CN101074581B

CN101074581B - Method for fixing thermal isolation material board and the fastening piece

Info

Publication number: CN101074581B
Application number: CN2007101039263A
Authority: CN
Inventors: J·伦兹
Original assignee: Fischerwerke GmbH and Co KG
Current assignee: Fischerwerke GmbH and Co KG
Priority date: 2006-05-15
Filing date: 2007-05-15
Publication date: 2011-03-09
Anticipated expiration: 2027-05-15
Also published as: EP1857607B1; EP1857607A3; DE102006060538A1; EP1857607A2; AT13907U1; DE202007019571U1; RU2007117864A; PL1857607T3; RU2380586C2; ES2473342T3; DK1857607T3; CN101074581A

Abstract

The invention relates to an element for and method of fastening insulation material plate. The fastening unit (1) has a dowel sleeve (4), a spreading unit (5) and a plate (6) rotating in the anchoring process. For providing a simple installation method and an improved fastening unit, the invention penetrates the retainer plate (6) into the insulating material plate (2) when anchoring, and the insulating material plate (2) is sunken along the plate (6) in the process. The fastening unit (1) has a stop unit (15) which makes the retainer plate (6) is penetrated into the insulating material plate (2) defined penetration depth.

Description

The securing member and the method that are used for fixing insulating panels

Technical field

The present invention relates to a kind of securing member and a kind of being used for is fixed on method on the base with insulating panels.

Background technology

The securing member that is used for fixing insulating panels has generally obtained openly, and often is also referred to as the thermal insulation material pin.What they had typically that a guide, one be used to strut this guide struts part and a fixed disk.Described fixed disk can constitute one with described guide, but from open source literature EP 0 644 301 B1 such as also open, described part and the described fixed disk of strutting is set to integrative-structure and is fixedly connected in other words.Especially consider to use as strutting part by plastics or metal bolt, nail or screw.For the described securing member of grappling, pass the boring of this insulating panels in described base making in typical case.Subsequently described securing member is pierced in this boring and and strut described guide by wedging the described part that struts.Meanwhile, described insulating panels is tightened slightly towards base, this insulating panels partly arches upward a bit in the zone of fixed disk thus slightly inwards.Be right after after described insulating panels fixing, spread mortar usually in the above.Especially when spreading thin mortar, there is such problem, promptly will in the zone of described securing member, obtains smooth surface.In addition, when using some securing member, there is the problem that forms so-called " cold bridge ", that is to say that described securing member has played the effect of thermal energy transfer element undesirably.

So just known for a long time, with the fixing described securing member of sinking mode.Such as in EP 0 086 452 B1, proposing, described insulating panels is milled out several millimeters in the zone of described fixed disk, then settle described pin as mentioned above and subsequently thermal insulation material justified base to be put in the counterbore that mills out on the described fixed disk.Described thermal insulation material circle base ends at described insulating panels, thereby can smear mortar to this insulating panels well on the one hand, and has avoided cold bridge on the other hand.

For avoiding carrying out milling, open source literature EP 1 318 250 A2 propose, and described insulating panels annular is cut, and described fixed disk is clamp-oned in this insulating panels targetedly.Also place thermal insulation material circle base subsequently here.Be fixed on the described securing member or the cutter sweep on the special tool carries out this annular cutting in this utilization.Do not rely on the scheme of corresponding proposition at this, always carry out described instrumentation with special tool, this special tool pre-determines the hobbing depth of described securing member in insulating panels by backstop.

Summary of the invention

Task of the present invention is allocation method and a kind of improved securing member that proposes a kind of simplification.

The present invention proposes a kind of being used for insulating panels is fixed on securing member on the base for this reason, wherein said securing member has guide, struts part and fixed disk, wherein, described securing member has stop part, making described fixed disk be absorbed in the described insulating panels and with the hobbing depth of appointment when grappling clamp-ons wherein, it is characterized in that described fixed disk can rotate and can not relatively rotate with the described part that struts with respect to described guide.

In addition, the present invention proposes a kind of being used for and with securing member insulating panels is fixed on method on the base, this securing member has guide, struts part and fixed disk, wherein said fixed disk rotates when grappling, it is characterized in that, described fixed disk when grappling, be squeezed in the described insulating panels and this insulating panels in this process along the peripheral recesses of described fixed disk.

