CN113231389B - Convenient sand-water separator for civil engineering who removes - Google Patents

Abstract

The invention discloses a sand-water separation device convenient to move for civil engineering, which relates to the technical field of civil engineering and comprises a base, a driving component, a rising bin, a communicating bin, a support, a separation component and a drying component, wherein the rising bin is fixed on the upper end surface of the base by adopting the support, a spiral motor is fixed at one end of the rising bin, a shaftless spiral blade is fixed at the output end of the spiral motor, the shaftless spiral blade is coaxially and rotatably arranged in the rising bin, the communicating bin is fixed at the top of the other end of the rising bin, the separation component is fixed at the top of the communicating bin, the separation component can preliminarily separate sand water, a drain pipe is also fixed at one end of the rising bin close to the communicating bin and used for discharging muddy water, the drying component is horizontally arranged at the bottom of the rising bin close to the middle position, the driving component is arranged on the base, the driving assembly can drive the device to move, and the mobility of the device is increased.

Description

Convenient sand-water separator for civil engineering who removes

Technical Field

The invention relates to the technical field of civil engineering, in particular to a sand-water separation device convenient to move for civil engineering.

Background

The grit generally uses the river sand for civil engineering, but the phenomenon that grit silt mixes often can appear when gathering in the river sand, consequently need use sand-water separator, and current sand-water separator is low to the cleaning efficiency of grit, and when sand-water separator removed, need carry out the dismouting to it, was unfavorable for the removal of device to the efficiency of work has been influenced.

In view of the above problems, the present invention provides a sand-water separating device for civil engineering works, which is convenient to move, to solve the above problems.

Disclosure of Invention

In order to achieve the purpose, the invention provides the following technical scheme: a sand-water separation device convenient to move for civil engineering comprises a base, a driving assembly, a lifting bin, a communicating bin, a support, a separation assembly and a drying assembly, wherein the lifting bin is fixed on the upper end face of the base through the support;

a communicating bin is fixed at the top of the other end of the ascending bin, a separating assembly is fixed at the top of the communicating bin, and the separating assembly can preliminarily separate sand from water;

a drainage pipe is further fixed at one end, close to the communicating bin, of the ascending bin and used for discharging muddy water, a discharge port is formed in the bottom of one end, close to the spiral motor, of the ascending bin, a piano-shaped dust cover is fixed at the bottom of the discharge port, and a drying assembly is horizontally arranged at the bottom of the ascending bin, close to the middle position;

the base is provided with a driving assembly, and the driving assembly can drive the device to move.

Further, preferably, a placing bin is arranged in the base, and a plurality of lifting grooves are formed in the bottom of the placing bin and used for driving the assembly to lift;

the bottom of the base is slidably provided with a plurality of stable drill rods, and telescopic springs are arranged between the stable drill rods and the base.

The drive assembly comprises a lifting assembly and a reciprocating rotating assembly, wherein the lifting assembly is arranged in the placing bin by adopting a plurality of reinforcing telescopic rods in a sliding manner, the reciprocating rotating assembly is arranged on the upper end face of the base, and the reciprocating rotating assembly can drive the lifting assembly to slide up and down.

Further, preferably, the lifting assembly comprises a lifting plate, a plurality of driving wheels and an anti-slip sleeve, wherein the plurality of driving wheels are rotatably arranged on two sides of the lifting plate through rotating shafts, the plurality of driving wheels correspond to lifting grooves formed in the bottom of the base in a one-to-one manner, and the anti-slip sleeve is coaxially sleeved on each of the plurality of driving wheels;

and the driving wheels at the two ends of the lifting plate are universal wheels.

Further, preferably, the reciprocating rotation assembly comprises a reduction box body, a rotation motor, a crankshaft and a connecting rod journal, wherein the reduction box body is fixed at one end of the top of the base, the rotation motor is fixed at the top of the base by adopting a mounting seat, the rotation motor drives the crankshaft to rotate through the reduction box body, and the crankshaft drives the lifting assembly to slide up and down by adopting a plurality of connecting rod journals which are rotatably arranged;

the rotating motor adopts a ratchet wheel to brake the rotating motor, the ratchet wheel is limited by at least two pawls, and the pawls adopt torsion springs to provide power for the pawls.

