CN203861971U - Solid-liquid separator - Google Patents

Abstract

The utility model relates to sewage treatment equipment. A solid-liquid separator for performing solid-liquid separation through the manner of sedimentation comprises a housing of a sedimentation tank, a sediment discharge channel of which a casing is jointed with the sedimentation tank and the outlet end inclines upwards, a material pushing pendulum, and a driving mechanism used for driving the material pushing pendulum to sway towards the sediment discharge channel, wherein a feed opening and a liquid-discharging opening formed below the outlet end of the sediment discharge channel are formed in the upper part of the sedimentation tank; the material pushing pendulum comprises a swinging arm and a pushing rack connected to the lower end of the swinging arm; a pushing plate is arranged at the end, facing the sediment discharge channel, of the pushing rack; the other end of the pushing rack is connected with the casing through the driving mechanism; the upper end of the swinging arm is hinged to the casing through a swing shaft. The solid-liquid separator solves the problem that the conventional solid-liquid separator is low in processing capacity.

Description

Solid-liquid separating machine

Technical field

The utility model relates to sewage disposal device, relates in particular to a kind of solid-liquid separating machine.

Background technology

When the sewage that contains solid is processed, by equipment for separating liquid from solid, sewage is carried out to Separation of Solid and Liquid.In China Patent No., be 2007100226281, within open day, be November 19 in 2008 day, be called in the patent document of " equipment for separating liquid from solid of vertical centrifugal machine " and disclose a kind of equipment for separating liquid from solid.

The existing equipment for separating liquid from solid that sewage is processed is all to carry out Separation of Solid and Liquid by centrifugal mode, and disposal ability is low.

Utility model content

The utility model provides a kind of mode by precipitation to carry out the solid-liquid separating machine of Separation of Solid and Liquid, has solved the low problem of existing equipment for separating liquid from solid disposal ability.

Above technical problem solves by following technical proposal: a kind of solid-liquid separating machine, comprise housing, described housing middle part is provided with sedimentation basin, one end of described housing is provided with the acclivitous sediment passing away of the port of export being docking together with described sedimentation basin, the driving mechanism that the other end of described housing is provided with pusher pendulum and drives pusher pendulum to swing towards described sediment passing away, the top of described sedimentation basin is provided with charging aperture and leakage fluid dram, described leakage fluid dram is positioned at the below of the port of export of sediment passing away, described pusher pendulum comprises swing arm and is connected in the frame that pushes away of swing arm lower end, the described frame that pushes away is provided with push pedal towards one end of described sediment passing away, the described other end that pushes away frame links together with described housing by described driving mechanism, the upper end of described swing arm is hinged with described housing by balance staff.

During use, pending sewage precipitates in charging aperture enters sedimentation basin, precipitation and the liquid produced is discharged from leakage fluid dram, and solid is discharged from sediment passing away.Not during sediment exclusion, driving mechanism swings to pusher to be positioned at sedimentation basin away from one end of sediment passing away, when the sediment in sedimentation basin reaches a certain amount of, driving mechanism drives pusher pendulum to take balance staff and towards sediment passing away, swings as axle, thereby sediment is pushed in sediment passing away, and the sediment in sediment passing away is discharged from while being stacked in the mode of jacking from bottom to top the port of export that exceeds sediment passing away.Adopt the mode of pendulum model jacking to push sediment to sediment passing away, thereby not only solved dexterously that anti-sealing is discharged from together in company with sediment but also the parts that make to promote sediment motion can not take the interior sky of sediment passing away plays the effect that improves sediment discharge rate; Owing to not pushing away sediment, pusher pendulum is not blocked in the lower end of sediment passing away, make the water in the sediment of layover in sediment passing away can flow back to swimmingly sedimentation basin, make the sedimentary water content of discharge lower, also make to get a promotion by solid-liquid separation effect.

As preferably, the bottom surface of described sedimentation basin is the cambered surface of line centered by the axis of described balance staff.Can improve utilization rate empty in housing.The sedimentary amount being trapped in sedimentation basin is few.Can reduce the workload of clearing up sedimentation basin while shutting down.

As preferably, the bottom surface of described sedimentation basin is provided with the wearing plate of arcuate structure along the axial two ends of described balance staff, the concentricity line in bottom surface of described wearing plate and sedimentation basin, described push pedal lower end is connected with the scum board being made by high-abrasive material, and the spacing between described wearing plate is less than described scum board along the axial length of described balance staff.Can effectively avoid housing and push pedal wearing and tearing and affect Whole Equipment performance.

