CZ25188U1 - Anchorage device - Google Patents

Description

Technical field

The technical solution relates to an anchoring device intended for a number of elements and components with one or more anchors and points intended for use with personal protective equipment against falls from a height.

Background Art

The protection of workers from falling when performing various activities at risk of falling is an important part of occupational health and safety. At the same time, not using anchor devices in conjunction with personal fall protection means leads to many work injuries and often with fatal consequences. The anchoring device provides the basic possibility of attaching the attachment means to prevent falls. The anchoring device must ensure that it can be fastened with a corresponding connector - a carabiner and the impact force is dropped in depth or height. Existing solutions do not address the need to disperse kinetic energy (limiting the impact force on the body) occurring during the fall. It is the size of the kinetic energy acting on a person's body that can seriously compromise the integrity of the human body or damage the internal organs. Existing anchorage points and anchor devices do not address the impact force of the fall. Although a series of anchoring devices deforms under the load of kinetic energy, the deformation of the existing anchoring devices is not designed to absorb part of the kinetic energy and is designed as an anchor device intended only for fall arrest. The anchoring devices always have a fastening element to be fastened to the support structure, or they can hold their own weight and anchor point intended to fasten the attachment system, including the body holding device.

The disadvantage of existing plants is that they do not have a special kinetic energy-absorbing zone and are only intended as fall arrest and trapping systems. These devices are not designed to absorb parts of the kinetic energy (impact force) that arise in the fall and which act on the human body. All devices used so far always require the use of a fall absorber.

The essence of the technical solution

The aforementioned disadvantages are eliminated by an anchoring device intended to fasten personal fall protection devices to a building structure, according to a technical solution which consists of a tube in which a post is inserted, a seat and a deformation zone in the lower part and at the top with a screw. Furthermore, the essence is that the seat is seated on an anchor post fixed to the building structure. The essence is also that the bolt is provided with an eye for attaching the carabiner, or a canopy is attached to the tube under the bolt for fastening the rope to the structure. Another essence is that the post has a length of 300 to 600 mm at a diameter of 15 to 22 mm, wherein the deformation zone is defined by a distance of up to 35 mm from the bottom of the tube and the length of the deformation zone is 35 to 40 mm. The minimum deformation zone weakening is 0.9 mm, maximum 1.1 mm. Furthermore, the pillar, canopy, eye bolt, tube, saddle, bottom and rope are made of stainless steel or other noble material.

The body of the anchoring device thus consists of a stainless steel tube in which the part on the inserted post is weakened so as to gradually deform the tube under load when the person falls down to an angle of 90 °. This disperses and absorbs kinetic energy directly by the anchoring device. The attenuation is provided in the lower part of the tube of the anchoring device and in the corresponding height above the lower female thread, which is intended to fix the tube of the anchoring device to the supporting structure. The remaining part of the tube is not deformed and ensures the stability of the anchoring device when a person falls into a person's life. The end, divider and corner anchoring devices in the flexible conduit system have a double deformation zone, one on the center tube and the other on the outer tube of nominal diameter. This ensures adequate dispersion of the kinetic energy even in the manner of solution. Both the outer and inner tubes are deformed.

CZ 25188 Ul

The advantage of this solution of the anchoring device is that even in such cases where the person does not adequately attach the whole body harness as part of a personal fall protection device and whose fall is caught, it has not been subjected to the unwanted influence of kinetic energy on the body. In the event of a fall arrest of up to 1500 mm (this length is considered to be the limit in case of fall protection for building maintenance), there is no need for a fall absorber.

BRIEF DESCRIPTION OF THE DRAWINGS

An anchoring device is shown in the accompanying drawings, in which Fig. 1 is a sectional view of a folded device in a so-called flexible embodiment Fig. 2 shows a bolt with an eye bolt in an assembled state, in Fig. 3 disassembled. FIG. 4 shows a detail of the deformation zone, FIG. 5 shows the mounting of the anchoring device to the building structure.

