CN109224586A - A kind of trade effluent separation of solid and liquid recycling and reusing equipment - Google Patents

Abstract

The invention belongs to Rare Earth Separation equipment technical field, specifically a kind of trade effluent is separated by solid-liquid separation recycling and reusing equipment, including apparatus body, waste water inlet, wastewater outlet and rare earth outlet；Waste water inlet, wastewater outlet and rare earth exit are equipped with solenoid valve；Shaking device is equipped in apparatus body；The lower section of waste water inlet is arranged in one end of shaking device, and the lower section of rare earth outlet is arranged in the other end；Shaking device includes the first vibration mould group, the second vibration mould group and cam；It is rotatablely connected between first vibration mould group and the second vibration mould group by hinge；The lower section of the first vibration mould group and the second vibration mould group hinged place is arranged in by shaft for cam, and cam periphery is contacted with hinged place；The present invention is rotated counterclockwise by cam, protrusion on cam is contacted with hinged place, so that the first vibration mould group and second is shaken the generation vibration of mould group, makes effect by vibration increase filtering of the waste water in the first vibration mould group and the second vibration mould group, improve working efficiency.

Description

A kind of trade effluent separation of solid and liquid recycling and reusing equipment

Technical field

The invention belongs to Rare Earth Separation equipment technical field, it is sharp again that specifically a kind of trade effluent is separated by solid-liquid separation recycling Use equipment.

Background technique

Rare earth has the laudatory title of " industrial vitamin ", nowadays has become extremely important strategic resource.Rare earth element oxidation Object refer to period of element atom ordinal number be 57 to 71 15 kinds of lanthanide oxides, and with lanthanide series chemical property The oxide of similar scandium and yttrium totally 17 kinds of elements.Rare earth element is in petroleum, chemical industry, metallurgy, weaving, ceramics, glass, permanent magnetism material Material etc. fields be all widely used, with advances in technology with the continuous breakthrough of application technology, the valence of rare earth oxide Value will be increasing.In rare earth treating process, precipitating waste water and wastewater eluting can be generated, it can be mixed with part in these waste water Rare earth particle, but these waste water are usually all directly discharged by waste line, are lost the rare earth particle in waste water also therewith, are made At the waste of rare earth material.Therefore needing to research and develop a kind of can receive the rare earth particle in precipitating waste water and wastewater eluting The Rare Earth Separation device of collection in the prior art cannot recycle the rare earth particle in precipitating waste water and wastewater eluting to overcome The shortcomings that.

Summary of the invention

In order to make up for the deficiencies of the prior art, a kind of trade effluent proposed by the present invention is separated by solid-liquid separation recycling and reusing and sets Standby, can not be filtered collection present invention is mainly used for the rare earth particle solved the problem of in waste water leads to the wasting of resources.

The technical solution adopted by the present invention to solve the technical problems is: a kind of trade effluent separation of solid and liquid recycling and reusing Equipment, including apparatus body, waste water inlet, wastewater outlet and rare earth outlet；Waste water inlet, wastewater outlet and the rare earth goes out Solenoid valve is equipped at mouthful；The top of apparatus body side is arranged in the waste water inlet；The rare earth outlet is arranged in equipment Another upper lateral part of ontology, rare earth outlet port are lower than waste water inlet position；Apparatus body side is arranged in the wastewater outlet Lower part；Shaking device is equipped in the apparatus body；One end of the shaking device is arranged in the lower section of waste water inlet and is higher than The position of rare earth outlet；The lower section of rare earth outlet is arranged in the other end of the shaking device；The shaking device includes first Shake mould group, the second vibration mould group and cam；The first vibration mould group is connect by hinge with the second vibration mould group, the first shake Dynamic model group is connect by hinge with apparatus body inner wall, and the first vibration mould group and the hinged position of equipment are high lower than waste water inlet In on the position of impurities outlet, the second vibration mould group is connect by hinge with apparatus body inner wall, the second vibration mould group and equipment The hinged position of ontology is on the position lower than impurities outlet；The cam is arranged by shaft shakes mould group and second first The lower section of mould group hinged place is shaken, cam periphery is contacted with hinged place；The cam circumferential surface is evenly distributed with several convex It rises, protrusion is for when contacting with hinged place, making the first vibration mould group and second shake the generation vibration of mould group；The first vibration mould Group is identical with the second vibration modular structure；Wherein,