As preferably, the aperture area of described sediment passing away increases to the port of export gradually from entrance point.Can further improve bearing capacity and the sediment discharge rate of precipitate and separate mechanism.

As preferably, described driving mechanism is oil cylinder, one end of described oil cylinder is hinged with described housing, the other end with described in to push away frame hinged.Can be designed to there is larger motive force.Driving mechanism can be also air cylinder driven, and screw mandrel drives.

As preferably, the sidewall of described feed space is provided with access door, described housing is also connected with and makes described pusher pendulum remain on described feed space away from the suspension rod of described sediment passing away one end, and the lower end of described suspension rod is provided with lifting hole(eyelet), described in push away and set up the hanger coordinating with described lifting hole(eyelet).Be provided with access door.It is convenient when turnover enclosure interior is safeguarded and clears up.When needs enter sedimentation basin or driving mechanism is keeped in repair, by pivot pin, be located in hanger and lifting hole(eyelet) simultaneously, suspension rod is fixed pusher pendulum and can not swing.Convenience when security and maintenance is good.

The utility model also comprises refueling device, described refueling device comprises oil storage tank, oil discharge passage, rupture of membranes bar and corrosive liquid storage bin, one end of described oil discharge passage is provided with oil-feed bucket, the other end is provided with the oil outlet with the hinged place alignment of described balance staff and housing, described oil storage tank comprises at least two sheathed and cavitys of being fixed together successively, the lower wall of described cavity is provided with oil-out, described oil-out is sealedly connected with diaphragm seal, described rupture of membranes bar vertically extends and is positioned at the below of oil storage tank, described rupture of membranes bar, and the oil-out of all cavitys is all positioned on same vertical curve, in described corrosive liquid storage bin, be provided with the saturating formula floating drum of regular corruption, the saturating formula floating drum of described regular corruption comprises the rotproofness shell of lower ending opening and somely by the corrosive liquid in the liquid storage bin that can be corroded, is expended and set the dividing plate that duration corrodes brokenly, described dividing plate is partitioned into some floating chambers by described shell, the quantity of described floating chamber equates with the quantity of described cavity, described dividing plate distributes along the vertical direction, described oil storage tank floats on the corrosive liquid in described corrosive liquid storage bin by described floating drum, described in each, floating chamber can both float described oil storage tank independently, corrosive liquid in corrosive liquid storage bin every corrosion Po Yige floating chamber and cause in process that oil storage tank declines once, described rupture of membranes bar only can poke a diaphragm seal on cavity.Can carry out regular self-lubricate to balance staff.

The utility model also comprises screening mechanism, described screening mechanism comprises eccentric rod gear, drive the motor of eccentric rod gear, frame, the vibratory sieve being obliquely installed, support link and syndeton, described syndeton comprises polygon hinge, be set in the overcoat on polygon hinge and be arranged on the needle roller between polygon hinge and overcoat, the external diameter of a circle of described polygon hinge is less than the inscribe diameter of a circle of described overcoat, the connecting rod that forms described eccentric rod gear is hinged by described syndeton and described vibratory sieve, one end of described support link is hinged on described vibratory sieve by described syndeton, the other end of described support link is hinged in described frame by described syndeton, the below of described vibratory sieve is provided with recovering hopper, described recovering hopper and described vibratory sieve parallel, described rewinding is provided with liquid outlet, described liquid outlet is docking together with described charging aperture.

During use by sewage the high-end vibratory sieve that induces one from vibratory sieve, eccentric rod gear is converted to the continuous rotation motion of drive motors the rule swing of connecting rod on it and vibratory sieve hinged place, the pin joint of connecting rod and vibratory sieve and frame is also done regular swing simultaneously, but because the jointed shaft of syndeton is polygon shaft, and and between overcoat, be provided with needle roller, when swinging, syndeton swings the motion of vibratory sieve to become irregular fluctuation from original rule, when making reciprocally swinging, vibratory sieve produces vibration, thereby make oarse-grained solid on vibratory sieve and containing screened the opening of liquid of granule solid, and realize preliminary Separation of Solid and Liquid, after falling by the screen tray hole on vibratory sieve containing the liquid of granule solid, enter recovering hopper, then from liquid outlet, flow out and enter precipitate and separate mechanism, oarse-grained solid goes ahead mobile and discharges from low side above screen tray, method by hinged two parts of syndeton is: parts are connected on polygon hinge, another parts connect on the coat.

