CN205467644U - Sea is received mole and is glued high -molecule waterproof roll production facility - Google Patents

Abstract

The utility model discloses a sea is received mole and is glued high -molecule waterproof roll production facility, include consecutive first agitator tank, first batching jar, first colloid mill, scribble oil groove, tectorial membrane device and crimping device, the entry end of batching jar is linked together with asphalt tank, talcum powder jar, additive jar respectively, the entry end and 9 resins in the carbon of agitator tank are linked together, the utility model has the advantages of: the stability of waterproofing membrane's life -span and construction are more convenient, have excellent size is improved, the weatherability, ultraviolet resistance performance and two -way resistance to tearing can, it is firm to bond, does not go here and there water, there be good " self -healing performance ", can make the part receive point of puncture autogenous healing.

Description

Sea nanomole glues polymer membranes and produces equipment

Technical field

This utility model relates to a kind of adhesive waterproof coil, and specifically a kind of CMS sea nanomole glues polymer membranes and produces equipment, belongs to adhesive waterproof coil field.

Background technology

Along with expanding economy, the progress in epoch, the requirement to architectural waterproof material is more and more higher, and the most various forms of waterproof rolls arise at the historic moment.But underground waterproof is due to the particularity in its geographical position etc., has special performance requirement to waterproof material.Various coiled materials are cemented in body structure surface and are formed by underground engineering coil waterproof layer asphalt adhesive continuously.Underground waterproof coiled material requires that the waterproof roll performance used to be got well, and has certain toughness and transmutability, adapt to underground engineering sink, the flexible and micro-strain that causes, can the corroding or the underground engineering of vibrated effect of antiacid, alkali, saline solution.Also exist in terms of construction that quality is difficult to ensure, labor condition is poor, atmosphere pollution, uneasy congruent factor, particularly construction quality are difficult to check percolating water once occur, repair more difficult simultaneously.

The appearance of adhesive waterproof coil, substantially reduces the difficulty of construction of waterproof roll, particularly polymer membranes due to its performance advantage, is widely used in recent years in building waterproofing industry.But the high-polymer self-adhesion waterproof coiled material sold in the market still suffers from many drawbacks, such as antiseep poor effect, string water leaks seriously, collapse resistance power is poor, easily occur puncturing or tearing phenomenon etc., cause the destruction of waterproof system, need labor intensive material resources to repair, shorten the service life of waterproof roll, cause the waste of fund and resource.Especially for the mountain ridge and subaqueous tunnel, due to its long-term existence hydraulic pressure, and being affected seriously by factors such as natural environment, therefore the performance requirement for waterproof material is the strictest.

Summary of the invention

In order to solve the problems referred to above, this utility model devises a kind of sea nanomole and glues polymer membranes and produce equipment, excellent performance, easy construction and can tackle various construction environment, improves the performance inferior position of high-polymer self-adhesion waterproof coiled material.

The technical solution of the utility model is:

Sea nanomole glues polymer membranes, including sandwich layer tire base, the gluing bed of material and coating layer；Described gluing material includes the first oiling bed of material and the second oiling bed of material, after cooling, is separately positioned on the both sides of described sandwich layer tire basal plane；Described coating layer includes that strength intersects film layer and PET separating film layer, and described strength is intersected film layer and is arranged on the outside of the described first oiling bed of material, and described PET separating film layer is arranged on the outside of the described second oiling bed of material.

The described gluing bed of material is made up of the raw material of following weight portion:

No. 100 Colophonium 40-50 parts, powder styrene butadiene rubber (SBR) 10-15 part, carbon 9 resin 6-8 part, softening agent base oil 15-16 part, Pulvis Talci 10-20 part, additive butyl rubber 10-28 parts.