The second vibration mould group includes rigid filter net, connector sleeve, link block and rubber membrane；The connector sleeve is provided with Two, connector sleeve inside is equipped with the first cavity for compression；The connection set upper side is provided with through-hole；Through-hole perforation the The setting of one cavity；There are three the rigid filter net settings, is connected by a connector sleeve between every two rigid filter net It connects；The upper end of the connector sleeve is symmetrically arranged with two link blocks；It is all connected between the link block and adjacent rigid filter net There is rubber membrane.When work, cam is rotated counterclockwise, and the protrusion on cam is contacted with hinged place, makes the first vibration mould group and second It shakes mould group and generates vibration, make the effect that by vibration increases filtering of the waste water in the first vibration mould group and the second vibration mould group Fruit；Meanwhile waste water since rubber membrane has elastic force, makes waste water constantly beat between rubber membrane, indirectly when falling on rubber membrane Ground improves the effect of filtering；During rotation, first shakes on the hinged place between mould group and the second vibration mould group cam It rises and is press-connected set, due to being equipped with the first cavity for compression, when cam goes to highest point, rigid filter inside connector sleeve Net is on same straight line and is obliquely installed, and filters and be accumulated in the rare earth particle of rigid filter net, because gravity is from inclining After the rigid filter net being tiltedly arranged slides, discharge is exported from rare earth and completes filtering.

Preferably, the connector sleeve is connect by spring rope with apparatus body inner wall；It, can be with since spring rope has elasticity When cam generates vibration to the first vibration mould group and the second vibration mould group, relative vibration is carried out, the effect of vibration filtering is increased.

Preferably, multiple second cavitys are equipped in the rigid filter net in the second vibration mould group；Second cavity Inner top is equipped with air bag；The top of the air bag is equipped with gas outlet；Second cavity is arranged at rubber membrane lower position, Each second cavity passes through a steel cable through connection；One end of the steel cable is connected to the second of right end by spring On cavity inner wall, the other end of steel cable sequentially passes through each rigid filter net, connector sleeve and the second cavity and is arranged in left end Rigid filter net on the outside of, steel cable is arranged in one end on the outside of the rigid filter net of left end and is fixedly connected with the first spring ball, Steel cable, which is located in one section of the second cavity, is equipped with a second spring ball；The second spring ball and balloon contacts；When work, When cam rotation, the protrusion on cam pushes the first spring ball, and the first spring ball pulls steel cable, makes the second spring on steel cable Ball moves extruding gasbag, the outside jet of air bag, and the gas of ejection makes waste water generate flowing, increases filter effect；Since protrusion has It is multiple, and steel cable end is connected in the second cavity by spring, so that second spring ball is moved back and forth multiple extruding gasbag, into one Step improves the efficiency of waste water filtering.

Preferably, the rubber membrane relative stiffness filter screen is obliquely installed, tilt angle be 45 ° -60 °, make rubber membrane with Relative vibration is generated between rigid filter net, increases filter effect；The link block is connect on the net with adjacent rigid filter Rubber membrane be set as two groups, two groups of rubber membrane intervals settings；The gas outlet at the top of the air bag is arranged in two groups of rubber membranes Between, be conducive to air bag jet, the gas of ejection makes waste water generate flowing, increases filter effect.

Preferably, fixed link is vertically installed on the top in the apparatus body；The fixed link and the first vibration mould The hinged place of group and the second vibration mould group is on the same line；The lower end of the fixed link is connected with scissor-type push rod；It is described Cylinder is connected on scissor-type push rod；Piston rod extension end is down-set in the cylinder；The piston-rod lower end and the first shake The hinged place of dynamic model group and the second vibration mould group carries out hinged；The scissor-type push rod is symmetrical arranged about fixed link；It is described to cut The first push plate is equipped on the left of V shape push rod, the top of first push plate and the push rod one in scissor-type push rod are hinged, and first pushes away The lower part of plate is slidably connected with the push rod two in scissor-type push rod；It is equipped with the second push plate on the right side of the scissor-type push rod, described the The top of two push plates and the push rod three in scissor-type push rod are hinged, and the lower part of the second push plate and the push rod four in scissor-type push rod are slided Dynamic connection；When work, cam rotation pushes the first vibration mould group and the second vibration mould group to rise indirectly, thus living in pusher cylinder Stopper rod rises, and makes cylinder that scissor-type push rod be driven to shrink, and the first push plate of scissor-type push rod two sides and the second push plate are released, the One push plate and the second push plate and waste water improve the effect of waste water vibration and the efficiency of waste water filtering.

