RU190219U1 - VAST - Google Patents

Abstract

The utility model relates to the field of lifting and transport machinery, in particular, to the construction of cables, and can be used in various industries, for example, for fastening boom, cable-stayed, lifting, traction, pressure, pressure return rope of excavators, draglines (walking excavators) used in various temperature and climatic conditions, aggressive environments. Technical result - simplification of the production process of the cables and increase of the reliability of fixing the steel cable in the filler sleeve This technical result is achieved by the fact that the cable contains a steel cable, at least one part of which is unraveled and rigidly fixed in a filler sleeve, in the upper part of which contact means are placed for lifting, lowering or holding the load and having an internal through hole for pouring fixing material. in the form of a truncated cone, according to the proposal, the smaller base of the inner through hole for pouring the fixing material is the inlet for the unwound end of the steel of the rope and corresponds to the diameter of the steel rope D, and the tapered part of the inner through hole for casting the fixing material is made not less than 3.5⋅D in length and has a taper of 8 ÷ 20 °, while an unsaturated polyester resin dissolved in styrene with a hardener is used as the fixing and / or an accelerator. The technical result is also achieved by the fact that the unsaturated polyester resin has a dynamic viscosity of 0.3-0.4 Pa⋅s, a heat resistance limit of 100-120 ° C, a flexural strength of at least 9 MPa, a flexural modulus of 3600- 4400 MPa, verdost Barcol 35-60 units. 2 of FIG.

Description

The invention relates to the field of lifting and transport machinery, in particular, to the design of cables and can be used in various industries, for example, for fastening boom, cable-stayed, lifting, traction, pressure, pressure-return rope of excavators, draglines (walking excavators) used in various temperature and climatic conditions, aggressive environments.

Known bearing cable of the bridge, containing the cable, the end parts of which are unraveled and rigidly fixed in the filler sleeves filled with zinc alloy (CN 102535342, IPC E01D 19/16, E01D 21/00, 12.01.2012).

The disadvantage of this product is the need to comply with temperature regimes, the presence of specialized equipment and additional energy consumption for the implementation of the zinc. Failure to comply with the temperature regimes can lead to the formation of internal cavities, which reduces the strength characteristics of the product, and the overheating of the filler sleeve leads to a weakening of the metal from which it is made.

Known cable stay, containing a metal cable, at least one end of which is unraveled and rigidly fixed in the filler sleeve, while the filler sleeve is filled with polyester resin or epoxy resin with a hardener and filler in the form of powder or granular material (RF Patent 149680, IPC F16G 11/00, 08.26.2014.

The disadvantages of the famous cable guy are as follows.

The increase in the strength of polyester resins after curing at room temperature occurs within two weeks. Thus, to accelerate the process of achieving maximum strength, it is necessary to conduct heat treatment at a temperature of 80 ÷ 100 ° C for 1 ÷ 2 hours, which increases the production time and requires the use of special means for heating.

The cost of epoxy resins is significantly higher compared to unsaturated polyester resins. The period of polymerization depends on the type of hardener and can be unpredictable. The use of high-quality hardeners will cause a significant increase in the cost of work.

The technical result is to simplify the production process of the cables and increase the reliability of fastening the steel rope in the filler sleeve.

This technical result is achieved by the fact that the guy has a steel cable, a filler sleeve, in the upper part of which are located contact means for lifting, lowering or holding the cargo and having an internal through hole for pouring the fixing material in the form of a truncated cone, according to the proposal the smaller base of the internal through hole for pouring fixing material is the inlet for the braided end of the steel rope and corresponds to the diameter of the steel rope D, and the conical part Cored oil through hole for pouring the fixing material is formed of no less than 3,5⋅D and has a taper 8 ÷ 20 °, in this case as the fixing material is an unsaturated polyester resin dissolved in styrene with the possible addition of the accelerator.

The technical result is also achieved by the fact that one end portion of the steel rope is unraveled and rigidly fixed in the filler coupling.

The technical result is also achieved by the fact that both end parts of the steel rope are unraveled and rigidly fixed in the filler coupling.