As preferably, the cross section of described polygon hinge is square, and the cross section of described overcoat is square, and described needle roller has four, described four needle rollers lay respectively in four sides of described polygon hinge and space that described overcoat surrounds, and described needle roller is elastic cylinder.Amplitude during irregular fluctuation is large, and vibrating effect is good.The wearing and tearing of polygon hinge and overcoat in the time of can reducing to swing.

As preferably, connecting rod in described two support link and described eccentric rod gear all comprises the body of rod, the described body of rod comprises double threaded screw and two terminations, the end of described termination is provided with threaded connection hole, the two ends of described double threaded screw are threaded in respectively in the threaded connection hole on described two terminations, between described double threaded screw and described termination, are all provided with anti-return nut.With time by regulating the length of the body of rod to change the Oscillation Amplitude of vibratory sieve, make the vibration of vibratory sieve controlled.By unclamping respectively the anti-return nut at double threaded screw two ends, turn double threaded screw and enter the length that length in termination can realize length-adjustable bar and change, after test vibration is respond well, tighten again anti-return nut, simple in structure.

As preferably, the inclination angle of described sediment passing away is 20 °-30 °.Can either improve the bearing capacity of precipitate and separate mechanism, can make liquid can in company with sediment, not discharge together too much again.

The utlity model has following advantage: the mode by precipitation is carried out Separation of Solid and Liquid, and disposal ability is large; Adopt the mode of pendulum model jacking push sediment to sediment passing away and discharge, thus solved dexterously from liquid bottom, sediment is discharged and when water can be discharged from, the parts that make the to promote sediment motion interior sky that can not take sediment passing away plays the effect that improves sediment discharge rate; Owing to not pushing away sediment, pusher pendulum is not blocked in the lower end of sediment passing away, makes the cooling water in the sediment of layover in sediment passing away can flow back to swimmingly sedimentation basin, and the water yield of discharging with sediment is less.

Accompanying drawing explanation

Fig. 1 is the cross-sectional schematic of the utility model embodiment mono-.

Fig. 2 is the enlarged diagram of refueling device.

Schematic diagram when Fig. 3 is refueling device corrosion Po Yige floating chamber.

Schematic diagram when Fig. 4 is refueling device corrosion Po Erge floating chamber.

Fig. 5 is the schematic diagram of the utility model embodiment bis-.

Fig. 6 is the enlarged diagram of screening mechanism.

Fig. 7 is the enlarged diagram of the body of rod of adjustable in length.

Fig. 8 is the enlarged diagram of syndeton.

In figure: housing 1, sedimentation basin 11, the bottom surface 111 of sedimentation basin, charging aperture 12, wearing plate 13, sediment passing away 14, the port of export 141 of sediment passing away, the entrance point 142 of sediment passing away, door frame 15, access door 16, leakage fluid dram 17, pusher pendulum 2, swing arm 21, push away frame 22, engaging lug 221, hanger 222, push pedal 23, scum board 231, driving mechanism 3, balance staff 4, suspension rod 5, lifting hole(eyelet) 51, drive screening mechanism 7, motor 71, belt 711, eccentric rod gear 72, form the connecting rod 721 of eccentric rod gear, frame 73, vibratory sieve 74, recovering hopper 741, liquid outlet 742, support link 75, the length-adjustable body of rod 751, double threaded screw 752, termination 753, threaded connection hole 754, anti-return nut 755, syndeton 76, polygon hinge 761, overcoat 762, needle roller 763, installing hole 764, liquid 771 containing solid small particles thing, bulky grain solid 772, refueling device 9, oil storage tank 91, cavity 911, oil-out 912, diaphragm seal 913, oil discharge passage 92, oil-feed bucket 921, fuel filler neck 922, rupture of membranes bar 93, corrosive liquid storage bin 94, wave suppression plate 941, regularly corruption is formula floating drum 95 thoroughly, shell 951, dividing plate 952, floating chamber 953, guide rod 96, corrosive liquid 97, connecting rod 98, contiguous block 99.

The specific embodiment

Below in conjunction with accompanying drawing and embodiment, the utility model is further described.