Further, it is preferred, the separable set includes separating bin, collecting bin, separating barrel and separation motor, wherein, separating bin fixes the top at the intercommunication storehouse, separating bin's inside bottom mounting has collecting bin, the inside separating barrel that is provided with of collecting bin, just, the separating barrel slope sets up, separating barrel one end adopts bevel gear to be provided with the separation motor.

Further, preferably, a discharge hole is fixed at one end of the top of the separation bin, and one end of the discharge hole extends into the separation barrel;

the bottom of collecting the storehouse is fixed with grit export and muddy water export from a left side to the right side in proper order, just, grit export and muddy water export all are located inside the intercommunication storehouse, the inside division board that is fixed with in intercommunication storehouse, the division board is located between grit export and the muddy water export.

Further, preferably, the separation barrel comprises a separation barrel wall, a rotating shaft, a connecting column and a cleaning column, wherein the separation barrel wall is fixed inside the collection bin, the rotating shaft is coaxially arranged inside the separation barrel wall, and the rotating shaft is rotatably arranged inside the separation bin by adopting a bearing seat;

one end of a plurality of groups of connecting columns is distributed in the axial direction of the rotating shaft, and a plurality of cleaning columns are distributed on the circumference of the other end of each group of connecting columns.

Further, preferably, a filter screen is fixed at the bottom of the wall of the separation barrel, and a plurality of turning screens are fixed among the connecting columns along the axial direction of the rotating shaft.

Further, it is preferred, dry subassembly includes dry wall, feed cylinder, dog and humidity inductor, wherein dry wall adopts the feed cylinder of vertical setting to be linked together with the storehouse that rises, just, still be provided with the dog between feed cylinder and the storehouse that rises, the dog is driven by the cylinder that opens and shuts of the fixed storehouse bottom that rises of symmetry, the one end that the feed cylinder was kept away from to dry wall is fixed on the storehouse that rises, be fixed with the humidity inductor on the inner wall in storehouse that rises.

Further, preferably, the inside rotatable conveying leaf that is provided with of drying wall, the conveying leaf is driven by conveying motor, the lateral wall of drying wall is provided with the grit entry for put in dry grit

Compared with the prior art, the sand-water separation device for civil engineering, which is convenient to move, provided by the invention has the following beneficial effects:

according to the invention, the separation barrel is arranged in the separation bin, the water inlet arranged at the top of the separation barrel can clean the sand entering the separation barrel, the separation motor drives the rotating shaft to rotate and drives the turnover net to rotate after the sand enters the separation barrel, the sand is turned over, the cleaning efficiency is improved, the cleaned mud water flows from the mud water outlet to the drain pipe through the filter screen and is discharged from one end of the separation barrel, the sand enters the lifting bin through the sand outlet, the shaftless spiral blades in the lifting bin convey the sand to the discharge port, in addition, in the conveying process, the water remained on the sand flows to the drain pipe through the gap between the lifting bin and the shaftless spiral blades and is discharged, the sand-water separation effect is improved, the organ-shaped dust cover of the discharge port can isolate the dust generated when the sand falls, and the working environment is improved;

the humidity sensor arranged in the ascending bin can sense the humidity of the sand, when the humidity is too high, the external dry sand is placed into the drying assembly, the stop block is opened by the opening and closing control cylinder, so that the sand enters the drying assembly, the drying assembly enables the dry sand inside the drying assembly to be mixed with the entering sand through the rotation of the conveying blades, the drying degree of the sand is improved, the conveying blades are always in a working state, and the sand inside the ascending bin is prevented from entering the drying assembly from the outlet of the drying wall;

when the device need remove, the rotating electrical machines in the drive assembly passes through the reduction box and improves the output of moment of torsion, make the bent axle drive connecting rod axle journal drive lifter plate downstream, until the drive wheel with the device jack-up, the ratchet passes through the gyration of pawl restriction rotating electrical machines this moment, the torsion that the rotating electrical machines output shaft received has been reduced, the life of rotating electrical machines has been improved, when removing the device to required position, the rotating electrical machines continues to rotate, make the lifter plate rise, firm drill rod gets into ground, the stability of the device is improved, and when firm drill rod touches hard object, stretch out and draw back through expanding spring, the damage of firm drill rod has been prevented.

