HU194958B - Test loading device - Google Patents

Abstract

The present invention relates to a test load device mainly for civil engineering and founding structures, e.g. piles with load bearing and force transfer units. Its characteristic feature is that the force unit consists of a hydraulic press (4), a rigid load beam (l) of the force transfer unit. The rigid load beam (1) is integrated with the hydraulic press (4) and with counterweights (2), and with bodies (3) connecting the counterweights (2), e.g. with rods and anchoring bracket (5) that penetrates part of the counterweights (2). (Fig. 1) ■■ f K R? - ξ Ja - 3 r-v- Ύ 4 feet -1-

Description

Test load equipment mainly for underground and especially foundation structures, such as piles, which have power and power transmission units.

In civil engineering practice, excavation is carried out before construction begins. Methods of exploration may be drilling, impact probing, pore water pressure measurement, or a combination thereof. In many cases, excavation does not provide sufficient information about the future behavior of the artwork under load, so they make a part of the artwork and put it to the test load.

On-site test loads are usually carried out when the construction of the structures has already begun, ie in the vast majority of cases the test loads are used to check the load-bearing capacity of the planned elements or structural parts (piles, slabs).

There are two main types of trial load equipment;

- in one type, the load on the test load beam is provided by the pull-out resistance of anchors, slabs or piles placed near the object to be loaded, such a method being described in U.S. Patent No. 176,121. - the other method uses the weight of the building materials available on site to load the test load beam.

In the first procedure, making anchors, piles, or slabs of pile-up into the ground is lengthy and expensive, not to mention that after a test load they can no longer be loaded.

In the second method, the construction of the load-bearing equipment takes a long time from the building materials found on site. Both procedures may require you to start the construction work so that the tools are available at the test load.

It is an object of the present invention to provide a device that can be assembled and disassembled using elements to carry out on-site test loads before construction begins, even during the excavation period.

It is a requirement of the test load equipment that the test load can be carried out easily, quickly and economically during the excavation period and before commencing construction work.

The present invention is based on the discovery that the loading apparatus is preferably constructed of prefabricated elements and can be reused.

According to the present invention, in accordance with the object of the present invention, the test load apparatus according to the invention is mainly designed for the loading of civil engineering and within foundation structures, such as piles, having power and transmission units, such that the force unit is hydraulically pressed The rigid loading beam is integrated with the hydraulic press and has counterweights as well as counter-engaging means such as rods and a cantilever anchoring bracket that penetrates part of the counterweights.

A further embodiment of the test loading device according to the invention is characterized in that the counterweights are of the same weight and preferably of the same size.

A further feature of the test loading device may be that the counterweights are made of a high volume material, e.g. steel, cast iron, heavy concrete, etc. are.

A preferred embodiment of the test loading device according to the invention is characterized in that the filler material of the counterweights has, for example, a cavity suitable for receiving sand or other local material.

The advantage of using the invention is that it is possible to determine the bearing capacity of different layers of soil at different depths up to the applicable depth and more reliably than before, prior to the commencement of construction activities in the designated area. Thus, the soil bearing capacity data obtained can already be taken into account when designing the foundations.

A further advantage of the present invention, as a result of the above, is that the resulting load-bearing data set enables the design of an economical foundation, without oversizing. It is also advantageous that the test load preparation time and the amount of materials used are significantly reduced compared to conventional solutions, thus reducing the cost of the test load.

The invention will now be described in more detail with reference to the accompanying drawings, in which the test loading device is shown ready for loading. The

Figure 1 is a front view of the test loading device, a

Figure 2 is a side view thereof, a

Figure 3 shows a top view of the same.

The main part of the test loading device is a rigid loading beam 1 with a hydraulic press 4 fixed in the center as shown in Fig. 1 and Fig. 3. The load beam 1 rests on the counterweights 2. The console anchoring bracket 5 penetrates through the lowest part of the counterweights 2. The load beam 1 and the counterweights 2 are secured by the clamping device 3. Figures I and 2 both show that the lowest members of the counterweights 2 rest on the ground before the test load. During loading, the rigid loading device 1 rises as the hydraulic load 4 moves downward, leaning on the underground loading device, and after a while the clamping device 3 raises the counterweights 2 to create the full load.

Advantageous effects associated with the present invention include:

-2194958 - the test load can be carried out before the start of the construction - the size of the load can be varied by the number of counterweights - the time of preparation of the test load and proportionally its cost decreases.

The test loading apparatus of the present invention is applicable to all test loads where underground structures are to be tested.

Claims (4)

PATENT CLAIMS 1. Test load equipment mainly for civil engineering and within it foundation structures, eg. for piling loads with power and power transmission units, characterized in that the power unit is formed by a hydraulic press (4), the power unit by a rigid loading beam (1), a rigid loading beam (1) integrated with the hydraulic press (4) , and counterweights (2) and a device (3) for engaging the counterweights (2), e.g. rods, as well as a bracket anchorage bracket (5) penetrating a part of the counterweights (2). The test load device according to claim 1, characterized in that the counterweights are of the same weight and preferably of the same size. The test loading device according to claim 1 or 2, characterized in that the counterweights (2) are made of a material of high volume, e.g. steel, cast iron, heavy concrete, etc. are. The test loading device according to claim 3, characterized in that the counterweights (2) are filled with filler material, e.g. have a cavity suitable for receiving sand or other local material.