PL216773B1 - Composite belt for reinforcement of construction elements and the device for stretching of the composite belt prior to sticking it to flat surface of a building element - Google Patents

Description

Description of the invention

The subject of the invention is a composite belt for reinforcing building elements and a device for tensioning the composite belt before sticking it to a flat surface of a building element in a concrete, reinforced concrete, brick, stone, wooden or metal structure.

The technology of strengthening existing building structures is known, consisting in gluing pre-tensioned composite strips, which are used as additional external reinforcement to transfer loads. The composite belt is a tape which is a carbon fiber reinforced polymer composite with unidirectional orientation along the major axis. The tape has mechanical properties required to strengthen concrete, reinforced concrete, brick, stone, wooden or metal structures. The belt is tensioned by applying tensile forces to its ends with the use of clamping blocks or steel fittings into which the ends of the belt are glued. The disadvantage of using clamping blocks is the lack of proper control of the clamping force or the creation of an uneven distribution of stresses in the belt, which may lead to its sliding out or delamination. One of the solutions of clamping blocks is presented in the patent description EP 1507051. Belts with fittings have a strictly defined working length, the operation of fixing the fittings requires special equipment, especially when reinforcing highly responsible elements ensuring full use of the tensile strength of the belt. Known solutions of composite belt fittings are presented, inter alia, in WO 99/28575 and WO 99/10613. The fittings are in the form of rectangular plates with a width slightly greater than the width of the strip and in which through holes are made for anchors securing the tensioned belt to the construction element. Known belts with clamping blocks as well as belts with belt ends glued to steel fittings are adapted to engage the tensile force in the belt axis. However, such a solution requires the creation of a recess in the reinforced element in the area of the block or the active fitting, which allows the tape to be positioned in height directly above the surface of the building element, with a gap with a thickness of the strength-effective adhesive layer. After anchoring the passive fitting, the belt tensioning is performed by acting on the active fitting by a linear actuator, preferably a hydraulic one. In the known solutions of the devices for tensioning the composite belt, the actuator is fixed between the stop block anchored to the building element and the active belt fitting. The tensile force is applied symmetrically on both sides in the plane of the composite belt - as for example shown by the solution according to EP 1507051. The disadvantage of this solution is the necessity to make a cavity, which can lead to a significant weakening of the structure to be reinforced.

The object of the invention is to eliminate the drawbacks and disadvantages of the above-described solutions for reinforcing building elements by using tension composite strips.

The essence of the invention consists in the fact that the lower surface of the tape is distant from the plane of the lower surfaces of the fittings to a size not greater than three tape thicknesses, the active fitting behind the tape sticking zone has a mounting zone for a movable hook with threaded holes and, further behind it, an anchoring zone with holes. cruising. The passive hardware behind the tape bonding zone has only an anchoring zone with through holes. The use of an active fitting with such a structure enables the belt to be tensioned, fixed and glued without the necessity to make a recess in the surface of the reinforced element. The recess damages the cover of the existing reinforcement in the reinforced concrete element, and weakens the elements made of concrete, brick and wood. The belt is adapted to tension without the need to make a recess and enables the reinforcement of metal elements. The tensile force of the belt according to the invention is applied non-axially, a short distance above the upper surface of the active fitting.

It is advantageous if the tape is additionally fixed in the bonding zone in the ferrule with rivets arranged along the zone so that the rivet axes are offset from each other in the cross-sections of adjacent rows.

It is also advantageous if the active and passive hardware is made of three flat bars: upper, middle and lower, connected with each other by a circumferential weld made in the anchoring zone and the fastening zone of the movable hitch. The middle flat bar has a thickness equal to the thickness of the tape plus two thicknesses of the adhesive layer.

PL 216 773 B1

The essence of the invention relating to the tensioning device for the above-described composite belt consists in the fact that the device has two side guides of the active fitting, fastened with anchors to the building element and connected transversely with a fixed catch, a movable catch screwed to the active fitting, and a spreader, preferably hydraulic. The expander of the device is an independent unit, with a scissor structure with two arms connected at the upper ends by a joint. In the lower zone, the arms are opened with a hydraulic actuator, and at their lower ends, they are equipped with cylindrical working ends, which are periodically inserted between a fixed hitch and a movable hitch. The side guides absorb the transverse force components that balance the moment resulting from the non-axial application of the movable belt tension force to the fastener.