Embodiment mono-, and referring to Fig. 1, a kind of solid-liquid separating machine, comprises refueling device 9, housing 1, pusher pendulum 2 and driving mechanism 3.

Housing 1 middle part is provided with sedimentation basin 11.The top of sedimentation basin 11 is provided with charging aperture 12.The sidewall of sedimentation basin 11 is provided with leakage fluid dram 17.The bottom surface 111 of sedimentation basin is arc surface.The rear and front end of the bottom surface 111 of sedimentation basin (in figure perpendicular to the two ends of paper) is provided with the wearing plate 13 of arcuate structure.Wearing plate 13 is removably connected to the bottom surface 111 of sedimentation basin.The concentricity line in bottom surface 111 of wearing plate 13 and sedimentation basin.The rear wall of sedimentation basin 11 is provided with access door 16.

The right-hand member of housing 1 is provided with sediment passing away 14.Sediment passing away 14 is docking together with sedimentation basin 11.Sediment passing away 14 is towards tilting, also with the port of export 141 of sediment passing away, the mode higher than the entrance point 142 of sediment passing away tilts.The inclination angle of sediment passing away is 20 °.The aperture area of sediment passing away 14 increases to the port of export gradually from entrance point.The left end of housing 1 is provided with door frame 15 and suspension rod 5.The upper end of suspension rod 5 and door frame 15 are hinged.The lower end of suspension rod 5 is provided with lifting hole(eyelet) 51.Leakage fluid dram 17 is arranged in the below (liquid that is sedimentation basin 11 can not overflow from the port of export 141 of sediment passing away) of the port of export 141 of sediment passing away.

Pusher pendulum 2 is positioned at the left end of shell 1.Pusher pendulum 2 comprises swing arm 21, pushes away frame 22 and push pedal 23.Swing arm 21 has two.The upper end of two swing arms 21 is respectively hinged on the front and back sidewall of shell 1 by a balance staff 4.Balance staff 4 and the concentricity line of wearing plate 13.The lower end of two swing arms 21 is connected to the both sides, front and back that push away frame 22.Push away frame 22 for body structure.Push pedal 23 is connected to the right-hand member that pushes away frame 22.Push pedal 23 lower ends are connected with the scum board 231 being made by high-abrasive material.Scum board 231 is detachably connected with push pedal 23 by bolt.The length of the fore-and-aft direction of scum board 231 is greater than two spacing between wearing plate 13.The left end that pushes away frame 22 is provided with engaging lug 221 and hanger 222.

Driving mechanism 3 is oil cylinder.The upper end of driving mechanism 3 is hinged with door frame 15.The lower end of driving mechanism 3 is hinged with engaging lug 221.

Refueling device 9 comprises oil storage tank 91 and oil discharge passage 92.One end of oil discharge passage 92 is provided with the fuel filler neck 922 of the hinged place alignment of same balance staff and shell.Oil discharge passage 92 other ends are provided with the oil-feed bucket 921 that is positioned at oil storage tank below.Oil storage tank 91 is higher than fuel filler neck 922.

Referring to Fig. 2, refueling device 9 also comprises rupture of membranes bar 93, corrosive liquid storage bin 94, regularly corruption formula floating drum 95 and guide rod 96 thoroughly.

Oil storage tank 91 links together with the saturating formula floating drum 95 of regularly corruption by connecting rod 98.Connecting rod 98 and regularly corruption are detachably connected by bolt between formula floating drum 95 thoroughly.Oil storage tank 91 comprises at least two the present embodiment being 4 sheathed and cavitys 911 of being fixed together successively.Lubricating oil (not drawing in lubricating oil figure) is housed in cavity 911.The lower wall of cavity 911 is provided with oil-out 912.Oil-out 912 is sealedly connected with diaphragm seal 913.4 cavitys amount to 4 oil-outs 912 be positioned on the vertical straight line of same and be positioned at rupture of membranes bar 93 directly over.Distance between adjacent diaphragm seal equates.

Oil-feed bucket 921 is fixed together with corrosive liquid storage bin 94 by contiguous block 99.

Rupture of membranes bar 93 vertically extends.The lower end of rupture of membranes bar 93 is connected in oil-feed bucket 921.Rupture of membranes bar 93 is positioned at the below of oil storage tank 91.

Corrosive liquid storage bin 94 is positioned at the below of oil storage tank 91.Corrosive liquid storage bin 94 is fixed together with shell 1.