Preferably, piston cylinder two sides are symmetrically arranged with two right angle outlet passageways about cylinder centerline；Institute The top perforation of the upper end and piston cylinder of stating right angle outlet passageway connects, and the lower end perforation cylinder lower surface of right angle outlet passageway is set It sets；When work, when piston bar is compressed, gas is blown out downwards by two right angle outlet passageways, will be accumulated the The waste water blowout of one vibration mould group and the second vibration mould group hinged place, improves filter effect.

Beneficial effects of the present invention are as follows:

1. the present invention rotated counterclockwise by cam, on cam protrusion contacted with hinged place, make the first vibration mould group with Second vibration mould group generates vibration, shakes waste water in the first vibration mould group and the second vibration mould group, to increase filtering Effect；Meanwhile waste water since rubber membrane has elastic force, shakes waste water constantly between rubber membrane when falling on rubber membrane, Ground connection improves the effect of filtering；During rotation, the first vibration mould group and the second vibration mould group rise cam, when cam turns When to highest point, rigid filter net is on same straight line and is obliquely installed, and rare earth particle along inclined direction slides, from rare earth Filtering is completed in outlet discharge, improves working efficiency, saves production cost.

2. the present invention by the way that when cam rotates, the first spring ball pulls steel cable, keeps the second spring ball on steel cable mobile Extruding gasbag, air bag jet shake waste water, increase filter effect；Due to protrusion have it is multiple, and steel cable end pass through spring connect In the second cavity, so that second spring ball is moved back and forth multiple extruding gasbag, further increase the efficiency of waste water filtering；Gas simultaneously Piston rod rises in cylinder, and scissor-type push rod is shunk, and the first push plate of scissor-type push rod two sides and the second push plate is released, first pushes away Plate and the second push plate and waste water improve the effect of waste water vibration and the efficiency of waste water filtering.

3. the present invention is by the way that in piston cylinder two sides right angle outlet passageway, when piston rod is compressed, gas passes through Two right angle outlet passageways are blown out downwards, will accumulate the waste water blowout in the first vibration mould group and the second vibration mould group hinged place, Filter effect is improved, waste water is avoided and accumulates, the problem of hinged place caused by long-time is stuck, damage.

Detailed description of the invention

The present invention will be further explained below with reference to the attached drawings.

Fig. 1 is main view of the invention；

Fig. 2 is the second vibration mould group top view；

Fig. 3 is the partial enlarged view in Fig. 1 at A；

Fig. 4 is the partial enlarged view in Fig. 3 at B；

Fig. 5 is the cross-sectional view of cylinder in the present invention；

In figure: apparatus body 1, waste water inlet 2, wastewater outlet 3, rare earth outlet 4, solenoid valve 5, shaking device 6, first shake Dynamic model group 7, second shakes mould group 8, rigid filter net 81, connector sleeve 82, link block 83, rubber membrane 84, the first cavity 85, cam 9, raised 10, second cavity 11, air bag 12, steel cable 13, the first spring ball 14, second spring ball 15, fixed link 16, scissor-type push away Bar 17, cylinder 18, the first push plate 19, push rod 1, push rod 2 21, the second push plate 22, push rod 3 23, push rod 4 24, right angle go out Gas channel 25.

Specific embodiment

Recycling and reusing equipment is separated by solid-liquid separation using a kind of trade effluent of Fig. 1-Fig. 5 to an embodiment of the present invention to carry out As described below.

