view of the inclined sandblasting tube mated with the blade;

FIG. 7 is a rear schematic view of the filter box;

fig. 8 is a left side cross-sectional view of the attachment strip attached to the slider.

In the figure: 1 sand sucking pool, 2 filter box, 3 return channel, 4 sand collecting tank, 5 sand sucking pump, 6 installation tube, 7 inclined sand blasting tube, 8 motor, 9V-shaped guide plate, 10 filter tube, 11 lifting tube, 12 impact blade, 13 spiral conveying blade, 14 connecting thin rod, 15 rotating shaft, 16 bearing plate, 17 first bevel gear, 18 second bevel gear, 19 rotating rod, 20 third bevel gear, 21 first annular conductive strip, 22 second annular conductive strip, 23 horizontal bar, 24 sliding cavity, 25 sliding block, 26 connecting rod, 27 spring, 28 conductive block, 29 connecting strip, 30 sliding groove, 31 sliding block, 32 reciprocating screw rod, 33 driving piece, 34 electric storage component.

Description of the embodiments

The technical solutions in the embodiments of the present utility model will be clearly and completely described below with reference to the accompanying drawings in the embodiments of the present utility model.

Referring to fig. 1 to 8, a sand sucking machine comprises a sand sucking pool 1, wherein the sand sucking pool 1 is arranged in the ground, and a sand collecting groove 4 is arranged at the inner bottom of the sand sucking pool 1;

as an embodiment of the present utility model, the present utility model further comprises a filter box 2, wherein the filter box 2 is installed on the ground;

as an implementation mode of the utility model, the sand sucking mechanism is further provided with the sand sucking mechanism, the sand sucking mechanism comprises a sand sucking pump 5 arranged at the left side of the filter box 2, the sand sucking pump 5 is in the prior art, sand can be absorbed and discharged, the liquid inlet end of the sand sucking pump 5 extends into the sand collecting groove 4, the liquid outlet end of the sand sucking pump 5 extends into the filter box 2, and an inclined sand blasting pipe 7 is fixedly connected;

as an embodiment of the utility model, the filter mechanism further comprises a filter mechanism, wherein the filter mechanism comprises a bearing plate 16 horizontally arranged in the filter box 2, the front and rear grooves of the bearing plate 16 are fixedly connected with the front and rear inner walls of the filter box 2, the upper end of the bearing plate 16 is rotatably connected with a rotating shaft 15, the upper end of the rotating shaft 15 is fixedly connected with a filter cartridge 10, and the inner bottom of the filter box 2 is communicated with the top space of the sand suction pool 1 through a backflow channel 3;

as an embodiment of the utility model, the sand-water separation device further comprises an auxiliary mechanism, wherein the auxiliary mechanism is used for improving the sand-water separation effect, the auxiliary mechanism comprises a lifting cylinder 11 arranged in a filter cylinder 10, the lower end of the lifting cylinder 11 is fixedly connected with the inner bottom of the filter cylinder 10 through a plurality of connecting thin rods 14, a plurality of impact blades 12 are fixedly and equally spaced on the outer side of the lifting cylinder 11, the impact blades 12 are matched with the inclined sand blasting pipe 7, and as shown in fig. 6, the lifting cylinder 11 can be driven to rotate by utilizing the impact of sand stone;

as one embodiment of the utility model, the sand sucking device further comprises a moving mechanism, wherein the moving mechanism is used for improving the sand sucking comprehensiveness and comprises a rotating rod 19 which is rotationally connected to the inner wall of the front side of the filter box 2, a second bevel gear 18 is fixedly connected to the rotating rod 19, the lower end of the rotating shaft 15 penetrates through a bearing plate 16 and is fixedly connected with a first bevel gear 17, the first bevel gear 17 is meshed with the second bevel gear 18, a connecting strip 29 is arranged on the ground, a sliding groove 30 is formed in the upper end of the connecting strip 29, a reciprocating screw rod 32 is rotationally connected between the front inner wall and the rear inner wall of the sliding groove 30, a sliding block 31 is connected to the upper end of the sliding block 31 and the lower end of the sand sucking pump 5 in a sliding manner, the front end of the rotating rod 19 and the front end of the reciprocating screw rod 32 are both extended to the outside and are in transmission connection through a transmission piece 33, the two belt pulleys are in transmission connection, and the two belt pulleys are respectively arranged on the rotating rod 19 and the reciprocating screw rod 32;

as one embodiment of the present utility model, the present utility model further comprises an electric storage mechanism comprising an electric storage module 34 mounted on the rear side of the filter housing 2, the electric storage module 34 being composed of a micro-generator and a battery, the input shaft of the micro-generator extending into the filter housing 2 and being mounted with a third bevel gear 20, the third bevel gear 20 being meshed with the first bevel gear 17;