Drawings

FIG. 1 is a schematic view of an entirety of a sand-water separating apparatus for civil engineering works which is convenient to move;

FIG. 2 is a schematic view of a driving assembly of a sand-water separating apparatus for civil engineering works which is easy to move;

FIG. 3 is a schematic view of a brake assembly of a sand-water separating device for civil engineering which is convenient to move

FIG. 4 is a schematic view of a separation module of a sand-water separation apparatus for civil engineering works which is easy to move;

FIG. 5 is a schematic view of the inside of a separation vessel of a sand-water separation apparatus for civil engineering work, which is easy to move;

FIG. 6 is a schematic view of a drying unit of a sand-water separating apparatus for civil engineering works which is easy to move;

in the figure: 1. a base; 11. a lifting groove; 12. stabilizing the drill rod; 13. a tension spring; 2. a drive assembly; 21. a lifting plate; 22. a drive wheel; 23. reinforcing the telescopic rod; 24. a reduction box body; 241. a gear set; 242. a mounting seat; 243. ratchet wheel, 244, pawl; 245. a torsion spring; 25. a rotating electric machine; 26. a crankshaft; 27. a bearing seat; 28. a connecting rod journal; 3. raising the bin; 4. communicating the bins; 5. a drain pipe; 6. a screw motor; 7. shaftless helical blades; 8. a discharge port; 9. a separation assembly; 91. separating the bins; 92. a collection bin; 93. a separation barrel; 931. separating the barrel wall; 932. a rotating shaft; 933. connecting columns; 934. cleaning the column; 935. turning over the net; 936. a filter screen; 94. separating the motor; 95. a discharging port; 96. a sandstone outlet; 97. a muddy water outlet; 98. a partition plate; 10. a drying assembly; 101. drying the wall; 102. conveying leaves; 103. a conveying motor; 104. a charging barrel; 105. a stopper; 106. an opening and closing cylinder; 107. a humidity sensor.

Detailed Description

Referring to fig. 1, the present invention provides a technical solution: a sand-water separation device convenient to move for civil engineering comprises a base 1, a driving assembly 2, an ascending bin 3, a communicating bin 4, a support, a separation assembly 9 and a drying assembly 10, wherein the ascending bin 3 is fixed on the upper end face of the base 1 through the support, a spiral motor 6 is fixed at one end of the ascending bin 3, a shaftless spiral blade 7 is fixed at the output end of the spiral motor 6, the shaftless spiral blade 7 is coaxially and rotatably arranged in the ascending bin 3, and a gap is reserved between the shaftless spiral blade 7 and the ascending bin 3 and is smaller than the size of gravel particles to prevent the gravel from flowing out;

a communicating bin 4 is fixed at the top of the other end of the ascending bin 3, a separating assembly 9 is fixed at the top of the communicating bin 4, and the separating assembly 9 can be used for preliminarily separating sand from water;

a drain pipe 5 is further fixed at one end of the ascending bin 3 close to the communicating bin 4 and used for discharging muddy water, a discharge port 8 is formed in the bottom of one end of the ascending bin 3 close to the spiral motor 6, a piano-shaped dust cover is fixed at the bottom of the discharge port 8, a drying assembly 10 is horizontally arranged at the bottom of the ascending bin 3 close to the middle position, and the piano-shaped dust cover can be stretched to adapt to collecting vehicles with different heights;

the base 1 is provided with a driving component 2, and the driving component 2 can drive the device to move.

Referring to fig. 2 to 3, in this embodiment, a placing bin is formed inside the base 1, and a plurality of lifting grooves 11 are formed at the bottom of the placing bin and used for lifting the driving assembly 2;

the bottom of the base 1 is slidably provided with a plurality of stabilizing drill rods 12, and telescopic springs 13 are arranged between the stabilizing drill rods 12 and the base 1, namely, when the stabilizing drill rods 12 touch hard objects, the stabilizing drill rods 12 can be stretched by the telescopic springs 13, so that the stabilizing drill rods 12 are prevented from being damaged;

drive assembly 2 includes lifting unit and reciprocal rotating assembly, wherein, lifting unit adopts a plurality of reinforcement telescopic links 23 slidable to set up in placing the storehouse, reciprocal rotating assembly sets up the up end at base 1, just, reciprocal rotating assembly can drive lifting unit and slide from top to bottom.