As shown in Figure 1 to Figure 2, a kind of trade effluent of the present invention is separated by solid-liquid separation recycling and reusing equipment, including sets Standby ontology 1, waste water inlet 2, wastewater outlet 3 and rare earth outlet 4；Waste water inlet 2, wastewater outlet 3 and the rare earth exports at 4 It is equipped with solenoid valve 5；The top of 1 side of apparatus body is arranged in the waste water inlet 2；The rare earth outlet 4 is arranged in equipment Another upper lateral part of ontology 1, rare earth export 4 positions and are lower than 2 position of waste water inlet；The wastewater outlet 3 is arranged in apparatus body 1 one The lower part of side；Shaking device 6 is equipped in the apparatus body 1；One end of the shaking device 6 is arranged under waste water inlet 2 Side and the position for being higher than rare earth outlet 4；The lower section of rare earth outlet 4 is arranged in the other end of the shaking device 6；The vibration dress Setting 6 includes that the first vibration mould group 7, second shakes mould group 8 and cam 9；The first vibration mould group 7 passes through hinge and the second vibration Mould group 8 connects, and the first vibration mould group 7 connect by hinge with 1 inner wall of apparatus body, and the first vibration mould group 7 and equipment 1 are hingedly Position is being higher than on the position of impurities outlet 4 lower than waste water inlet 2, and the second vibration mould group 8 passes through hinge and 1 inner wall of apparatus body Connection, the second vibration mould group 8 and the hinged position of apparatus body 1 are on the position lower than impurities outlet 4；The cam 9 passes through The lower section of the first vibration mould group 7 and the second vibration 8 hinged place of mould group is arranged in shaft, and 9 periphery of cam is contacted with hinged place；Institute It states 9 circumferential surface of cam and is evenly distributed with several raised 10, protrusion 10 is for making the first vibration mould group 7 when contacting with hinged place Vibration is generated with the second vibration mould group 8；The first vibration mould group 7 is identical with the second vibration 8 structure of mould group；Wherein,

The second vibration mould group 8 includes rigid filter net 81, connector sleeve 82, link block 83 and rubber membrane 84；The company There are two the settings of female connector 82, and the first cavity 85 for compression is equipped with inside connector sleeve 82；82 upper end of connector sleeve is provided with Through-hole；The through-hole penetrates through the setting of the first cavity 85；There are three the settings of rigid filter net 81, every two rigid filter net It is connected by a connector sleeve 82 between 81；The upper end of the connector sleeve 82 is symmetrically arranged with two link blocks 83；The connection Rubber membrane 84 is respectively connected between block 83 and adjacent rigid filter net 81；When work, cam 9 is rotated counterclockwise, on cam 9 Protrusion is contacted with hinged place, so that the first vibration mould group 7 and the second vibration mould group 8 is generated vibration, waste water is made to shake mould group 7 first With the effect for increasing filtering by vibration in the second vibration mould group 8；Meanwhile waste water is when falling on rubber membrane 84, due to rubber Film 84 has elastic force, so that waste water is constantly beated between rubber membrane 84, improves the effect of filtering indirectly；Cam 9 is rotating In the process, the hinged place between the first vibration mould group 7 and the second vibration mould group 8, which rises, is press-connected set 82, due to connector sleeve 82 Inside is equipped with the first cavity 85 for compression, and when cam 9 goes to highest point, rigid filter net 81 is on same straight line And be obliquely installed, the rare earth particle of rigid filter net 81 is filtered and is accumulated in, because gravity is from the rigid filter being obliquely installed After net 81 slides, from rare earth outlet, filtering is completed in 4 discharge.

As shown in Figure 1, the connector sleeve 82 is connect by spring rope with 1 inner wall of apparatus body；Since spring rope has bullet Property, relative vibration can be carried out when cam 9 generates vibration to the first vibration mould group 7 and the second vibration mould group 8, increase vibration The effect of filtering.