as one implementation mode of the utility model, the upper end of the filter box 2 is fixedly connected with a mounting cylinder 6, the lower end of the mounting cylinder 6 extends into the filter box 2 and is matched with the upper end of a lifting cylinder 11, the lifting cylinder 11 is a cylinder body with openings on the upper end face and the lower end face, the mounting cylinder 6 is a cylinder body with openings on the upper end face and the lower end face, a motor 8 is arranged at the upper end of the mounting cylinder 6, an output shaft of the motor 8 sequentially penetrates through the mounting cylinder 6 and the lifting cylinder 11, a spiral conveying blade 13 is arranged on the output shaft of the motor 8, a discharge opening is arranged on the right side of the top space of the mounting cylinder 6, a V-shaped guide plate 9 is fixedly connected on the right side of the discharge opening, a transverse strip 23 is fixedly connected on the side wall of the rotating shaft 15, a sliding cavity 24 is arranged in the transverse strip 23, the sliding block 25 capable of sliding left and right is arranged in the sliding cavity 24, one side, far away from the rotating shaft 15, of the sliding block 25 is elastically connected with the inner wall of one side of the sliding cavity 24 through a spring 27, one side, far away from the rotating shaft 15, of the sliding block 25 is fixedly connected with a connecting rod 26, the other end of the connecting rod 26 penetrates through the sliding cavity 24 and is fixedly connected with a conducting block 28, a first annular conducting strip 21 and a second annular conducting strip 22 are arranged in the inner bottom space of the filter box 2, the first annular conducting strip 21 and the second annular conducting strip 22 are respectively located above and below the conducting block 28 and are matched with the motor 8, the anode of the storage battery is electrically connected with the first annular conducting strip 21 through a conducting wire, and the cathode of the storage battery, the motor 8 and the first annular conducting strip 21 are electrically connected through a conducting wire.

In the utility model, when sand removal is needed in the actual use process, the sand suction pump 5 is started, the sand suction pump 5 pumps water containing sand into the filter cartridge 10, in the process, the sand impacts the impact blades 12 and then impacts the lifting cylinder 11 to rotate, the whole filter cartridge 10 is driven to rotate by the rotation of the lifting cylinder 11, the filter cartridge 10 is always in a rotating state after the sand suction pump 5 is started, the sand is subjected to the centrifugal force action, the water is separated from the sand suction pump, the water can be rapidly separated in the mode, and the separated water finally enters the sand suction tank 1 along the backflow channel 3, so that the water loss is effectively avoided;

in the above process, the rotation of the filter cartridge 10 also drives the rotation shaft 15 to rotate, the rotation of the rotation shaft 15 passes through the first bevel gear 17 and the second bevel gear 18, and then the transmission member 33 is matched, so that the reciprocating screw rod 32 can rotate, the sliding block 31 can reciprocate back and forth, and finally the sand suction pump 5 reciprocates back and forth, so that the sand suction pump 5 can fully suck sand and stone in water;

in addition, in the above process, the rotation of the first bevel gear 17 also enables the input shaft of the micro-generator to rotate through the third bevel gear 20 to charge the storage battery, and because the sliding block 25 and the conducting block 28 are driven by centrifugal force to rotate away from the rotating shaft 15 at this time, the conducting block 28 cannot contact the first annular conducting strip 21 and the second annular conducting strip 22, the motor 8 is not started at this time, after the sand sucking pump 5 is stopped later, the filter cartridge 10 also slowly stops rotating, when the filter cartridge 10 is close to stopping rotating, the centrifugal force received by the conducting block 28 is smaller, the conducting block 28 is driven by the elasticity of the spring 27, the conducting block 28 can be moved back to contact with the first annular conducting strip 21 and the second annular conducting strip 22, the electric energy stored by the storage battery is released, the motor 8 is driven, the driving of the motor 8 drives the spiral conveying blade 13 to rotate, the sand and the sand separated by the water body is conveyed upwards, and finally conveyed to the V-shaped guide plate 9 to the external conveying belt, so that the subsequent discharging work is convenient.

The foregoing is only a preferred embodiment of the present utility model, but the scope of the present utility model is not limited thereto, and any person skilled in the art, who is within the scope of the present utility model, should make equivalent substitutions or modifications according to the technical scheme of the present utility model and the inventive concept thereof, and should be covered by the scope of the present utility model.