As a preferred embodiment, the lifting assembly includes a lifting plate 21, a plurality of driving wheels 22 and an anti-slip sleeve, wherein the plurality of driving wheels 22 are rotatably disposed on two sides of the lifting plate 21 by using a rotating shaft, the plurality of driving wheels 22 correspond to the lifting grooves 11 formed in the bottom of the base 1 one by one, and the anti-slip sleeve is coaxially sleeved on each of the plurality of driving wheels 22;

and, the driving wheels 22 at both ends of the lifting plate 21 are all universal wheels, which is convenient for the device to turn when moving.

As a preferred embodiment, the reciprocating rotation assembly includes a reduction box 24, a rotation motor 25, a crankshaft 26, a connecting rod journal 28 and a connecting member 29, wherein the reduction box 24 is fixed at one end of the top of the base 1, the rotation motor 25 is fixed at the top of the base 1 by using a mounting seat 242, the rotation motor 25 drives the crankshaft 26 to rotate through the reduction box 24, the crankshaft 26 drives the lifting assembly to slide up and down by using a plurality of rotatably arranged connecting rod journals 28, it should be noted that at least three sets of gear sets 241 are arranged inside the reduction box 24, so that the torsion force applied to the rotation motor 25 can be greatly reduced, and the service life of the rotation motor 25 is prolonged;

the rotating motor 25 is braked by a ratchet wheel 243, and the ratchet wheel 243 is limited by at least two pawls 244, the pawl 244 is powered by a torsion spring (245), and specifically, a fixed frame is arranged between the reduction box body 24 and the rotating motor 25, the fixed frame is fixed on the top of the base 1, and, the fixed frame is sleeved on the output shaft of the rotating electrical machine 25, a ratchet 243 is coaxially fixed on the output shaft of the rotating electrical machine 25, the ratchet 243 performs unidirectional rotation through a pawl 244, moreover, the pawls 244 are symmetrically disposed on one side of the fixing frame, and a torsion spring 245 is disposed between the pawls and the fixing frame, that is, the ratchet 243 can limit the rotation of the rotating electrical machine 25 through the pawls 244, so that the torsion applied to the output shaft of the rotating electrical machine 25 is reduced, and the service life of the rotating electrical machine 25 is prolonged.

Referring to fig. 4 to 5, in this embodiment, the separation assembly 9 includes a separation bin 91, a collection bin 92, a separation barrel 93 and a separation motor 94, wherein the separation bin 91 is fixed at the top of the communication bin 4, the collection bin 92 is fixed at the bottom end of the separation bin 91, the separation barrel 93 is arranged inside the collection bin 92, the separation barrel 93 is arranged in an inclined manner, and the separation motor 94 is arranged at one end of the separation barrel 93 by using a bevel gear.

In a preferred embodiment, a discharge port 95 is fixed at one end of the top of the separation bin 91, and one end of the discharge port 95 extends into the separation barrel 93;

collect the bottom of storehouse 92 from a left side to the right side and be fixed with grit export 96 and muddy water export 97 in proper order, just, grit export 96 and muddy water export 97 all are located inside the storehouse 4 that communicates, the inside division board 98 that is fixed with of storehouse 4 that communicates, division board 98 is located between grit export 96 and the muddy water export 97.

In a preferred embodiment, the separation barrel 93 comprises a separation barrel wall 931, a rotating shaft 932, a connecting column 933 and a sweeping column 934, wherein the separation barrel wall 931 is fixed inside the collection bin 92, the rotating shaft 932 is coaxially arranged inside the separation barrel wall 931, the rotating shaft 932 is rotatably arranged inside the separation bin 91 by adopting a bearing seat, and a water inlet pipe is connected to the top of the separation barrel wall 93 and can clean sand inside the separation barrel wall 93;

the one end of pivot 932 axial direction laid multiunit spliced pole 933, the multiunit a plurality of posts 934 that clean have been laid to the other end circumference of spliced pole 933, and is specific, a plurality of clean post 934 can reduce muddy water and grit attached to on the separation bucket wall 93 inner wall.

In a preferred embodiment, a filter screen 936 is fixed at the bottom of the separation barrel wall 931, and a plurality of turning nets 935 are fixed between the plurality of sets of connecting posts 933 along the axial direction of the rotating shaft 932, it should be noted that the filter apertures of the filter screen 936 and the turning nets 935 are smaller than the particle size of the sand, so as to prevent the sand from entering the drain pipe 5.

