CN209128191U - A kind of EPSS dehydration platform - Google Patents

Abstract

The utility model provides a kind of EPSS dehydration platform, including magma pond, mud sand separator, flocculation basin and dewaterer, one end of slurry collecting pipe extends at waste pulp caused by construction of diaphragm wall, the other end introduces in magma pond, it is provided with sub-sand between magma pond and mud sand separator and draws slurry pipe, one end that sub-sand draws slurry pipe extends to the bottom in magma pond, the other end extends to the stock inlet of mud sand separator, the thick liquid discharge mouth of mud sand separator is drawn slurry pipe through flocculation and is led in flocculation basin, dynamic mixer is correspondingly arranged in flocculation basin, slurry pipe is drawn in setting dehydration between flocculation basin and dewaterer, one end that slurry pipe is drawn in dehydration extends to the bottom of flocculation basin, the stock inlet of other end connection dewaterer, slurry collecting pipe, sub-sand draws slurry pipe, flocculation draw slurry pipe and dehydration draw slurry pipe on be respectively arranged with slush pump.Belong to city track traffic engineering construction field.

Description

A kind of EPSS dehydration platform

Technical field

The utility model relates to a kind of EPSS dehydration platforms, belong to city track traffic engineering construction field.

Background technique

With the development of society and the progress of science and technology, the building trade in China is obtaining the same of huge achievement When, also produce a series of negative effect such as the destruction to environment and the waste of resource.Therefore in the same of industry rapid development When, it also should actively adopt an effective measure, improve and avoid the destruction to environment.

Summary of the invention

The purpose of this utility model is that: a kind of EPSS dehydration platform is provided for site operation, to solve lattice column peace Dress, which can not be positioned, is unsatisfactory for the problem of requiring with verticality.

To solve the above problems, such a EPSS dehydration platform of proposed adoption, including magma pond, mud sand separator, flocculation Pond and dewaterer, magma pond are correspondingly arranged on slurry collecting pipe, and one end of slurry collecting pipe extends to construction of diaphragm wall and produced At raw waste pulp, the other end is introduced in magma pond, and sub-sand is provided between magma pond and mud sand separator and draws slurry pipe, sub-sand draws slurry One end of pipe extends to the bottom in magma pond, and the other end extends to the stock inlet of mud sand separator, and the thick liquid discharge mouth of mud sand separator is through wadding a quilt with cotton The solidifying slurry pipe that draws is led in flocculation basin, dynamic mixer is correspondingly arranged in flocculation basin, by dynamic mixer in flocculation basin Slurries stirring promotes the flocculation and precipitating of mud so that the medicament being added into flocculation basin is sufficiently mixed with mud, flocculation basin and Slurry pipe is drawn in setting dehydration between dewaterer, and one end that slurry pipe is drawn in dehydration extends to the bottom of flocculation basin, and the other end connects dewaterer Stock inlet, slurry collecting pipe, sub-sand draw slurry pipe, flocculation draw slurry pipe and dehydration draw slurry pipe on be respectively arranged with slush pump.

It preferably, further include having water tank and water storage aqueduct, one end of water storage aqueduct and the dehydration of dewaterer drain End is connected, and the other end introduces in water tank, and pulp water pump is provided on water storage aqueduct；

It preferably, further include having platform, the magma pond, mud sand separator, flocculation basin, dewaterer, water tank and mound Field is all set on platform, and the sand removing hole of the mud sand separator is led in mound field, is sieved the sandstone generated after sand and is directly stored In mound field.

Compared with prior art, the utility model advantage is as follows:

1, adaptable, place is saved, the dehydration platform has designed material object and has been applied in practice of construction, puts down Playscript with stage directions body only 3m × 4m, takes up little area, adaptable, is particularly suitable for city and narrow construction environment, can largely save waste pulp storage Place；

2, environmentally protective, in addition to that can recycle except generating in the work progress such as diaphram wall, cast-in-situ bored pile Mud, can also recycle life sanitary wastewater, muddy water is rinsed in place, vehicles while passing rinses muddy water etc., can thoroughly prevent waste water, Environmentally protective discharge is really realized in the discharge of discarded slurry；

3, energy-efficient, the platform and technique can work continuously, and processing capacity is strong, can whole day uninterrupted operation in 24 hours, Per tour only needs two people that can complete the operation of entire platform, and processing capacity is strong, and whole machinery are electric power energy supply, and power consumption Small, machine tending purposes are convenient；

4, save the cost, EPSS dehydration platform directly eliminate the mud outward transport ring in underground exterior-protected structure work progress Section, the use of platform can largely save construction cost at the flat outward transport cost for being significantly less than waste pulp；

5, facilitate construction, especially in city, since mud outward transport vehicle on daytime does not allow access into city, cause construction existing After waste pulp storage capacity is full can not smooth development the next step, the platform can whole day operation in 24 hours, meet construction site need It asks.

Detailed description of the invention

Fig. 1 is the overlooking structure diagram of the utility model.

Specific embodiment

It is practical new to this below in conjunction with attached drawing to keep the purpose of this utility model, technical solution and advantage clearer Type is described in further detail, it should be understood that specific embodiment described herein is only to explain the utility model, not For limiting the utility model.