Claims

1. A sand sucker, comprising:

the sand sucking pool (1), the sand sucking pool (1) is arranged in the ground, and a sand collecting groove (4) is arranged at the inner bottom of the sand sucking pool (1);

the filter box (2), the said filter box (2) is installed on ground;

the sand sucking mechanism comprises a sand sucking pump (5) arranged at the left side of the filter box (2), the liquid inlet end of the sand sucking pump (5) extends into the sand collecting groove (4), the liquid outlet end of the sand sucking pump (5) extends into the filter box (2) and is fixedly connected with an inclined sand blasting pipe (7);

the filtering mechanism comprises a bearing plate (16) horizontally arranged in the filtering box (2), a front groove and a rear groove of the bearing plate (16) are fixedly connected with the front inner wall and the rear inner wall of the filtering box (2), the upper end of the bearing plate (16) is rotatably connected with a rotating shaft (15), the upper end of the rotating shaft (15) is fixedly connected with a filter cylinder (10), and the inner bottom of the filtering box (2) is communicated with the top space of the sand suction pool (1) through a backflow channel (3);

the sand-water separation device comprises an auxiliary mechanism, wherein the auxiliary mechanism is used for improving the sand-water separation effect and comprises a lifting cylinder (11) arranged in a filter cylinder (10), the lower end of the lifting cylinder (11) is fixedly connected with the inner bottom of the filter cylinder (10) through a plurality of connecting thin rods (14), a plurality of impact blades (12) are fixedly connected to the outer side of the lifting cylinder (11) at equal intervals, and the impact blades (12) are matched with an inclined sand blasting pipe (7);

the upper end of the filter tank (2) is fixedly connected with a mounting cylinder (6), the lower end of the mounting cylinder (6) extends into the filter tank (2) and is matched with the upper end of a lifting cylinder (11), the lifting cylinder (11) is a cylinder body with openings on the upper end face and the lower end face, the mounting cylinder (6) is a cylinder body with openings on the upper end face and the lower end face, a motor (8) is mounted at the upper end of the mounting cylinder (6), an output shaft of the motor (8) sequentially penetrates through the mounting cylinder (6) and the lifting cylinder (11), a spiral conveying blade (13) is mounted on the output shaft of the motor (8), a discharge opening is formed in the right side of a top space of the mounting cylinder (6), and a V-shaped guide plate (9) is fixedly connected to the right side of the discharge opening;

the moving mechanism is used for improving the sand sucking comprehensiveness;

the motor also comprises an electric storage mechanism which is linked with the rotating shaft (15) and supplies power to the motor (8).

2. A sand sucker according to claim 1, characterized in that the moving mechanism comprises a rotating rod (19) rotatably connected to the inner wall of the front side of the filter box (2), a second bevel gear (18) is fixedly connected to the rotating rod (19), the lower end of the rotating shaft (15) penetrates through the bearing plate (16) and is fixedly connected with a first bevel gear (17), and the first bevel gear (17) is meshed with the second bevel gear (18).

3. The sand sucking machine according to claim 2, characterized in that a connecting bar (29) is arranged on the ground, a sliding groove (30) is formed in the upper end of the connecting bar (29), a reciprocating screw rod (32) is rotationally connected between the front inner wall and the rear inner wall of the sliding groove (30), a sliding block (31) is connected to the reciprocating screw rod (32) in a threaded mode, the upper end of the sliding block (31) is fixedly connected with the lower end of the sand sucking pump (5), the sliding block (31) is slidably connected with the inner wall of the sliding groove (30), and the front end of the rotating rod (19) and the front end of the reciprocating screw rod (32) extend to the outside and are in transmission connection through a transmission piece (33).

4. A sand sucker according to claim 3, characterized in that the transmission member (33) comprises two pulleys, which are connected by a belt transmission, the two pulleys being mounted on the rotary rod (19) and the reciprocating screw (32), respectively.

5. A sand suction machine according to claim 2, characterized in that the electric storage mechanism comprises an electric storage assembly (34) mounted at the rear side of the filter box (2), the electric storage assembly (34) being composed of a micro-generator and a battery, the input shaft of the micro-generator extending into the filter box (2) and being fitted with a third bevel gear (20), the third bevel gear (20) being in engagement with the first bevel gear (17).

6. The sand sucker according to claim 1, characterized in that a horizontal bar (23) is fixedly connected to the side wall of the rotating shaft (15), a sliding cavity (24) is arranged in the horizontal bar (23), a sliding block (25) capable of sliding left and right is arranged in the sliding cavity (24), one side, far away from the rotating shaft (15), of the sliding block (25) is elastically connected with the inner wall of one side of the sliding cavity (24) through a spring (27), one side, far away from the rotating shaft (15), of the sliding block (25) is fixedly connected with a connecting rod (26), the other end of the connecting rod (26) penetrates through the sliding cavity (24) and is fixedly connected with a conducting block (28), a first annular conducting bar (21) and a second annular conducting bar (22) are arranged in the inner bottom space of the filter box (2), and the first annular conducting bar (21) and the second annular conducting bar (22) are respectively located above and below the conducting block (28) and are matched with the motor (8).