Referring to fig. 6, in this embodiment, the drying assembly 10 includes a drying wall 101, a feeding barrel 104, a stopper 105 and a humidity sensor 107, wherein the drying wall 101 is communicated with the ascending bin 3 by using the vertically arranged feeding barrel (104), the stopper 105 is further disposed between the feeding barrel 104 and the ascending bin 3, the stopper 105 is driven by an opening and closing cylinder symmetrically fixed at the bottom of the ascending bin 3, one end of the drying wall 101, which is far away from the feeding barrel 104, is fixed on the ascending bin 3, and the humidity sensor 107 is fixed on the inner wall of the ascending bin 3.

In a preferred embodiment, a conveying blade 102 is rotatably disposed inside the drying wall 101, the conveying blade 102 is driven by a conveying motor 103, a sand inlet is disposed on a side wall of the drying wall 101 for feeding dried sand, it should be noted that the conveying blade 102 is always in a rotating state, so as to prevent the sand inside the uptake bin 3 from entering the drying assembly 10 from the outlet of the drying wall 101, and when the humidity sensor 107 senses that the humidity of the sand inside the uptake bin 3 exceeds a set value, the dried sand is fed into the drying wall 101.

Specifically, sand water to be separated is put in from a discharge port 95 and enters a separation barrel 93, sand and stone are cleaned by water entering through a water inlet, during cleaning, a separation motor 94 drives a rotating shaft 932 to rotate and drives a turnover net 935 to rotate so as to turn over the sand and stone, cleaning efficiency is improved, cleaned muddy water flows from a muddy water outlet 97 to a drain pipe 5 through a filter screen 936 and is discharged from one end of the separation barrel 93 and enters a rising bin 3 through a sand outlet 96, shaftless spiral blades 7 inside the rising bin 3 convey the sand and stone to a discharge port 8, in the conveying process, residual water on the sand and stone flows to the drain pipe 5 through a gap between the rising bin 3 and the shaftless spiral blades 7 and is discharged, the sand water separation effect is improved, when a humidity sensor 107 senses that the humidity of the sand and stone inside the rising bin 3 exceeds a set value, the sand and stone is put in and dried from a sand input port to the inside a drying wall 101, when the device needs to move, the rotating motor 25 in the driving assembly 2 drives the crankshaft 26 to drive the connecting rod journal 28 to drive the lifting plate 21 to move downwards through the reduction box body 24 until the driving wheel 22 jacks up the device, the ratchet 243 limits the rotation of the rotating motor 25 through the pawl 244 at the moment, when the device is moved to a required position, the rotating motor 25 continues to rotate, the lifting plate 21 is lifted, the stable drill rod 12 enters the ground, the stability of the device is improved, and when the stable drill rod 12 touches a hard object, the stable drill rod 12 stretches through the telescopic spring 13, and the stable drill rod 12 is prevented from being damaged.

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

Claims (5)

1. The utility model provides a convenient sand-water separator for civil engineering who removes, includes base (1), drive assembly (2), rises storehouse (3), intercommunication storehouse (4), support, separable set (9) and dry subassembly (10), wherein, base (1) up end adopts the support to be fixed with storehouse (3) that rises, the one end that rises storehouse (3) is fixed with helical motor (6), the output of helical motor (6) is fixed with shaftless spiral leaf (7), the coaxial rotatable setting of shaftless spiral leaf (7) is in storehouse (3) that rises, its characterized in that:

a communicating bin (4) is fixed at the top of the other end of the ascending bin (3), a separating assembly (9) is fixed at the top of the communicating bin (4), and the separating assembly (9) can be used for preliminarily separating sand and water;

a drain pipe (5) is further fixed at one end, close to the communicating bin (4), of the ascending bin (3) and used for discharging muddy water, a discharge hole (8) is formed in the bottom of one end, close to the spiral motor (6), of the ascending bin (3), a wind organ-shaped dust cover is fixed at the bottom of the discharge hole (8), and a drying assembly (10) is horizontally arranged at the bottom of the ascending bin (3), close to the middle position;

the base (1) is provided with a driving component (2), and the driving component (2) can drive the device to move;

the separation assembly (9) comprises a separation bin (91), a collection bin (92), a separation barrel (93) and a separation motor (94), wherein the separation bin (91) is fixed at the top of the communication bin (4), the collection bin (92) is fixed at the bottom end inside the separation bin (91), the separation barrel (93) is arranged inside the collection bin (92), the separation barrel (93) is obliquely arranged, and the separation motor (94) is arranged at one end of the separation barrel (93) by adopting a bevel gear;