Regularly rotten formula floating drum 95 is thoroughly positioned at corrosive liquid storage bin 94.Regularly rotten formula floating drum 95 thoroughly comprises rotproofness shell 951 and four dividing plates 952 of lower ending opening.Dividing plate 952 is aluminium sheet.Dividing plate 952 distributes along the vertical direction.Dividing plate 952 is divided into 4 floating chambers 953 that distribute along the vertical direction by shell 951.Distance between adjacent dividing plate equates.Distance between adjacent dividing plate equals the distance between adjacent diaphragm seal.

Guide rod 96 vertically extends.One end of guide rod 96 is fixed together with oil storage tank 91.The other end of guide rod 96 is located in the sliding sleeve on the sidewall of corrosive liquid storage bin 94 slidably.

Referring to Fig. 3, in the time will starting refueling device, corrosive liquid 97 is injected in corrosive liquid storage bin 94, corrosive liquid 97 floats the saturating formula floating drum 95 of regular corruption and realize out floating of fuel tank 91, when fuel reserve tank 91 floats, stops adding corrosive liquid when the distance between rupture of membranes bar 93 and the diaphragm seal in outermost layer cavity is less than the distance between adjacent diaphragm seal.The buoyancy that each floating chamber 953 produces can both float oil storage tank 91 independently.In the present embodiment, corrosive liquid 97 is sodium hydroxide solution.Concentration by controlling corrosive liquid 97 is or/and the thickness of dividing plate, makes dividing plate liquid 97 corrosion that are corroded in setting duration broken, and these data can be learnt by test.

When pouring the time of corrosive liquid 97 into, reach one while setting duration, in dividing plate 952, be positioned at the dividing plate of below and be corroded brokenly, corrosive liquid enters and in floating chamber 953, is arranged in the floating chamber of below, oil storage tank 91 drop to by floating chamber 953 from below to up second floating chamber of number float, the diaphragm seal 913-1 that is arranged in outermost layer cavity in decline process is flow to oil discharge passage 92 by the lubricating oil that rupture of membranes bar 93 is poked, cavity 911 is arranged in outermost cavity by corresponding oil-out and the hinged place that flows to balance staff and shell is carried out self-oiling one time.

Referring to Fig. 4, when pouring the time of corrosive liquid 97 into, reach two while setting duration, in dividing plate 952, being positioned at time dividing plate of below is also corroded brokenly, corrosive liquid enters the floating chamber that is arranged in inferior below in floating chamber 953, oil storage tank 91 drop to by floating chamber 953 from below to up several San Ge floating chamber float, the diaphragm seal that is arranged in time outer cavity in decline process is also poked by rupture of membranes bar 93, self-oiling is again carried out in the hinged place that drops onto oil discharge passage 92 after the oil-out of the oil-out of the lubricating oil that is arranged in time outer field cavity in cavity 911 on inferior outer cavity and outermost layer cavity flows out and flow to balance staff and shell, the like, in the present embodiment, can carry out four times self-oiling, then change automatic fuelling device and carry out again self-oiling.

Referring to Fig. 1, during use, using method of the present utility model is: while using state, suspension rod 5 with hanger 222 in released state.Sewage flows into sedimentation basin 11 from charging aperture 12, and the solids of sedimentation in sewage forms sediment to sedimentation basin 11 bottoms, liquid is positioned at sedimentation basin top and forms clear liquid, when clear liquid liquid level rises, from leakage fluid dram 17, discharges.While not discharging sediment, driving mechanism 3 makes pusher pendulum 2 in figure position (being the both sides that push-and-pull pendulum and sediment passing away 14 are positioned at sedimentation basin 11), when sediment is filled out heap to set amount, driving mechanism 3 drives pusher pendulum 2 to take balance staff 4 as axle is towards 14 swings of sediment passing away, push pedal 13 and scum board 131 are shifted sediment in sediment passing away 14 onto, and then driving mechanism 3 makes pusher put 2 backswing to position in figure.Along with the increase of the sediment accumulating amount in sediment passing away 14, from the slagging channel port of export 142, discharge.

In the time of need to entering sedimentation basin 11 inside or maintenance driving mechanism 3, first by bearing pin, pass lifting hole(eyelet) 51 and hanger 222 simultaneously, make pusher pendulum 2 by suspension rod 5, be played and be fixed on position in figure.Open access door 16 and can enter the operation of being correlated with in shell 1.