Preferably, the actuator is attached to the arms by two joints, one of which is mounted on the end of the piston rod and the other on the front cylinder head.

The invention is explained by the description of exemplary embodiments of the belt and the tensioning device shown in the drawings. Fig. 1 of the drawings shows a top view of the active fitting, Fig. 2 - a cross section according to the line AA marked in Fig. 1, Fig. 3 an enlargement of the section detail "S" from Fig. 2, Fig. 4, functional diagram of the belt tensioning device, Fig. 5 and 6 connection diagrams of the movable and fixed hitch respectively according to lines BB and CC, fig. 7 perspective view of the device, fig. 8 top view of the device with a hydraulic expander inserted between the catches, fig. 9 longitudinal section according to the line DD fig. 8, fig. A top view of the guide, while Figures 11 and 12 show perspective views of the cylinder arms and the piston rod.

The belt has a belt 1 made of carbon fibers arranged unidirectionally along the axis, embedded in a polymer matrix. The ends of the tape 1 are glued to the steel fittings: one passive 2 and the other active 3 in the form of rectangular plates with a width greater than the width of the tape 1. The fittings plates 2 and 3 are made of three steel flat bars: upper 4, middle 5 and lower 6 - connected with each other on a part of the perimeter by the weld 7. The lower flat bar 6 has a thickness equal to twice the thickness g of the strip 1, which in the present exemplary embodiment is g = 2 mm and h = 4 mm. The middle flat bar 5 is shorter than the upper 4 and the lower 6 by the length of the gluing zone of the tape I. The thickness of the middle flat bar 5 is equal to the thickness g of the tape 1 plus two thicknesses of the adhesive layer. On the active fitting 3, behind the bonding zone of the tape I, there are: fastening zone of the movable hitch II with threaded holes 9 and further behind it, anchoring zone III with through holes 10. The circumferential weld 7 is made on a common perimeter, in the area of fastening zones of the movable hitch Il and anchoring zones III. The passive fitting 2 differs from the active fitting 3 only in its length, it is shorter by the length of the fastening zone of the movable catch II, behind the tape gluing zone I it has only the anchoring zone III. The fastening of the tape 1 in the gluing zone I in the fittings 2 and 3 is additionally reinforced with a rivet joint 8, the rivets of which 8 are arranged along the gluing zone of the tape I with a relative shift of the axes in the cross-sections in adjacent rows. In the fastening zone of the movable hitch II on the active fitting 3, the axes of threaded holes 9 shifted by a half scale t / 2 in adjacent transverse rows.

The device for tensioning the above-described composite belt has elements forming catches for the tensile force applied by the hydraulic expander R. The construction of the catches includes two side guides 11 attached to the construction element 25 by guide anchors 24. The side guides 11 are transversely connected by a bridge 12 with a fixed catch 13. The movable catch 14 is screwed with screws 23 to the active belt fitting 3. The hydraulic expander R is an independent unit of a scissor structure, with two arms 15 and 16 connected at the upper ends by the articulation of the arms 17. In the lower zone, the arms 15 and 16 are opened by a hydraulic cylinder 18, which is attached to the cylinder arm 16 by a joint 19 located on the front cylinder head and the second joint 19 to the piston rod arm 15. The lower ends of the arms 15 and 16 are provided with cylindrical working ends 20, which are periodically inserted between the fixed catch 13 and the movable catch 14.

The technology of strengthening a building element with the use of a belt and with the device according to the invention consists in the following steps:

- determination of the route of the existing reinforcement in the reinforced reinforced concrete element using a device for location of the reinforcement,

- marking out according to a template and drilling holes for the anchors of the hardware 21 in the place where the passive fitting 2 is attached. In the concrete, stone or brick element, these are holes for the fixed

There are two threaded sockets, holes for wood screws in the wooden element 25, and threaded holes in the metal element 25,

- screwing to element 25 of passive hardware 2,

- screwing the tracing template to the active fitting 3 and, after unrolling the belt, marking and drilling holes for anchors 24 fastening guides 11,

- mounting the guides 11 with 24 anchors,

- inserting the active hardware 3 into the guides 11,

- screwing the fixed hitch 13 to the guides 11 with screws 22,

- screwing with screws 23 of the movable hitch 14 to the active hardware 3 through holes 9,