the separation barrel (93) comprises a separation barrel wall (931), a rotating shaft (932), a connecting column (933) and a cleaning column (934), wherein the separation barrel wall (931) is fixed inside the collection bin (92), the rotating shaft (932) is coaxially arranged inside the separation barrel wall (931), the rotating shaft (932) is rotatably arranged inside the separation bin (91) through a bearing seat, and a water inlet pipe is connected to the top of the separation barrel wall (931);

one end of a plurality of groups of connecting columns (933) is arranged in the axial direction of the rotating shaft (932), and a plurality of cleaning columns (934) are circumferentially arranged at the other end of the plurality of groups of connecting columns (933);

a filter screen (936) is fixed at the bottom of the separation barrel wall (931), and a plurality of turnover screens (935) are fixed among a plurality of groups of connecting columns (933) along the axial direction of the rotating shaft (932);

the drying assembly (10) comprises a drying wall (101), a feeding barrel (104), a stop block (105) and a humidity sensor (107), wherein the drying wall (101) is communicated with the ascending bin (3) through the vertically arranged feeding barrel (104), the stop block (105) is further arranged between the feeding barrel (104) and the ascending bin (3), the stop block (105) is driven by an opening and closing cylinder symmetrically fixing the bottom of the ascending bin (3), one end, far away from the feeding barrel (104), of the drying wall (101) is fixed on the ascending bin (3), and the humidity sensor (107) is fixed on the inner wall of the ascending bin (3);

conveying leaves (102) are rotatably arranged in the drying wall (101), the conveying leaves (102) are driven by a conveying motor (103), and a sand inlet is formed in the side wall of the drying wall (101) and used for putting dry sand.

2. A portable sand-water separator for civil engineering works according to claim 1, wherein: a placing bin is formed in the base (1), and a plurality of lifting grooves (11) are formed in the bottom of the placing bin and used for driving the assembly (2) to lift; the bottom of the base (1) is slidably provided with a plurality of stabilizing drill rods (12), and telescopic springs (13) are arranged between the stabilizing drill rods (12) and the base (1);

drive assembly (2) are including lifting unit and reciprocal rotating assembly, wherein, lifting unit adopts a plurality of reinforcement telescopic links (23) slidable to set up in placing the storehouse, reciprocal rotating assembly sets up the up end at base (1), just, reciprocal rotating assembly can drive lifting unit and slide from top to bottom.

3. A portable sand-water separator for civil engineering works according to claim 2, wherein: the lifting assembly comprises a lifting plate (21), a plurality of driving wheels (22) and anti-skidding sleeves, wherein the plurality of driving wheels (22) are rotatably arranged on two sides of the lifting plate (21) through rotating shafts, the plurality of driving wheels (22) correspond to lifting grooves (11) formed in the bottom of the base (1) one by one, and the anti-skidding sleeves are coaxially sleeved on the plurality of driving wheels (22);

and the driving wheels (22) at the two ends of the lifting plate (21) are universal wheels.

4. A portable sand-water separator for civil engineering works according to claim 2, wherein: the reciprocating rotation assembly comprises a reduction box body (24), a rotation motor (25), a crankshaft (26) and a connecting rod journal (28), wherein the reduction box body (24) is fixed at one end of the top of the base (1), the rotation motor (25) is fixed at the top of the base (1) by adopting an installation seat (242), the rotation motor (25) drives the crankshaft (26) to rotate through the reduction box body (24), and the crankshaft (26) drives the lifting assembly to slide up and down by adopting a plurality of rotatably arranged connecting rod journals (28);

the rotating motor (25) adopts a ratchet wheel (243) to brake the rotating motor, the ratchet wheel (243) is limited by at least two pawls (244), and the pawls (244) adopt a torsion spring (245) to provide power for the pawls.

5. A portable sand-water separator for civil engineering works according to claim 1, wherein: a discharge hole (95) is fixed at one end of the top of the separation bin (91), and one end of the discharge hole (95) extends into the separation barrel (93);

the bottom of collecting storehouse (92) is fixed with grit export (96) and muddy water export (97) from a left side to the right side in proper order, just, grit export (96) and muddy water export (97) all are located inside intercommunication storehouse (4), intercommunication storehouse (4) inside is fixed with division board (98), division board (98) are located between grit export (96) and muddy water export (97).

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