FI20215964A1 - Demolition device for demolition of structures - Google Patents

Abstract

Summary The demolition device for demolishing structures has a body part (101), a support structure (102) fixed relative to the body part for directing first forces towards a first side of the structure to be demolished, a press jaw (103) for directing a second force towards a second side of the structure to be demolished, and a force generating means (104) for causing the press jaws to move relative to the body part. The press jaw is movably supported in relation to the body part so that the press jaw is arranged to perform a linear movement in relation to said body part. This means that no part of the press jaws when pressing the construction with the press jaws needs to move in the direction away from the construction being demolished, which results in there being a non-existent or at least small risk of damaging constructions behind the construction being demolished.

Description

Demolition device for demolishing structures

Field of invention

The invention is generally related to the dismantling of structures. Expressed more precisely, the invention relates to a demolition device, which can be used to dismantle, for example, the shell layer of a layered wall or wall element.

Background of the invention

In many buildings, the shell layer of a wall or wall element consists of a concrete slab, brick cladding, or other materials used in exterior or interior cladding. With the mentioned skin layer, the outer skin of the wall is typically an insulation layer and the actual wall structure on the inside. Buildings based on wall elements like the one described above have been widely built since the 1960s. A large part of these buildings are made of such poor quality that the outer shell and insulation layer of their wall elements are 25-30 years old and in need of renovation. — When renovating the outer shell of prefab buildings, the removal work has traditionally been done with a pick or demolition device, which is based on a torsion arm resting on the wall structure. Removal work done in this way is typically slow, heavy, and noisy and difficult to control and often causes damage to the remaining wall structure. In interior renovations, traditional demolition methods cause — 20 — dust and noise nuisances, which are particularly undesirable or even harmful in demanding

O in renovation sites such as hospitals and residential or office buildings, where 2 stay during the renovation work, as well as in other sites sensitive to adverse effects. = - Finnish utility model publication F13933U shows a demolition device for dismantling the shell layer of a layered 3 25 — wall structure. The demolition device has a frame section, to which = is attached an axle and a support structure to apply the first forces to dismantle

S to the first side of the shell layer. The shaft has a bearing on the press jaw that can be moved with the help of a hydraulic cylinder in order to apply a second force to the other side of the shell layer to be dismantled in order to break and/or cut the shell layer. Said support structure and compression jaw are implemented in such a way that the line of action of said second force is at a distance from each contact surface of the support structure in order to cause local torsional stresses to the shell layer to be dismantled. In publication

The presented F13933U unloading device achieves considerable advantages compared to the traditional methods mentioned above. However, the challenge in the demolition device in question is to realize the compression jaw in such a way that sufficient force is also achieved at the part of the compression jaw that is farthest from the bearing point of the compression jaw, but on the other hand, the back part of the compression jaw should not damage the actual wall structure behind the shell layer when the compression jaw turns in relation to its bearing point.

Summary of the Invention

The object of the invention is a new kind of demolition device, which can be used to demolish, for example, the shell layer of a layered wall or wall element. The demolition device according to the invention has: - a body section, - a support structure fixed in relation to the body section, which has contact surfaces for applying the first forces to the first side of the structure to be dismantled, - at least one compression jaw, which is movably supported in relation to said body section and has a contact surface for applying a second force to the other side of the structure to be dismantled, and

O - at least one power generating means for moving said pressing jaw in relation to said frame section. © - The mentioned pressing jaw is movably supported in relation to the mentioned body part so that,

E that the pressing jaw is arranged to make a linear movement relative to said 3 25 —body section. Since the clamping jaw is arranged to make a linear movement, no = point of the clamping jaw needs to move away from the structure to be disassembled when,

S when the structure in question is compressed with a compression jaw, so the risk of damage to the structures behind the structure to be dismantled is non-existent or at least very minor. In addition, the advantage of linear movement is that the unloading device remains better supported by the structure being dismantled and therefore does not fall easily. The stroke length of the mentioned linear movement can preferably be set or adjusted.

Other advantages of the demolition device according to the invention compared to several traditional methods are: - more precise control of demolition power and area, - higher demolition speed even in varying conditions, - reduction of vibration and/or noise carried along the structures, - non-sparking demolition work, - minimization of dust caused by demolition work, - demolition work cleanliness, because the insulating layer remains on the wall for further processing, and/or - the suitability of the demolition device for versatile installation on small loaders, excavators, and many other devices.

In the unloading device according to the advantageous embodiment of the invention, the compression jaw is — a replaceable component. In this case, a suitable shape and/or size compression jaw can be selected for each material to be unloaded so that the work is as efficient and manageable as possible. The clamping jaw can be attached to the machine part that uses it, for example by means of a bolt attachment. a

N In the demolition device according to an exemplary embodiment of the invention o <Q 20 — the power generation means mentioned above is a hydraulic power generation means, which comprises

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— hydraulic cylinder and piston. The hydraulic power generation device in question can get

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= its driving force from the known hydraulic machinery in itself, which can be a separate and > freely positioned unit or part of a work machine such as a loader, well or

O winch, or pick robot or part of other equipment with which the unloading device can be

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S 25 can be supported and used. In certain situations of using the demolition device and especially when striving for a high demolition speed, the hydraulic machinery using the demolition device is preferably arranged to feed the demolition device with hydraulic fluid flow so that the compression jaw makes a continuous back and forth movement.