The technical result is also achieved by the fact that the unsaturated polyester resin has a dynamic viscosity of 0.3-0.4 Pa⋅s, a heat resistance limit of 100-120 ° C, a flexural strength of not less than 9 MPa, a flexural modulus of 3600-4400 MPa, Barcol 35-60 units.

The essence of the utility model is illustrated by drawings.

The figure 1 presents the guys of the proposed design with different types of filler sleeves in isometric.

The figure 2 presents the guys of the proposed design in section.

The guy of the proposed construction contains a steel rope 1, the end parts (not marked on the drawings) of which are unraveled and rigidly fixed in the filler box. The inlet coupling used in the manufacture of cables can be either of an open type 2 or a closed type 3 (Fig. 1). The sleeves 2,3 in the upper part have contact means for lifting, lowering or holding the load. Contact means for lifting, lowering or holding a load can be made in the form of, for example, U-shaped (fork-shaped) terminal clamps 4 for open-type open-type sleeves 2 or eyelets 5 for closed-type open-type sleeves 3 (Fig. 1).

For fixing the steel rope 1 and pouring the fixing material 6 into the filler sleeves, an internal through hole is made for pouring the fixing material 7 in the form of a truncated cone (Fig. 2).

The smallest diameter of the inner through hole for pouring the fixing material 7 on the side provided for inserting the braided end of the steel rope 1 corresponds to the diameter of the steel rope D, while the length L of the tapered part of the inner through hole for pouring the fixing material 7 must be at least 3.5⋅ D and have a taper α = 8 ÷ 20 ° (Fig. 2).

When the length L of the tapered part of the inner through hole for pouring the fixing material 7 is less than 3.5⋅D, the amount of the fixing material 6 for casting will not be enough to hold the untied end of the steel wire 1 in the filler sleeve.

The taper α of the inner through hole for pouring the fixing material 7 less than 8 ° is insufficient to hold the fixing material 6 in the inner through hole 7 and may cause the unwound end of the steel rope 1 to pop out through the inlet (equal to the diameter of the steel rope D). In this case, the manufacture of the internal through hole for pouring the fixing material 7 with a taper α of more than 20 ° is impractical, since This significantly increases the size and cost of both the filler sleeve itself and the finished guy as a whole.

One end portion of the steel rope or both end portions of the steel rope can be fixed in the filler coupling. In the event that one end portion of the steel cable is fixed in the filler sleeve, the other end portion of the steel rope is wound on the winch drum.

Sealing the ends of the rope by fixing (pouring) the couplings with a resin-based composition is the most reliable and durable way to seal the ends of the rope.

With this method of sealing the ends of the rope, the couplings are fixed with the help of a specially prepared polymer composition based on unsaturated polyester resin. Of all the types of embedments, this type has the highest efficiency coefficient, and as a result of the pouring, a monolithic compound, characterized by high strength, is obtained.

The advantages of this type of termination include its versatility: you can use a rope of any design, the possibility of using large diameters of ropes, which is impossible on other types of end termination. The strength of the resulting compound "steel rope - filler sleeve" reaches the strength of the steel rope.

The characteristics of the fixing material for casting are selected on the basis of the scope of the cable, and depends on the characteristics of the steel rope and the size of the filler sleeve. Also, the parameters of any fixing material should provide the optimum degree of adhesion of the fixing material with the surface of the internal through hole for pouring the fixing material in the form of a truncated cone and the unraveled end of a steel rope for filling numerous grooves on the metal surface.

In recent years, fixing material based on unsaturated polyester resins has become the most widely used as a fixing material.

Fixing materials based on unsaturated polyester resins have high strength, hardness, wear resistance, excellent dielectric properties, high chemical resistance, environmental safety, because during operation do not emit harmful elements.

Unsaturated polyester resins cure at room temperature without applying pressure, without releasing volatile and other by-products with a slight shrinkage. Therefore, for the manufacture of products does not require any specialized equipment or thermal energy, which allows you to quickly learn how to low-tonnage and large-tonnage production of products. The advantage of unsaturated polyester resins is also their low cost, which is lower than the cost of epoxy resins.

The basis of the resin of this type is polyester, for hardening of the material, use hardeners and accelerators. In some information sources, hardeners - components that contribute to a more rapid thickening and hardening of the material, are called “catalysts” (hereinafter, the term “hardener” will be used).