Embodiment

Referring to Fig.1, the present embodiment provides a kind of EPSS dehydration platforms, including magma pond 1, mud sand separator 2, flocculation basin 3 With dewaterer 4, magma pond 1, mud sand separator 2, flocculation basin 3, dewaterer 4, water tank 11 and mound field 15 are all set in platform On 14, magma pond 1 is correspondingly arranged on slurry collecting pipe 5, and one end of slurry collecting pipe 5 extends to caused by construction of diaphragm wall At waste pulp, the other end is introduced in magma pond 1, and sub-sand is provided between magma pond 1 and mud sand separator 2 and draws slurry pipe 6, sub-sand draws slurry One end of pipe 6 extends to the bottom in magma pond 1, and the other end extends to the stock inlet of mud sand separator 2, the sand removing hole of mud sand separator 2 It leads in mound field 15, sieves the sandstone generated after sand and directly deposit in mound field 15, the thick liquid discharge mouth of mud sand separator 2 is drawn through flocculation Slurry pipe 7 is led in flocculation basin 3, dynamic mixer 8 is correspondingly arranged in flocculation basin 3, by dynamic mixer 8 in flocculation basin 3 Slurries stirring so that the medicament being added into flocculation basin 3 is sufficiently mixed with mud, promote the flocculation and precipitating of mud, flocculation Slurry pipe 9 is drawn in setting dehydration between pond 3 and dewaterer 4, and one end that slurry pipe 9 is drawn in dehydration extends to the bottom of flocculation basin 3, other end connection The stock inlet of dewaterer 4, slurry collecting pipe 5, sub-sand draw slurry pipe 6, flocculation draw slurry pipe 7 and dehydration draw slurry pipe 9 on be respectively arranged with Slush pump 10, and it is high pressure pump group, one end of water storage aqueduct 12 and taking off for dewaterer 4 that the slush pump 10 on slurry pipe 9 is drawn in dehydration Water discharge ends are connected, and the other end introduces in water tank 11, and pulp water pump 13 is provided on water storage aqueduct 12；

Its dewatering process is as follows:

Construction of diaphragm wall, grooving, concreting rinse the processes such as place and generate waste pulp, and by the waste pulp of generation Magma pond 1 is drained into through pipeline, magma pond 1 is set to by mound field 15；

Waste mud in magma pond 1 is carried out sieve sand by mud sand separator 2, and the sandstone of generation directly deposits in mound field 15, And by sieve sand after mud pump drainage to flocculation basin 3, waste pulp pond 1 can be divided into two lattice, respectively store sub-sand handle before waste pulp and Waste pulp after processing, waste pulp pond size can determine that the preliminary large granular impurity reduced in waste pulp is accelerated according to the practical waste pulp amount that generates Dewaterer working efficiency reduces the abrasion of dewaterer strainer, and sand separator processing platform, which is set up, to be fixed on waste pulp pond, is convenient for waste pulp Pump drainage, and the sandstone direct emission of generation is reduced into transit link in mound field 15；

Medicament (flocculant) is added into flocculation basin 3, and is thoroughly mixed by dynamic mixer 8, flocculation basin 3 Interior distribution is arranged to a mud pit, and mixed mud is dispensed to each mud pit, is flocculated, is precipitated in flocculation basin 3, The impurity being further reduced in waste pulp, if the limited mud that can not be provided 3 place of flocculation basin or construction site and need to handle in construction site The larger desirable deflocculating link of slurry amount, directly by sub-sand, treated that mud is pumped directly into that dewaterer 4 carries out next step operation；

Mud after flocculation sedimentation in flocculation basin 3 is subjected to mud-water separation in high pressure pump group pump drainage to dewaterer 4, is separated Water outlet and mud cake, the water water quality after separation is limpid, is stored in water tank 11 and is recycled (for grooving, concrete Pour, rinse the processes such as place), dewatered mud cake is delivered to mud cake storage area 16 for backfilling, cultivating or as building original Material uses, and realizes mud zero-emission.

The above is only the preferred embodiment of the utility model only, is not intended to limit the utility model, all at this Made any modifications, equivalent replacements, and improvements etc., should be included in the utility model within the spirit and principle of utility model Protection scope within.

Claims (3)

1. a kind of EPSS dehydration platform, it is characterised in that: including magma pond (1), mud sand separator (2), flocculation basin (3) and dehydration Machine (4), magma pond (1) are correspondingly arranged on slurry collecting pipe (5), and one end of slurry collecting pipe (5) extends to construction of diaphragm wall At generated waste pulp, the other end is introduced in magma pond (1), is provided with sub-sand between magma pond (1) and mud sand separator (2) and is drawn Slurry pipe (6), one end that sub-sand draws slurry pipe (6) extend to the bottom of magma pond (1), the other end extend to mud sand separator (2) into slurry Mouthful, the thick liquid discharge mouth of mud sand separator (2) is drawn slurry pipe (7) through flocculation and is led in flocculation basin (3), is correspondingly arranged in flocculation basin (3) Dynamic mixer (8), slurry pipe (9) is drawn in setting dehydration between flocculation basin (3) and dewaterer (4), and one end that slurry pipe (9) is drawn in dehydration is stretched To the bottom of flocculation basin (3), the other end connects the stock inlet of dewaterer (4), and slurry collecting pipe (5), sub-sand draw slurry pipe (6), wadding It is solidifying to draw slurry pipe (7) and dehydration is drawn slurry and managed and is respectively arranged with slush pump (10) on (9).

2. a kind of EPSS dehydration platform according to claim 1, it is characterised in that: further include thering is water tank (11) and water storage to draw One end of water pipe (12), water storage aqueduct (12) is connected with the dehydration discharge ends of dewaterer (4), and the other end introduces water tank (11) It is interior, pulp water pump (13) is provided on water storage aqueduct (12).

3. a kind of EPSS dehydration platform according to claim 2, it is characterised in that: further include having platform (14), the magma Pond (1), mud sand separator (2), flocculation basin (3), dewaterer (4), water tank (11) and mound field (15) are all set in platform (14) on, the sand removing hole of the mud sand separator (2) is led in mound field (15), is sieved the sandstone generated after sand and is directly deposited in heap Tu Chang (15).