RU1784715C - Method of securing anchor bolt and anchor bolt - Google Patents

Abstract

Usage: fastening equipment to the bearing surface of structures subject to alternating dynamic influences. Summary of the invention, a method of fastening an anchor bolt includes placing it in a well and monoling the fastening using a hardening composition. In this case, the well is first poured with a quick-hardening polymer composition to the height of the conical thickening of the rod, then the anchor bolt is placed in it until it stops in the bottom of the well, the extension sleeve is deposited downward along the conical thickening until its teeth are cut into the concrete of the building structure, the rod is tensioned and filled the remainder of the well is the same composition. The used polymer composition includes the following components, wt.%: Epoxy resin ED-20 28.7-35.8; polyethylene polyamine 4.3-6.4; styrosil 3.6-8.6; ethyl silicate ETS-40 0.4-0.9; silica dusty KP-3 53.8-57.5. An anchor bolt for securing equipment includes a threaded rod with a conical thickening, an extension sleeve, two compression spring rings, a washer, and two pins. The upper end of the bolt is threaded to screw on the nut. The sleeve is made to its entire height with grooves on the outer surface. The slots are for air to escape from under the lower end of the sleeve. 2 s.p. f-ly. 2 ill.

Description

The invention relates to the field of construction and can be used to fasten various equipment to the bearing surface of structures and structures subjected to dynamic effects, for example, to mount vibrators to the foundations of turbine units for the purpose of their dynamic testing.

It is known an anchor device and a method of erecting it for fastening the equipment to the load-bearing elements of the structures, consisting of a steel bolt with a thread on one side and a tapered shank on the other, which is installed in the well drilled in the bearing surface of the structure and is fixed in the well using sliding metal collet and then poured with cement mortar. The disadvantage of this device and the method of construction of the anchor is

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with the duration of the installation of the anchor device, since the cement mortar hardens within 28 days, and the brittleness of the cement stone, which cracks when exposed to dynamic loads, for example, when the vibrators work during dynamic testing of structures, which lengthens the construction process of the facility and reduces the accuracy of test results. In addition, when pouring a borehole cement with cement mortar with a bolt installed in it, an air plug is formed last, which reduces the adhesion area of the bolt to the cement mortar, and thereby reduces the strength of the anchoring.

There is also known a method of securing an anchor bolt for securing equipment to a building structure and a device for its implementation. The method consists in drilling a hole in a bearing surface, driving a wooden cork into this hole, filling it with an epoxy composition, screwing a screw welded to the end of the anchor bolt in the wooden cork. After setting the anchor bolt in the design position, the mouth of the anchor hole, filled with an epoxy composition, is closed with a special pressure washer with a gasket made of polyethylene, which allows to completely block the anchor hole and prevent the epoxy composition from flowing out during its curing. The epoxy composition for this method has a pot life of more than two hours at 20-30 ° C and hardens within 10 days. After the epoxy adhesive has cured, the pressure seal is removed.

The composition of the epoxy adhesive is the following, parts by weight:

Dianova epoxy resin ED-20100

Polyethylene polyamine (PEPA) 15 Dibutyl phthalate 10

Quartz sand

medium size 300-600

The disadvantage of this method of securing the anchor device for attaching the equipment to the elements of the structure is that an air cavity may arise under the wooden cork, which will impair the adhesion of the bolt to the bearing surface of the structure and the duration of the fastening, since the equipment can be installed after four days and a test of the structure after 10 days. In addition, the disadvantage of the epoxy composition used in the known method is that in the cured

it is brittle in its state, which leads to cracking under dynamic impacts and to distort the results of dynamic tests of the structure.

An anchor for attaching elements to the base, for example, of concrete, taken as a prototype, and including a rod with a conical expansion part at the end and sliding cheeks, is also known. In this case, the conical expansion part of the rod is made with a cavity, the cross section of which is variable in length and increases to the base of the cone.