The hardener acts as a source of internal heat generation, due to which curing takes place. As a result of the polymerization process, no by-products are formed. If necessary, can be used and the accelerator. In this case, the ratio of the content of the hardener and accelerator determines the course of curing (gel time) and the time required to turn the fixing material based on the unsaturated polyester resin into a solid state.

Styrene can be used as curing agents of unsaturated polyester resins. At the same time, the obtained fixing material practically does not shrink, since during curing, styrene does not volatilize, but polymerizes with the dissolved resin.

The hardener can be used in liquid form, in the form of a paste or powder.

Unsaturated polyester resin should have the following properties: dynamic viscosity of 0.3-0.4 Pa⋅s, thermal resistance of 100-120 ° C, flexural strength of at least 9 MPa, bending modulus of 3600-4400 MPa, Barcol hardness of 35- 60 units

The deviation of the parameters of the unsaturated polyester resin from the specified values increases the likelihood of destruction of the monolithic “steel rope - filler coupling” connection, obtained by pouring, with loads exceeding the calculated ones.

So, with a dynamic viscosity of less than 0.3 Pa · s, the resin has a high flowability, while at a dynamic viscosity of more than 0.4 Pa · s, the resin has increased brittleness, which can negatively affect the strength of the monolithic “steel rope - filler coupling” and lead to its destruction under increased loads.

Filling the fixing material in the coupling consists of the following operations. Broach the free end of the rope through the inner through hole to fill the fixing material in the form of a truncated cone in the inner case. Braid of the steel rope with a soft knitting wire below the base of the inner through hole for pouring the fixing material. Dissolution of the free end of the steel rope. Degrease the fluffy end of the steel edge and the inner through hole to fill the fixing material. Fill fixing material.

Examples of the use of a guy with a filler coupling of the proposed design.

The guy of the proposed design can be used as part of a single-bucket mining excavator, in which the upper part of the boom is connected by a hinge to the lower part and is suspended on the boom ropes or cables.

The arrows of straight shovels are kept in the working position with the help of cables. The excavator boom suspension consists of two to four shafts, two struts connecting the middle part of the boom to the two-leg stand, which transfers the load from the boom to the turntable.

At the cable suspension, the boom is held in the working position by several ropes (cables) of constant length.

Also the guys of the proposed design can be used as part of the device for lifting the tower, in suspended and suspension bridges, etc.

Thus, the claimed guy design contributes to the reduction of the time of their production through the use of fixing materials, gaining a final hardness during a shorter period (up to a day).

This simplifies the process of guy production: polymerization of the fixing material occurs at natural temperature without the use of external heat sources, then to initiate the polymerization there is no need to carry out an additional procedure for heating the fixing material using special equipment.

In addition, the reliability of fixing the steel cable in the filler sleeve is enhanced by obtaining a better connection, in which there are no shrink holes and voids, as well as areas of lag of the fixing material from the surface of the inner through hole of the filler sleeve.

Claims (4)

1. A cable containing a steel cable, a filler sleeve, in the upper part of which are located contact means for lifting, lowering or holding the load and having an internal through hole for pouring fixing material in the form of a truncated cone, characterized in that the smaller base of the internal through hole for casting fixing material is the inlet for the unwound end of the steel rope and corresponds to the diameter of the steel rope D, and the conical part of the internal through-hole for casting is fixed ruyuschego material is formed of no less than 3,5⋅D and has a taper 8 ÷ 20 °, in this case as the fixing material is an unsaturated polyester resin dissolved in styrene with the possible addition of the accelerator. 2. The guy according to claim. 1, characterized in that one end portion of the steel rope is unraveled and rigidly fixed in the filler sleeve. 3. The guy according to claim. 1, characterized in that both end portions of the steel cable are unraveled and rigidly fixed in the filler sleeve. 4. The guy according to claim. 1, characterized in that the unsaturated polyester resin has a dynamic viscosity of 0.3-0.4 Pa · s, a thermal resistance limit of 100-120 ° C, a flexural strength of at least 9 MPa, a flexural modulus of 3600- 4400 MPa, Barcol hardness 35-60 units.

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