As shown in Figure 3 and Figure 4, multiple second cavitys 11 are equipped in the rigid filter net 81 in the second vibration mould group 8； Second cavity, 11 inner top is equipped with air bag 12；The top of the air bag 12 is equipped with gas outlet；Second cavity 11 is Setting is in 84 lower position of rubber membrane, each second cavity 11 is by a steel cable 13 through connection；The steel cable 13 One end is connected on 11 inner wall of the second cavity of right end by spring, and the other end of steel cable 13 sequentially passes through each rigid mistake 81 outside of rigid filter net of left end is arranged in strainer 81, connector sleeve 82 and the second cavity 11, and steel cable 13 is arranged in left end The one end in the outside of rigid filter net 81 be fixedly connected with the first spring ball 14, steel cable 13 is located in one section of the second cavity 11 Equipped with a second spring ball 15；The second spring ball 15 is contacted with air bag 12；When work, when cam 9 rotates, cam 9 On protrusion 10 push the first spring ball 14, the first spring ball 14 pull steel cable 13, move the second spring ball 14 on steel cable 13 Dynamic extruding gasbag 12, the outside jet of air bag 12, the gas of ejection make waste water generate flowing, increase filter effect；Due to protrusion 10 Have multiple, and 13 end of steel cable is connected in the second cavity 11 by spring, and second spring ball 15 is made to move back and forth multiple extruding Air bag 12 further increases the efficiency of waste water filtering.

As shown in figures 1 and 3, the 84 relative stiffness filter screen 81 of rubber membrane is obliquely installed, tilt angle be 45 °- 60 °, make to generate relative vibration between rubber membrane and rigid filter net, increases filter effect；The link block with it is adjacent rigid Property filter screen 81 on the rubber membrane 84 that connects be set as two groups, the two groups of interval of rubber membranes 84 settings；The top of the air bag 12 Gas outlet is arranged between two groups of rubber membranes 84, is conducive to 12 jet of air bag, and the gas of ejection makes waste water generate flowing, increased Filter effect.

As shown in Figure 1, being vertically installed with fixed link 16 on top in the apparatus body 1；The fixed link 16 and The hinged place of one vibration mould group 7 and the second vibration mould group 8 is on the same line；The lower end of the fixed link 16 is connected with scissor Formula push rod 17；Cylinder 18 is connected on the scissor-type push rod 17；Piston rod extension end is down-set in the cylinder 18；It is described The hinged place of piston-rod lower end and the first vibration mould group 7 and the second vibration mould group 8 carries out hinged；The scissor-type push rod 17 about Fixed link 16 is symmetrical arranged；On the left of the scissor-type push rod 17 be equipped with the first push plate 19, the top of first push plate 19 with cut Push rod 1 in V shape push rod 18 is hinged, and the lower part of the first push plate 19 and the push rod 2 21 in scissor-type push rod 17 slide and connect It connects；The second push plate 22 is equipped on the right side of the scissor-type push rod 17, in the top of second push plate 22 and scissor-type push rod 17 Push rod 3 23 is hinged, and lower part and the push rod 4 24 in scissor-type push rod 17 of the second push plate 22 are slidably connected；When work, cam 9 Rotation pushes the first vibration mould group 7 and the second vibration mould group 8 to rise indirectly, so that piston rod rises in pusher cylinder 18, makes gas Cylinder 18 drives scissor-type push rod 17 to shrink, and the first push plate 19 of 17 two sides of scissor-type push rod and the second push plate 22 is released, first Push plate 21 and the second push plate 22 and waste water improve the effect of waste water vibration and the efficiency of waste water filtering.

As shown in figure 5, the 18 inner piston cylinder two sides of cylinder are symmetrically arranged with two right angle outlets about 18 center line of cylinder Channel 25；The upper end of the right angle outlet passageway 25 and the top of piston cylinder penetrate through and connect, and the lower end of right angle outlet passageway 25 is passed through The setting of ventilation 18 lower surface of cylinder；When work, when 18 inner piston rod of cylinder is compressed, gas passes through two right angle outlet passageways 25 Blowout downwards will accumulate the waste water blowout in the first vibration mould group 7 and the second vibration 8 hinged place of mould group, improve filter effect.

Detailed process is as follows:

When work, cam 9 is rotated counterclockwise, and the protrusion on cam 9 is contacted with hinged place, makes the first vibration mould group 7 and the Two vibration mould groups 8 generate vibration, and waste water is made to increase filtering by vibration in the first vibration mould group 7 and the second vibration mould group 8 Effect；Meanwhile waste water is when falling on rubber membrane 84, since rubber membrane 84 has elastic force, make waste water between rubber membrane 84 not Disconnected vibration, improves the effect of filtering indirectly；During rotation, the first vibration mould group 7 and second shakes mould group 8 to cam 9 Between hinged place rise be press-connected set 82, due to inside connector sleeve 82 be equipped with for compression the first cavity 85, when cam 9 When going to highest point, rigid filter net 81 is on same straight line and is obliquely installed, and filters and is accumulated in rigid filter net 81 On rare earth particle, after sliding because of gravity from the rigid filter net 81 being obliquely installed, from rare earth outlet, 4 discharge was completed Filter；In order to improve the effect of filtering, the lower end of connector sleeve 82 passes through spring rope and connect with close 1 side of apparatus body, by There is elasticity in spring rope, can be total to when cam 9 generates vibration to the first vibration mould group 7 and the second vibration mould group 8 Vibration increases the effect of vibration filtering；When cam 9 rotates, the protrusion 10 on cam 9 pushes the first spring ball 14, the first spring Ball 14 pulls steel cable 13, makes the mobile extruding gasbag 12 of the second spring ball 14 on steel cable 13, the outside jet of air bag 12, the gas of ejection Body makes waste water generate vibration increase filter effect；Since protrusion 10 has multiple, and 13 end of steel cable is connected to second by spring In cavity 11, so that second spring ball 15 is moved back and forth multiple extruding gasbag 12, further increase the efficiency of waste water filtering；It is convex simultaneously 9 rotation of wheel pushes the first vibration mould group 7 and the second vibration mould group 8 to rise indirectly, so that piston rod rises in pusher cylinder 18, makes Cylinder 18 drives scissor-type push rod 17 to shrink, and the first push plate 19 of 17 two sides of scissor-type push rod and the second push plate 22 are released, the One push plate 21 and the second push plate 22 and waste water improve the effect of waste water vibration and the efficiency of waste water filtering.

More than, it is illustrated about one embodiment of the present invention, but the present invention is not limited to the above embodiments, It does not depart from and is able to carry out various changes in the range of present subject matter.

Industrial applicibility

According to the present invention, it being rotated counterclockwise by the way that cam is arranged, the first vibration mould group and the second vibration mould group generate vibration, It shakes waste water in the first vibration mould group and the second vibration mould group, increases the effect of filtering；Meanwhile waste water falls in the rubber of vibration On glue film, the effect of filtering is improved indirectly；During rotation, the first vibration mould group and second shakes between mould group cam Rise, when cam goes to highest point, rigid filter net is on same straight line and is obliquely installed, and filters and is accumulated in rigidity Rare earth particle on filter screen after along inclined direction sliding, exports discharge from rare earth and completes filtering, the present invention improves filtering Efficiency has saved production cost, so that this industrial wastewater Rare Earth Separation equipment is useful in Rare Earth Separation equipment technical field 's.

Claims (6)

1. a kind of trade effluent is separated by solid-liquid separation recycling and reusing equipment, including apparatus body (1), waste water inlet (2), wastewater outlet (3) and rare earth exports (4)；Waste water inlet (2), wastewater outlet (3) and the rare earth exports and is equipped with solenoid valve (5) at (4)； Top of waste water inlet (2) setting in apparatus body (1) side；Rare earth outlet (4) setting is another in apparatus body (1) One upper lateral part, rare earth export (4) position and are lower than waste water inlet (2) position；The wastewater outlet (3) is arranged in apparatus body (1) The lower part of side；It is characterized by: being equipped with shaking device (6) in the apparatus body (1)；One end of the shaking device (6) Lower section in waste water inlet (2) is set and is higher than the position of rare earth outlet (4)；The other end setting of the shaking device (6) exists Rare earth exports the lower section of (4)；The shaking device (6) includes the first vibration mould group (7), the second vibration mould group (8) and cam (9)；First vibration mould group (7) is connect by hinge with the second vibration mould group (8), and the first vibration mould group (7) passes through hinge It is connect with apparatus body (1) inner wall, the first vibration mould group (7) position hinged with equipment (1) is higher than lower than waste water inlet (2) On the position of impurities outlet (4), the second vibration mould group (8) is connect by hinge with apparatus body (1) inner wall, the second vibration mould group (8) with apparatus body (1) hinged position on the position lower than impurities outlet (4)；The cam (9) is arranged by shaft The lower section of first vibration mould group (7) and second vibration mould group (8) hinged place, cam (9) periphery are contacted with hinged place；It is described convex Wheel (9) circumferential surface is evenly distributed with several raised (10), and raised (10) are for making the first vibration mould group when contacting with hinged place (7) and the second vibration mould group (8) generates vibration；First vibration mould group (7) is identical with the second vibration mould group (8) structure；Its In,