The disadvantage of this anchor is the absence of teeth on the outer side surface of the teeth, which leads to increased flexibility of the anchor, especially under alternating loads, and thereby reduces the reliability of fixing the anchor in the hole and the fastening of the elements to the base.

This circumstance also leads to a distortion of the results of dynamic tests.

The aim of the invention is to increase the strength and reliability of fastening the anchor bolt for fastening equipment to a building structure under alternating dynamic loads and to reduce the installation time of the equipment.

This goal is achieved by 4jo in the method of securing the anchor bolt, which includes placing a rod in the borehole having a conical thickening at the lower end and covering the thickening of the sliding sleeve, upsetting the sleeve until it contacts the side surface of the borehole, and tensioning the rod, borehole before placing it the rod is partially poured with a composition composition, wt.%:

Epoxy

resin ED-2028.7-35.8

Polyethylene Polyamine 4.3-6.4

Styrosil 3.6-8.6

Ethylsilicate ETS-400.4-0.9

Quartz

dusty KP-353.8-57.8,

and after placing the rod while extruding the composition to a height of thickening, settling the sleeve and tension, the rod is filled with the composition for the rest of the well, the rod being placed in the well until it stops at its bottom, and the rod is tensioned until the composition is cured.

The goal is also achieved by the fact that in the anchor bolt, including a rod with a conical thickening at the lower end and

a spanning sleeve enclosing the shaft with a serrated outer surface; the sleeve is made to its entire height with grooves on the outer side surface for air to escape from under its lower end.

In this case, the initial components of the polymer composition must meet the requirements of GOST and TU: epoxy resin grade ED-20 GOST 10587-84, styrene TU-38-103453-79, ethylSilicate grade ETS-40 TU-6-02-641-76 , polyethylenepolyamine (PEPA) TU-6-02-594-80, dusty quartz grade KP-3 GOST 9077-59.

The composition is strictly limited, since the amount of ED-20 of 35.8% will increase the fragility of the hardened composition, and its amount of 28.7% will reduce the adhesion of the composition to metal and concrete. The amount of styrosil 8.6% will also lead to a decrease in adhesion of the curable composition to metal and concrete, and its amount of 3.6% will lead to brittleness of the material. The amount of ETS-40 0.4% and PEPA 4.3% will lead to an increase in the time of curing of the material. The amount of ETS-40 0.9% will lead to too large a decrease in viability. The amount of PEPA 6.4% will also lead to a decrease in viability and a strong heating of the mass. The quantity and grade of pulverized silica is limited in the viscosity of the curable composition.

The viability of the polymer composition of the proposed composition at a temperature of + 15 ° - + 30 ° C will range from 100 to 20 minutes. The table shows the compositions and properties of curable polymer compositions of the proposed composition and known compositions. As can be seen from the table. after one day, the proposed polymer composition gains 70%, and after four days 90% of its strength. In a known composition, such strength is achieved only after 10 days of curing. Consequently, in a day you can carry out installation of the equipment, and in four days begin dynamic testing of the structure, which greatly speeds up the commissioning of such critical structures as, for example, foundations for powerful turbine units.

Anchor bolts are widely used for fastening various types of equipment and structures to structural support elements. Depending on the installation method, blind bolts are used, removable or installed on the finished foundations using cement mortar or epoxy adhesive.

In our case, the method of fastening the anchor bolt for fastening the equipment, in contrast to the above, is capable of absorbing significant alternating dynamic loads, for example, when using it to fasten the vibrators necessary for conducting vibration tests of such critical structures as the foundations

0 for turbine units of high power. Reliability and durability of the anchor bolt is achieved by wedging and cutting the teeth of the sliding sleeve into the concrete of the building structure, as well as by inserting 5 into the tooth sliding sleeve from the outside of the vertical channels and the special reception (in parts) of filling (monolithic) the boreholes with rapidly gaining strength polymer composition

0 using the tension of the bolt before the final filling of the well and the removal of tension after curing of the composition, which avoids the formation of air jams at the bottom of the well and obtain

5 high strength overall assembly. In addition, the replacement of the cement mortar at the location of the fixed end of the anchor bolt of the proposed special quick-strength polymer

Composition, which, in comparison with cement mortar, has HIGHER indicators of intrinsic strength and adhesion to steel anchor and concrete of a building structure, allows to reduce the commissioning time of a building structure by two to three times.