Various exemplary embodiments of the invention are characterized by what is presented in the independent patent claims.

The patent claims are open in the sense that they neither require nor exclude the existence of technical characteristics that are not presented in the patent claims.

Brief description of the patterns

Exemplary embodiments of the invention are explained in more detail below, with reference to the attached figures, in which: figure 1a shows the unloading device according to an exemplary embodiment of the invention viewed from the side, figure 1b shows the unloading device in question viewed from below, figure 1c shows the unloading device in question viewed from above, and — Figures 2a and 2b illustrate the operation of the unloading device in question.

Description of exemplary embodiments of the invention

Figures 1a, 1b, and 1c show an exemplary embodiment of the invention

A demolition device according to N, which can be used to demolish, for example, layer or sand

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The skin layer of a wall or wall element with a N wich structure. Figure 1a shows the unloading device in question from the side, Figure 1b shows the unloading device in question from below

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— in front view, and Fig. 1c shows the unloading device in question in a top view.

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= The demolition device has a body section 101, which is connected to a support structure 102, which has contact surfaces 105 and 106 to apply the first forces to the structure to be dismantled

On the other side. The disassembled structure is shown with dashed lines and marked with a reference

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S 25 114 in Figure 1b. The demolition device has a compression jaw 103, which is movably supported in relation to said frame section 101 and which has a contact surface 107 for applying a second force to the other side of the structure to be dismantled. The demolition device has power generation means for moving said compression jaw 103 in relation to said frame section 101. One of the power generation means is marked with the reference 104 in Figure 1a.

In the exemplary demolition device shown in figures 1a-1c, each power generating means comprises a hydraulic cylinder and a piston. In the demolition device according to the second exemplary embodiment of the invention, the power generation means is an electromechanical power generation means, which can comprise, for example, a threaded rod and an electric motor arranged to move it.

Said pressing jaw 103 is arranged to make a linear movement relative to said frame section 101. In the case shown in Figures 1a-1c, the linear movement of the pressing jaw 103 is parallel to the y-axis of the coordinate system 199.

Figures 2a and 2b illustrate the operation of the unloading device in question. In the situation shown in Figure 2a, the shell layer 225 of the wall structure 227 is between the compression jaw 103 of the demolition device and the support structure 102. In the situation shown in Figure 2b, the compression jaw 103 has been pulled to the right and part of the shell layer 225 has been cut or crushed by the impact of the compression jaw 103 and the support structure 102. Since the pressing jaw 103 is arranged to make a linear movement, no part of the pressing jaw 103 needs to move away from the shell layer 225 to be disassembled when the shell layer 225 is compressed with the pressing jaw 103. Thus, the risk of damage to the structure 226 behind the shell layer is non-existent or at least very small.

In the exemplary unloading device shown in Figures 1a-1c, the mentioned support

N kenne 102 comprises two support members that are at a distance from each other. It's about-

N set support members are marked with references 108 and 109 in figure 1b. As can be seen from Figure 1b, the compression jaw 103 is between the relevant support members 108 and 109 when viewing the unloading device from the front in the direction of the linear movement of the compression jaw 103, i.e. in the direction of the y-axis of the coordinate system 199. The compression jaw 103 and the support members 3 108 and 109 are arranged in relation to each other in such a way that the line of action of the force exerted by the compression jaw 103 on the structure 114 to be disassembled is at a distance

O from the contact surfaces of the support members 108 and 109. This causes local torsional stresses in the structure 114 to be dismantled, which contributes to the failure of the structure in question. The above-mentioned line of action of the force is illustrated by the dot-dashed line 117 in figure 1b.

The exemplary demolition device shown in Figures 1a-1c has a protective plate 116, which prevents, for example, rocks or other objects that may be thrown during demolition work from hitting the power generation system of the demolition device, which in the exemplary demolition device shown in Figures 1a-1c is a hydraulic system.

As can be seen from Figure 1a, the contact surface 107 of the compression jaw 103 is at an angle to the contact surfaces of the support structure 102, so that when the unloading device is viewed from the side, the contact surface 107 of the compression jaw 103 and the contact surfaces of the support structure 102 form a sharp angle a, which opens towards the tip of the compression jaw 103, i.e. in the figure 1a down. With this design of the compression jaw 103, a greater local pressure is achieved on the structure to be disassembled than with a design where the contact surface of the compression jaw is parallel to the contact surfaces of the support structure 102.