- insertion of working ends 20 of the hydraulic expander R between the fixed 13 and mobile 14 hitch,

- belt tension with the required tensile force by supplying the actuator 18 with oil of an appropriate pressure,

- marking on the element 25 the position of the through holes 10 of the active fitting 3 in the state of the tensioned belt,

- when the belt is under tension, checking the entire length of the belt 1, its distance from the surface of the element 25, in places where this dimension is greater than 10 mm, supplementing the substrate with adhesive mortar or grinding excess concrete,

- releasing the tension and removing the hydraulic expander R, unscrewing the movable hitch 14 and removing the active fitting 3 from the guides 11,

- unscrewing the passive hardware 2 and applying glue to the tape 1 and to the contact surface of the element 25,

- moving from the position for applying belt glue, screwing the passive fitting 2, inserting the active fitting 3 into the guides 11, screwing the movable catch 14 to the active fitting 3,

- inserting the working ends 20 of the hydraulic expander R between the fixed 13 and movable 14, and tensioning the belt with the desired tensile force,

- screwing the active hardware 3 with anchors 21 to the building element 25,

- tension release and removal of the hydraulic expander R.

List of symbols in the drawing

1st tape

2. passive fitting

3. active fitting

4. upper flat bar

5. central flat bar

6. lower flat bar

7. circumferential weld

8. rivet

9.tapped hole

10th through hole

I. tape pasting zone

11. zone for fastening the movable hitch

III. anchoring zone h. tape offset g. tape thickness

t. pitch of threaded holes

II. side guide

12th sternum

13. fixed catch

14. movable hitch

R. hydraulic expander

15. piston rod arm

16. cylinder arm

17. arm joint

18.hydraulic cylinder

19. joint of the actuator

PL 216 773 B1

20th handpiece

21. hardware anchor

22.screw (permanent hitch)

23.screw (of the movable hitch)

24. guide anchor

25th building element.

Claims (5)

Patent claims 1. A composite belt for reinforcing construction elements, having a tape made of unidirectional fibers arranged along its axis, especially carbon, embedded in a polymer binding matrix, the ends of which are glued to the passive and active steel fittings, in the form of rectangular plates with a width greater than the width of the tape and in which through holes are made for the anchors for fastening the tensioned belt to the construction element, characterized in that the lower surface of the belt (1) is spaced from the plane of the lower surfaces of the fittings (2, 3) by a dimension (h) not greater than three thickness of the belt ( 1), while the active fitting (3) has a fastening zone for the movable hitch (II) with threaded holes (9) behind the tape sticking zone (I) and then an anchoring zone (III) with through holes (10) behind it. 2. The belt according to claim A method according to claim 1, characterized in that the tape (1) in the bonding zone (I) of the ferrule (2, 3) is additionally fastened with rivets (8) arranged along the tape sticking zone (I) so that their axes are shifted relative to each other. in cross sections of adjacent rows. 3. The belt according to claim 1, characterized in that the active fitting (3) is made of three flat bars: upper (4), middle (5) and lower (6), connected with each other by a circumferential weld (7) in the area of the anchoring zone (III) and the fastening zone movable hook (II), the central flat bar (5) having a thickness equal to the thickness of the tape (g) increased by two thicknesses of the adhesive layer. 4. Device for stretching the composite belt before sticking to the flat surface of the construction element, having a hydraulic expander acting on the fitting active in the direction of belt tensioning, characterized in that it consists of two side guides (11) of the active fitting (3), fastened with guide anchors ( 24) to the construction element (25) and transversely connected with a bridge (12) with a fixed hitch (13), and from a movable hitch (14) screwed with screws (23) to the active hardware (3), while the hydraulic expander (R) is an independent unit having a scissor structure with two arms (15, 16) connected at the upper ends with the articulation of arms (17), in the lower zone opened by a hydraulic actuator (18), and at the lower ends of the arms (15, 16) provided with cylindrical endings (20), which are periodically inserted between the fixed catch (13) and the movable catch (14). 5. The device according to claim 1 The method of claim 4, characterized in that the actuator (18) is attached to the arms (15, 16) by two joints (19), one of which is mounted on the end of the piston rod and the other on the front cylinder head.