The preparation method of the described gluing bed of material, comprises the following steps:

A. Colophonium is squeezed into material-compound tank stirring by proportioning, material-compound tank is heated, when temperature rises to 160 ± 5 DEG C, add softening agent；

B. adding SBR glue when temperature rises to 180 ± 5 DEG C, stir 1.5 hours, temperature controls at 185～200 DEG C, grinds 1.5 hours with colloid mill while stirring；

C. carbon 9 resin is added in agitator tank and stir 0.5 hour, when temperature is down to 155～160 DEG C in material-compound tank, carbon 9 resin is squeezed into material-compound tank；

When d. making temperature be raised to 175～180 DEG C by heat-conducting oil heating, it is blended into Pulvis Talci, additive etc., stirs 25～35 minutes, lower the temperature after stirring fully, when temperature is down to 150 ± 5 DEG C, obtains the gluing bed of material and be coated with oil plant.

Above-mentioned sea nanomole glues the preparation technology of polymer membranes, comprises the following steps:

(1) sandwich layer tire base is prepared

Sandwich layer tire base uses strength intersection film；

(2) gluing material is prepared

A. Colophonium is squeezed into material-compound tank stirring by proportioning, material-compound tank is heated, when temperature rises to 160 ± 5 DEG C, add softening agent；

B. adding SBR glue when temperature rises to 180 ± 5 DEG C, stir 1.5 hours, temperature controls at 185～200 DEG C, grinds 1.5 hours with colloid mill while stirring；

C. carbon 9 resin is added in agitator tank and stir 0.5 hour, when temperature is down to 155～160 DEG C in material-compound tank, carbon 9 resin is squeezed into material-compound tank；

When d. making temperature be raised to 175～180 DEG C by heat-conducting oil heating, it is blended into Pulvis Talci, additive etc., stirs 25～35 minutes, lower the temperature after stirring fully, when temperature is down to 150 ± 5 DEG C, obtain painting oil plant；

(3) the oiling stream made is entered oiling groove, sandwich layer tire base is launched to put into oiling groove oiling, control the thickness of the oiling bed of material at 0.8mm；

(4) the sandwich layer tire base after oiling is cooled down；

(5) overlay film, crimp, pack, put in storage.

Above-mentioned sea nanomole glues polymer membranes and produces equipment, including the first agitator tank being sequentially connected, the first material-compound tank, the first colloid mill, oiling groove, film covering device and crimping device, the arrival end of described material-compound tank is connected with asphalt tank, Pulvis Talci tank, additive tank respectively, and the arrival end of described agitator tank connects with carbon 9 resin-phase.

Wherein, the arrival end of described oiling groove the most successively with the second agitator tank, the second colloid mill, the second material-compound tank, the arrival end of described second agitator tank is connected with 100# asphalt tank and basis oil tank respectively, the arrival end of described second colloid mill is connected with carbon 9 resin container, and the arrival end of described second material-compound tank is connected with Pulvis Talci tank and butyl rubber tank.

Wherein, described strength intersection film is made up of the raw material of following weight portion:

No. 100 Colophonium 42-52 parts, powder styrene butadiene rubber (SBR) 9-14 part, carbon 9 resin 8-10 part, softening agent base oil 12-14 part, Pulvis Talci 10-20 part, additive butyl rubber 10-28 parts.

The preparation method of described strength intersection film, comprises the following steps:

(1) in agitator tank, add 100# Colophonium, be warming up to 160 ± 5 DEG C, add softening agent base oil；

(2) adding SBR glue when temperature rises to 180 ± 5 DEG C, stir 1.5～2 hours, temperature controls at 185～200 DEG C, after dissolving, grinds 1. 5 hours with colloid mill while stirring, adds carbon 9 resin, continue stirring 0. 5 hours during to fully mixing；

(3) when material-compound tank is cooled to 155～160 DEG C, carbon 9 resin is squeezed into material-compound tank；

(4) when making temperature be raised to 175～180 DEG C by heat-conducting oil heating, it is blended into Pulvis Talci and additive butyl rubber, stirs 25～35 minutes, lower the temperature after stirring fully, when temperature is down to 150 ± 5 DEG C, the most prepared.