The method is implemented using the anchor bolt shown in Fig. 1; on the

0 figure 2 - section aa in figure 1. An anchor bolt includes a rod 1 with a thread and a conical thickening 2 a sliding gear sleeve 3 with vertical grooves 4, two spring-loaded

5 of the ring 5, the washer 6 and two pins 7. The upper end of the bolt has a thread for screwing on the nut 8, which is used to erect the anchor bolt and fasten the equipment to the building structure. A conical thickening is put on and welded to the lower end 2. A sliding gear sleeve 3 is mounted on the cone, clamped by spring rings 5. From sliding up the cone during erection of the anchor bolt, the sliding sleeve is held by a washer 6 and two pins 7.

The method is carried out as follows.

When erecting the anchor bolt, a well is first drilled, for example, with a rotary drilling machine. Then prepare the well for the installation of the anchor bolt, cleaning it by blowing or otherwise. Next, the proposed quick-hardening polymer composition is prepared and partially bore is filled to the height of the conical thickening 2. The assembled anchor bolt is inserted into the well until it stops in the bottom of the well, while the polymer composition is extruded through the grooves 4, thereby eliminating air plugs from below the rod 1 and bushings 3.

Then, the auxiliary pipe is put on the rod 1 with a slightly longer length than the rod (not shown in Fig. 1) so that it abuts against the extension sleeve 3 with its lower end and, with a hammer or sledgehammer, pushes the sleeve down along the conical thickening 2 until its teeth are cut in concrete building construction. After that, remove the auxiliary pipe, put on the bolt the auxiliary steel bracket 10, the washer 11, with holes for the passage of the rod 1, so that the steel bracket rests on the plane of the building structure, and then, by screwing the nut 8, the rod is tensioned, which ensures wedging sleeve 3 and creating the necessary expansion to secure the anchor bolt.

Then, the remaining part of the well is poured to the top of the same freshly prepared polymer composition 9 and is aged for one day for curing. After a day, the nut 8 is unscrewed and the auxiliary bracket 10 and the washer 11 are removed. After this, installation of the equipment is started.

Thus, the proposed method of securing the anchor bolt using a quick-hardening polymer composition of the above composition and the anchor bolt shown in figure 1, have significant advantages over the known

methods and devices adopted as analogues and prototype.

The use of the invention will improve the reliability of the results obtained during dynamic testing of structures and building structures. The invention can be used both in the construction of new enterprises, and in the reconstruction of existing in various sectors of the national economy.

Claims (2)

1. A method of securing an anchor bolt, including the placement in the well of a rod having a conical thickening at the lower end, and covering the extension of the extension sleeve, upsetting the sleeve until it contacts the side surface of the well and tensioning the shaft, characterized in that, in order to increase the reliability of bolt fastening, the well is partially filled with a composition of .%: Epoxy resin ED-2028.7-35.8 Polyethylenepolyamine 4.3-6.4 Styrosil 3.6-8.6 Ethylsilicate ETS-400.4-0.9 Quartz dusty KP-353.8-57.5, and after placing the rod while extruding the composition to a height of thickening, settling the sleeve and tension the rod, the composition is filled with the rest of the well, the rod being placed in the well until it stops in the bottom of the well, and the rod is tensioned until the composition is cured. 2. Anchor bolt, including a rod with a conical thickening on the bottom the end and the spanning sleeve enclosing the shaft with a gear outer surface, characterized in that, in order to increase the reliability of bolt fastening, the sleeve is made to its entire height with grooves on the outer surface for air to escape from under its lower end. Compositions and properties of epoxy compositions Properties Zhelezoyetannu htst / zucci Properties Aa Fm g