Exemplary embodiments

The anchor device is made of stainless steel and is designed to be fixed to various building structures. It can be used as a single anchor point as well as a flexible line system. Each separate anchor point allows the connection of personal fall protection equipment or a stainless steel cable to a flexible line system. The anchoring equipment can be mounted on a reinforced concrete structure for structural steel with a minimum thickness of 3 mm and for a supporting wooden structure.

The main part of the anchoring device is a post 3, which is inserted in the tube 6. The post 3 has a length of 400 mm and a diameter of 18 mm and is provided with a seat 5 in the lower part. the lower part of the tube 6. The length of the deformation zone 4 is 40 mm and its thickness is 1 mm. The interconnection of the post 3 and the tube 6 is secured in the upper part by the screw H, the seat 5 is then seated on the anchor post 13 fixed to the building structure. The seat 5 increases the support surface on the support substrate and provides increased strength of the post where the thread and fastener is.

In the basic embodiment of the anchoring device, the screw is JJ. provided with an eye 1, for attaching a safety harness carabiner or passing a stainless steel rope 9 in a flexible conduit system (FIGS. 2, 3, 4). Under JJ screw. a deformation pad 2 is inserted to prevent spontaneous loosening of the screw 11. with an eye U An anchoring device is fastened to the building so that the seat 5 is slid onto the anchor post 13, which is attached to the reinforced concrete structure 14, on which the thermal insulation 15 is further. The pipe 6 is protected by a waterproofing cover 16 over this insulation (FIG. 5). In a variant of this embodiment, the anchor post 13 is a bolt by which the anchor device is connected to the steel profile.

Another solution of the anchoring device in a flexible line (Fig. 2) is that the screw H is without a mesh and a canopy 7 is placed under the deformation pad 2, under which the cable 9 is fastened. it is then connected by a JO coupling and attached to the structure. The seat 5 is not anchored, it is only fitted to the anchor post J3.

The post 3, the canopy 7, the tube 6, the seat 5, the bottom 12 and the rope 9 are made of stainless steel or other noble material.

The function of the new solution is that when the person falls, the deformation zone 4 is deformed, which absorbs part of the kinetic energy, the anchoring device is bent at this point by up to 90 ° and its remaining part remains unchanged.

Industrial usability

The anchor device is intended for use in a variety of industries as a system to which personal protective equipment can be attached to prevent falls. They can be used, for example, to prevent falls from moving in the maintenance of roofs and equipment on roofs, machine maintenance, fall risk, fall-proof and maintenance-threatened buildings.

Risk of falling. The anchoring device makes it possible to fasten to most statically relevant structures with the help of additional parts. The materials used do not require maintenance and ensure long-term fault-free functionality.

Claims (6)

PROTECTION REQUIREMENTS Anchoring device for attaching personal protective equipment against falls from a height on a building structure, characterized in that it consists of a tube (6) in which a pillar (3) is inserted, provided with a seat (5) at the bottom and a deformation zone (4) and a screw (11) at the top. Anchoring device according to claim 1, characterized in that the seat (5) is seated on the anchor post (13) fixed to the building structure. Anchoring device according to claim 1, characterized in that the screw (11) is provided with an eye (1) for attaching a carabiner, Anchoring device according to claims 1 and 2 or 3, characterized in that a canopy (7) for fixing the rope (9) to the structure is fitted under the screw (11) on the tube (6). 15 Dec Anchoring device according to claim 1, characterized in that the post (3) has a length of 300 to 600 mm at a diameter of 15 to 22 mm and the deformation zone (4) is defined by a distance of up to 35 mm from the bottom of the tube (6). deformation zones 35 to 45 mm. Anchoring device according to claims 1 and 5, characterized in that the minimum weakening of the deformation zone (4) is 0.9 mm, maximum 1.1 mm. Anchoring device according to claims 1, 3 and 4, characterized in that the column (3), the canopy (7), the tube (6), the seat (5), the bottom (12) , the eye bolt (11) (1) and the rope (9) are made of stainless steel or other noble material.