Embodiment bis-, with the difference of embodiment mono-, are:

Referring to Fig. 5, the inclination angle of sediment passing away 14 is 30 °.Also be provided with screening mechanism 7.Screening mechanism 7 comprises frame 73 and vibratory sieve 74.Vibratory sieve 74 is obliquely installed.The below of vibratory sieve 74 is provided with recovering hopper 741, and recovering hopper 741 is inclined, and the incline direction of recovering hopper 741 is identical with the incline direction of vibratory sieve 74, and the right-hand member of recovering hopper 741 is provided with liquid outlet 742, and liquid outlet 742 is funnel-form.Liquid outlet 742 is inclined, and the incline direction of the incline direction of liquid outlet 742 and vibratory sieve 74 is contrary.Liquid outlet 742 is docking together with charging aperture 12.

Referring to Fig. 6, screening mechanism also comprises drive motors 71 and eccentric rod gear 72.Drive motors 71 drives eccentric rod gear 72 by belt 711, the right-hand member that forms the connecting rod 721 of eccentric rod gear is hinged on the bottom of vibratory sieve 74 by syndeton 76, vibratory sieve 74 is inclined, vibratory sieve 74 is connected in frame 73 by four support link 75, four support and connection 75 are parallel to each other, four support link 75, have two to be positioned at the right-hand member of vibratory sieve 74, other two left ends that are positioned at vibratory sieve 74.In front view, two support link positions that are positioned at vibratory sieve right-hand member are overlapping, the position that is positioned at two support link of vibratory sieve left end is overlapping, so can only see two in Fig. 1, the upper end of four support link 75 is all hinged by syndeton 76 and vibratory sieve 74, the lower end of four support link 75 is all hinged by syndeton 76 and frame 73, four support link 75 are parallel to each other with the determined plane B of jointed shaft of frame 73 with four support link 75 with the determined plane A of jointed shaft of vibratory sieve 74, form the connecting rod 721 of eccentric rod gear and the body of rod 751 that four support link 75 all comprise adjustable in length.

Referring to Fig. 7, the body of rod 751 of adjustable in length comprises double threaded screw 752 and two terminations 753, the end of termination 753 is provided with threaded connection hole 754, the two ends of double threaded screw 752 are threaded in respectively in two threaded connection holes 754 on termination 753, between double threaded screw 752 and termination 753, are all provided with anti-return nut 755; Regulate the method for length of the body of rod 751 of adjustable in length to be: to unclamp respectively the anti-return nut 755 at double threaded screw two ends, turn double threaded screw 752 and change it and enter the length in threaded connection hole 754, reach after requirement, then tighten anti-return nut 755.

Referring to Fig. 8, syndeton 76 comprises polygon hinge 761, overcoat 762 and four needle rollers 763, the cross section of polygon hinge 761 is square, polygon hinge 761 is provided with two installing holes 764, the cross section of overcoat 762 is square, overcoat 762 is set on polygon hinge 761, direction jointed shaft 761 can be in the interior rotation of overcoat 762, four needle rollers 763 lay respectively in four sides of polygon hinge 761 and space that overcoat 762 surrounds, the elastic cylinder of needle roller 763 for being made by elastomeric material.

During use, referring to Fig. 5, sewage is poured vibratory sieve 74 into.

Referring to Fig. 6, start drive motors 71, make vibratory sieve 74 vibrations, by the bulky grain solid 772 mixing with containing the liquid 771 of solid small particles thing, from the left end of vibratory sieve 74, put into, bulky grain solid 772 and vibrating reach to the right containing the liquid 771 of solid small particles thing, in mobile process, the liquid 771 that contains solid small particles thing drains in recovering hopper 741 and from liquid outlet 742 and flows out and enter sedimentation basin, and bulky grain solid 772 drops out from the right-hand member of vibratory sieve 74.

Claims (9)

1. a solid-liquid separating machine, comprise housing, it is characterized in that, described housing middle part is provided with sedimentation basin, one end of described housing is provided with the acclivitous sediment passing away of the port of export being docking together with described sedimentation basin, the driving mechanism that the other end of described housing is provided with pusher pendulum and drives pusher pendulum to swing towards described sediment passing away, the top of described sedimentation basin is provided with charging aperture and leakage fluid dram, described leakage fluid dram is positioned at the below of the port of export of sediment passing away, described pusher pendulum comprises swing arm and is connected in the frame that pushes away of swing arm lower end, the described frame that pushes away is provided with push pedal towards one end of described sediment passing away, the described other end that pushes away frame links together with described housing by described driving mechanism, the upper end of described swing arm is hinged with described housing by balance staff.