Second vibration mould group (8) includes rigid filter net (81), connector sleeve (82), link block (83) and rubber membrane (84)； There are two connector sleeve (82) settings, and the first cavity (85) for compression is equipped with inside connector sleeve (82)；The connector sleeve (82) upper end is provided with through-hole；Through-hole perforation the first cavity (85) setting；The rigid filter net (81) is provided with three It is a, pass through connector sleeve (82) connection between every two rigid filter net (81)；The upper end of the connector sleeve (82) is symmetrical If there are two link block (83)；Rubber membrane is respectively connected between the link block (83) and adjacent rigid filter net (81) (84)。

2. a kind of trade effluent according to claim 1 is separated by solid-liquid separation recycling and reusing equipment, it is characterised in that: the company Female connector (82) is connect by spring rope with apparatus body (1) inner wall.

3. a kind of trade effluent according to claim 1 is separated by solid-liquid separation recycling and reusing equipment, it is characterised in that: described the Multiple second cavitys (11) are equipped in rigid filter net (81) in two vibrations mould group (8)；Second cavity (11) inner top Equipped with air bag (12)；The top of the air bag (12) is equipped with gas outlet；Second cavity (11) is arranged at rubber membrane (84) lower position, each second cavity (11) is by a steel cable (13) through connection；One end of the steel cable (13) It is connected on the second cavity (11) inner wall of right end by spring, the other end of steel cable (13) sequentially passes through each rigid mistake Strainer (81), connector sleeve (82) and the second cavity (11) are arranged on the outside of the rigid filter net (81) of left end, and steel cable (13) is set It sets one end on the outside of the rigid filter net (81) of left end to be fixedly connected with the first spring ball (14), steel cable (13) is located at second A second spring ball (15) is equipped in one section of cavity (11)；The second spring ball (15) contacts with air bag (12).

4. a kind of trade effluent according to claim 3 is separated by solid-liquid separation recycling and reusing equipment, it is characterised in that: the rubber Glue film (84) relative stiffness filter screen (81) is obliquely installed, and tilt angle is 45 ° -60 °；The link block (83) and adjacent The rubber membrane (84) connected on rigid filter net (81) is set as two groups, two groups of rubber membrane (84) interval settings；The air bag (12) in the interval that the gas outlet at top is arranged between two groups of rubber membranes (84).

5. a kind of trade effluent according to claim 1 is separated by solid-liquid separation recycling and reusing equipment, it is characterised in that: described to set Fixed link (16) are vertically installed on top in standby ontology (1)；The fixed link (16) and the first vibration mould group (7) and second The hinged place of vibration mould group (8) is on the same line；The lower end of the fixed link (16) is connected with scissor-type push rod (17)；Institute It states and is connected with cylinder (18) on scissor-type push rod (17)；Piston rod extension end is down-set in the cylinder (18)；The piston Bar lower end and the hinged place of the first vibration mould group (7) and the second vibration mould group (8) carry out hinged；The scissor-type push rod (17) is closed It is symmetrical arranged in fixed link (16)；The first push plate (19) are equipped on the left of the scissor-type push rod (17), first push plate (19) Top and scissor-type push rod (18) in push rod one (20) hingedly, in the lower part of the first push plate (19) and scissor-type push rod (17) Push rod two (21) be slidably connected；The second push plate (22) are equipped on the right side of the scissor-type push rod (17), second push plate (22) Top and scissor-type push rod (17) in push rod three (23) hingedly, in the lower part of the second push plate (22) and scissor-type push rod (17) Push rod four (24) be slidably connected.

6. a kind of trade effluent according to claim 5 is separated by solid-liquid separation recycling and reusing equipment, it is characterised in that: the gas Cylinder (18) inner piston cylinder two sides are symmetrically arranged with two right angle outlet passageways (25) about cylinder (18) center line；The right angle outlet The upper end in channel (25) and the top of piston cylinder penetrate through and connect, and the lower end of right angle outlet passageway (25) penetrates through cylinder (18) lower surface Setting.