The utility model has the advantage of: compared with prior art not only there is the excellent properties that conventional polymer self-adhesive coiled material is had, also have the advantage that

(1) to can reach 0.6MPa waterproof for impermeability measured value, it it is 2 times of national standard requirement, can reach the pressure keeping out 60 heads in underground waterproof engineering, that resists that building is likely encountered in the life-cycle superlatively descends water level, is effectively improved the reliability that underground structure is waterproof；

(2) it is held viscosity measured value and saw more than 60 minutes, can close and firm bonding with basal plane, the water that effectively prevents from going here and there leaks；

(3) the pulling force measured value of this waterproof roll is at more than 500N simultaneously, and superpower tensile strength can effectively be resisted sedimentation, deform the destruction causing waterproof layer；

(4) overcome mill run and construction environment is required this harsh shortcoming, construction environment is had great tolerance, not only can carry out the self-adhesion of concrete, cardboard, glass, timber, pottery, metal etc. and glue mutually, the band water bonding between coiled material can also be realized, it is adaptable to various underground waterproof engineering；Meanwhile, this utility model, for the difference of basic unit's concrete condition during practice of construction, can select use wet-laying construction or overlay the construction method of construction.

The utility model is described in further detail with embodiment below in conjunction with the accompanying drawings.

Accompanying drawing explanation

Fig. 1 is the structured flowchart of this utility model embodiment waterproofing membrane production equipment.

Detailed description of the invention

Hereinafter preferred embodiment of the present utility model is illustrated, it will be appreciated that preferred embodiment described herein is merely to illustrate and explains this utility model, be not used to limit this utility model.

Except as otherwise noted, the percent employed in this utility model is percetage by weight.

Embodiment 1

Sea nanomole glues polymer membranes, including sandwich layer tire base, the gluing bed of material and coating layer；Described gluing material includes the first oiling bed of material and the second oiling bed of material, after cooling, is separately positioned on the both sides of described sandwich layer tire basal plane；Described coating layer includes that strength intersects film layer and PET separating film layer, and described strength is intersected film layer and is arranged on the outside of the described first oiling bed of material, and described PET separating film layer is arranged on the outside of the described second oiling bed of material.

The described gluing bed of material is made up of the raw material of following weight portion:

No. 100 Colophonium 40-50 parts, powder styrene butadiene rubber (SBR) 10-15 part, carbon 9 resin 6-8 part, softening agent base oil 15-16 part, Pulvis Talci 10-20 part, additive butyl rubber 10-28 parts.

The preparation method of the described gluing bed of material, comprises the following steps:

A. Colophonium is squeezed into material-compound tank stirring by proportioning, material-compound tank is heated, when temperature rises to 160 ± 5 DEG C, add softening agent；

B. adding SBR glue when temperature rises to 180 ± 5 DEG C, stir 1.5 hours, temperature controls at 185～200 DEG C, grinds 1.5 hours with colloid mill while stirring；

C. carbon 9 resin is added in agitator tank and stir 0.5 hour, when temperature is down to 155～160 DEG C in material-compound tank, carbon 9 resin is squeezed into material-compound tank；

When d. making temperature be raised to 175～180 DEG C by heat-conducting oil heating, it is blended into Pulvis Talci, additive etc., stirs 25～35 minutes, lower the temperature after stirring fully, when temperature is down to 150 ± 5 DEG C, obtain painting oil plant；

Above-mentioned sea nanomole glues the preparation technology of polymer membranes, including sandwich layer tire base oiling, the cooling of oiling material, overlay film, crimps and packs, puts in storage, specifically includes following steps:

(1) sandwich layer tire base is prepared

Sandwich layer tire base uses strength intersection film；

(2) gluing material is prepared

A. Colophonium is squeezed into material-compound tank stirring by proportioning, material-compound tank is heated, when temperature rises to 160 ± 5 DEG C, add softening agent；

B. adding SBR glue when temperature rises to 180 ± 5 DEG C, stir 1.5 hours, temperature controls at 185～200 DEG C, grinds 1.5 hours with colloid mill while stirring；