The compression jaw 103 of the exemplary unloading device shown in Figures 1a-1c has — a cutting section 110, which is arranged to push into the frame part 101 in the hole in order to cut the bar-like objects in the structure to be disassembled, so that the edges of the cutting section and the hole act as cutting blades. The edges of the cutting section in question are marked with reference 111 and, correspondingly, the edges of the hahlo are marked with reference 112 in figure 1b. The rod-like body to be cut, which can be, for example, concrete rebar, is shown with dashed lines and marked with the reference 113 in figure 1b. _ The body section 101 of the exemplary unloading device shown in figures 1a-1c has a lii-

A suspended section for connecting the demolition device to an external device, which can be 2 for example a loader, an excavator, or some other equipment for using the demolition device

To own. The suspension section is marked with reference 115 in Figures 1a and 1c. It is also possible that the unloading device according to another embodiment of the invention is a device 3 that can be supported by hand.

O o = In the unloading device according to an exemplary embodiment of the invention

N mentioned suspension section 115 is movably supported in relation to the frame section, so that the position of the unloading device could change in relation to the external device, e.g.

to the boom of the machine on which the unloading device is suspended. Thanks to the movable support, the demolition device can be placed in an advantageous position in terms of demolition work, even in situations where the adjustment of the position of the equipment using the demolition device has its limitations. Such a situation can be at hand, for example, when the demolition device is attached to the boom of an excavator, the adjustment of the position of which has its limitations.

In the unloading device according to an exemplary embodiment of the invention, the suspension section 115 is rotatably supported in relation to the frame section. In the unloading device according to an exemplary embodiment of the invention, the suspension section 115 is slidably supported in relation to the frame section. — The suspension section 115 of the exemplary unloading device shown in Figures 1a-1c is both rotatably and slidingly supported in relation to the frame section 101. The planar section 118 shown in Figures 1a and 1c can slide relative to the frame section 101 in accordance with the double-headed dashed arrow 121 shown in Figure 1c, i.e. in parallel. with the 199 y-axis of the coordinate system. The suspension section 115 is rotatably attached to the planar section 118 so that the suspension section 115 can rotate around the axle pin 119 according to the double-pointed curved arrow 120 depicted with a dashed line. In this exemplary unloading device, the movement path of the sliding support of the suspension section 115 in relation to the said frame section 101 is parallel to the linear movement of the compression jaw 103. — As is obvious to a professional in the field, the invention and its embodiments are not limited to the exemplary embodiments described above, but the invention and its

N rite forms can be modified within the scope of the independent claim. I invent-

The unloading device according to the above can have, for example, two side-by-side compression jaws. These pressing jaws can be driven in such a way that both move all the time 2 25 — in the same way, or alternately in such a way that while one moves towards the frame section of the pressing device = the other moves away from the frame section. < 2

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Claims (11)

Patent claims: 1. Demolition device for demolishing structures, where the demolition device has: - a frame section (101), - a support structure (102) fixed to the frame section, which has contact surfaces (105, 106) for applying the first forces to the first side of the structure to be demolished, - at least one a compression jaw (103), which is movably supported in relation to said frame section and which has a contact surface (107) for applying a second force to the other side of the structure to be dismantled, and - at least one force generating means (104) for moving said compression jaw in relation to said frame section, characterized in that said pressing jaw is arranged to make a linear movement relative to said frame section. 2. The unloading device according to claim 1, wherein said support structure (102) — comprises two support members (108, 109) that are at a distance from each other, and said compression jaw (103) is between said support members when viewing the unloading device in the direction of movement of the compression jaw. 3. The unloading device according to claim 1 or 2, in which the contact surface (107) of the compression jaw is inclined relative to the contact surfaces (105, 106) of the support structure, so that, N 20 — when viewing the unloading device from the side, the contact surface of the compression jaw and the contact surfaces of the support structure form an angle (a) which opens towards the tip of the clamping jaw. O I 4. Dismantling device according to one of the patent claims 1-3, in which said compression jaw has a cutting section (110) which is arranged to protrude into the hollow of the body section in order to cut the rod-like objects in the structure to be disassembled N 25 — the edges (111) of said cutting section and between the edges (112) of the mentioned hahlo. OF 5. — A unloading device according to one of claims 1-4, where a suspension section (115) is connected to the frame section for connecting the unloading device to an external device. 6. Dismantling device according to claim 5, wherein said suspension section is movably supported in relation to the frame section to enable the position of the dismantling device to change in relation to the external device. 7. Dismantling device according to claim 6, wherein said suspension section is — rotatably supported in relation to the body section. 8. Dismantling device according to claim 6 or /, wherein said suspension section is slidably supported in relation to the frame section. 9. The unloading device according to claim 8, wherein the movement trajectory of the sliding support of the said suspension section in relation to the said frame section is parallel to the linear movement of the said clamping jaw. 10. A demolition device according to one of claims 1-9, wherein the power generation means (104) comprises a hydraulic cylinder and piston. 11. Use of a demolition device according to one of claims 1-10 for demolishing the shell layer of a layered wall or wall element. N O N o <Q O I a a < O o LO N O N