2. solid-liquid separating machine according to claim 1, is characterized in that, the bottom surface of described sedimentation basin is the cambered surface of line centered by the axis of described balance staff.

3. solid-liquid separating machine according to claim 2, it is characterized in that, the bottom surface of described sedimentation basin is provided with the wearing plate of arcuate structure along the axial two ends of described balance staff, the concentricity line in bottom surface of described wearing plate and sedimentation basin, described push pedal lower end is connected with the scum board being made by high-abrasive material, and the spacing between described wearing plate is less than described scum board along the axial length of described balance staff.

4. according to the solid-liquid separating machine described in claim 1 or 2 or 3, it is characterized in that, the aperture area of described sediment passing away increases to the port of export gradually from entrance point.

5. according to the solid-liquid separating machine described in claim 1 or 2 or 3, it is characterized in that, described driving mechanism is oil cylinder, one end of described oil cylinder is hinged with described housing, the other end with described in to push away frame hinged.

6. according to the solid-liquid separating machine described in claim 1 or 2 or 3, it is characterized in that, the sidewall of described feed space is provided with access door, described housing is also connected with and makes described pusher pendulum remain on described feed space away from the suspension rod of described sediment passing away one end, the lower end of described suspension rod is provided with lifting hole(eyelet), described in push away and set up the hanger coordinating with described lifting hole(eyelet).

7. according to the solid-liquid separating machine described in claim 1 or 2 or 3, it is characterized in that, also comprise refueling device, described refueling device comprises oil storage tank, oil discharge passage, rupture of membranes bar and corrosive liquid storage bin, one end of described oil discharge passage is provided with oil-feed bucket, the other end is provided with the oil outlet with the hinged place alignment of described balance staff and housing, described oil storage tank comprises at least two sheathed and cavitys of being fixed together successively, the lower wall of described cavity is provided with oil-out, described oil-out is sealedly connected with diaphragm seal, described rupture of membranes bar vertically extends and is positioned at the below of oil storage tank, described rupture of membranes bar, and the oil-out of all cavitys is all positioned on same vertical curve, in described corrosive liquid storage bin, be provided with the saturating formula floating drum of regular corruption, the saturating formula floating drum of described regular corruption comprises the rotproofness shell of lower ending opening and somely by the corrosive liquid in the liquid storage bin that can be corroded, is expended and set the dividing plate that duration corrodes brokenly, described dividing plate is partitioned into some floating chambers by described shell, the quantity of described floating chamber equates with the quantity of described cavity, described dividing plate distributes along the vertical direction, described oil storage tank floats on the corrosive liquid in described corrosive liquid storage bin by described floating drum, described in each, floating chamber can both float described oil storage tank independently, corrosive liquid in corrosive liquid storage bin every corrosion Po Yige floating chamber and cause in process that oil storage tank declines once, described rupture of membranes bar only can poke a diaphragm seal on cavity.

8. according to the solid-liquid separating machine described in claim 1 or 2 or 3, it is characterized in that, also comprise screening mechanism, described screening mechanism comprises eccentric rod gear, drive the motor of eccentric rod gear, frame, the vibratory sieve being obliquely installed, support link and syndeton, described syndeton comprises polygon hinge, be set in the overcoat on polygon hinge and be arranged on the needle roller between polygon hinge and overcoat, the external diameter of a circle of described polygon hinge is less than the inscribe diameter of a circle of described overcoat, the connecting rod that forms described eccentric rod gear is hinged by described syndeton and described vibratory sieve, one end of described support link is hinged on described vibratory sieve by described syndeton, the other end of described support link is hinged in described frame by described syndeton, the below of described vibratory sieve is provided with recovering hopper, described recovering hopper and described vibratory sieve parallel, described rewinding is provided with liquid outlet, described liquid outlet is docking together with described charging aperture.

9. solid-liquid separating machine according to claim 8, it is characterized in that, the cross section of described polygon hinge is square, the cross section of described overcoat is square, described needle roller has four, described four needle rollers lay respectively in four sides of described polygon hinge and space that described overcoat surrounds, and described needle roller is elastic cylinder.