C. carbon 9 resin is added in agitator tank and stir 0.5 hour, when temperature is down to 155～160 DEG C in material-compound tank, carbon 9 resin is squeezed into material-compound tank；

When d. making temperature be raised to 175～180 DEG C by heat-conducting oil heating, it is blended into Pulvis Talci, additive etc., stirs 25～35 minutes, lower the temperature after stirring fully, when temperature is down to 150 ± 5 DEG C, obtain painting oil plant；

(3) the oiling stream made is entered oiling groove, sandwich layer tire base is launched to put into oiling groove oiling, control the thickness of the oiling bed of material at 0.8mm；

(4) the sandwich layer tire base after oiling is cooled down；

(5) overlay film, crimp, pack, put in storage.

Wherein, described strength intersection film is made up of the raw material of following weight portion:

No. 100 Colophonium 42-52 parts, powder styrene butadiene rubber (SBR) 9-14 part, carbon 9 resin 8-10 part, softening agent base oil 12-14 part, Pulvis Talci 10-20 part, additive butyl rubber 10-28 parts.

As shown in Figure 1, above-mentioned sea nanomole glues polymer membranes and produces equipment, including the first agitator tank being sequentially connected, the first material-compound tank, the first colloid mill, oiling groove, film covering device and crimping device, the arrival end of described material-compound tank is connected with asphalt tank, Pulvis Talci tank, additive tank respectively, and the arrival end of described agitator tank connects with carbon 9 resin-phase.

Wherein, the arrival end of described oiling groove the most successively with the second agitator tank, the second colloid mill, the second material-compound tank, the arrival end of described second agitator tank is connected with 100# asphalt tank and basis oil tank respectively, the arrival end of described second colloid mill is connected with carbon 9 resin container, and the arrival end of described second material-compound tank is connected with Pulvis Talci tank and butyl rubber tank.

The preparation method of described strength intersection film, comprises the following steps:

(1) in agitator tank, add 100# Colophonium, be warming up to 160 ± 5 DEG C, add softening agent base oil；

(2) adding SBR glue when temperature rises to 180 ± 5 DEG C, stir 1.5～2 hours, temperature controls at 185～200 DEG C, after dissolving, grinds 1. 5 hours with colloid mill while stirring, adds carbon 9 resin, continue stirring 0. 5 hours during to fully mixing；

(3) when material-compound tank is cooled to 155～160 DEG C, carbon 9 resin is squeezed into material-compound tank;

(4) when making temperature be raised to 175～180 DEG C by heat-conducting oil heating, it is blended into Pulvis Talci and additive butyl rubber, stirs 25～35 minutes, lower the temperature after stirring fully, when temperature is down to 150 ± 5 DEG C, the most prepared.

In this utility model, raw materials used being during this area produces commonly uses raw material, all can obtain from market, and will not produce impact for producing result；Various equipment employed in this utility model, are in the production technology of this area the conventional equipment used, and the operation of each equipment, parameter etc. are all carried out according to routine operation, there is no special feature.

Claims (2)

1. sea nanomole glues polymer membranes production equipment, it is characterized in that: include the first agitator tank, the first material-compound tank, the first colloid mill, oiling groove, film covering device and the crimping device being sequentially connected, the arrival end of described material-compound tank is connected with asphalt tank, Pulvis Talci tank, additive tank respectively, and the arrival end of described agitator tank connects with carbon 9 resin-phase.

Sea the most according to claim 1 nanomole glues polymer membranes and produces equipment, it is characterized in that: the arrival end of described oiling groove the most successively with the second agitator tank, the second colloid mill, the second material-compound tank, the arrival end of described second agitator tank is connected with 100# asphalt tank and basis oil tank respectively, the arrival end of described second colloid mill is connected with carbon 9 resin container, and the arrival end of described second material-compound tank is connected with Pulvis Talci tank and butyl rubber tank.