The fact shows surprisingly, act on power on the insulating panels if when grappling, rotate described fixed disk and raising, make described fixed disk be trapped in the described insulating panels, that just is enough to described securing member is placed in the described insulating panels with sinking.In this process, described fixed disk is clamp-oned in the described insulating panels.Rotation by described fixed disk produces crack edge, although this crack edge is not inconsistent with desirable cylindrical shell surface, but a little in the taper mode along the placing direction enlarging.But the crack edge of especially described outside is equivalent to round-shaped to a great extent, and the counterbore that forms in described insulating panels can be sealed with thermal insulation material circle base well.Therefore this point is especially astonishing, because the fact shows that the method that is proposed is suitable for different insulating panels, that is to say not only to be suitable for fibrous material, and is suitable for having the material of porous feature.The method that is proposed thus neither need be on the securing member nor need use cutter sweep on independent instrument.

In addition, for fear of using any special tool, importantly, can not use known backstop to pre-determine hobbing depth to special tool.Therefore the present invention proposes, and described securing member itself has stop part, makes described fixed disk clamp-on in the described insulating panels with the hobbing depth of appointment when grappling.

Preferred described fixed disk can not be connected with the described part that struts with relatively rotating, and struts part with this rotate with respect to described guide when strutting.In addition, in a kind of preferred design scheme, described fixed disk can not move axially with the described part that struts.This just realizes a kind of simple structure.Then the described stop part that is used to pre-determine hobbing depth can be arranged in described fixed disk such as the cylindrical ring as the direction of pointing to described guide.Described securing member be that is to say at the described part that struts be installed in advance in the state in the described guide and be pushed in the described boring in the pre-state of installing, be close to up to described stop part on the lateral surface of described insulating panels.In this state, described guide is not also strutted by the described part that struts.But this struts part and screws in slightly or be fixed in the appointed positions with respect to described guide by means of stop mechanism anti-lostly.By described fixed disk or strut the rotation of part, this is strutted part be screwed in the guide.This produces such effect on the one hand, and promptly described guide is strutted and is fixed in the base thus.On the other hand, described fixed disk moves towards the direction of described insulating panels.In this case, at first described stop part is clamp-oned in the described insulating panels.In case described fixed disk abuts against described insulating panels with its external margin, the pulling force in described securing member inside just rises so.Strut on the part when producing corresponding big torque described, described fixed disk just makes described insulating panels depression.As when using known securing member, the convex shoulder that struts on part or the like is abutted on the corresponding contact surface of guide, the described wedging stroke of part in guide that strut is restricted.This just causes producing the hobbing depth of appointment, thereby does not just need to use special tool.

There have many replacement schemes to be used to form at this to be described by stop part of the present invention.Therefore, described stop part both needn't have been forced to be arranged on the described retainer ring, nor must be configured to ring-type.Replace ring, also can be such as on described fixed disk, arranging single shaped element.Also can arrange element planar or the pin shape on the described radial protrusion ground that struts on the part, described element is at the described part that struts when screwing in or clamp-on in the described insulating panels, or towards the direction bending of described fixed disk, folding or fracture.

Very big leeway is also arranged concerning the structure of described fixed disk equally.On the one hand, this fixed disk needn't have the surface of sealing, but can interrupt many places.On the other hand, though the periphery is preferably circle, this neither be like this.

As the replacement scheme of independent stop part, described fixed disk itself also can be used as such stop part, and method is: it can be arranged with respect to the described part that struts with moving axially.Preferably strut on the part, and the direction of clamp-oning that it is in reverse to described securing member in the grappling process moves on to the described end that struts part always releasably being fixed in its state before grappling." releasably be fixed on and strut on the part " and be meant so fixingly, promptly make described fixed disk in the transportation of securing member, can not move, but only in the grappling process, just unclamp this fixing.This is such as implementing by detent mechanism or parallel off groove.Described securing member in this case and for example this degree ground insert in the described boring, lay until it and put in place, abut in this case or rather described fixed disk on the bottom surface of described insulating panels.The described part that struts is screwed in the guide, described fixed disk is pushed towards insulating panels, unclamp fixing thus and be moved further described fixed disk along strutting part with this.In case no longer can be moved further, because arrived the described end that struts part, that pressure just further improves and described insulating panels caves in again targetedly.

Some base is not suitable for grappling on some position, described guide especially can occur and can not get enough fixing on such base when strutting.In this case, guide may be pulled out from described boring slightly, and this is not enough to settle thermal insulation material circle base with regard to causing the hobbing depth of described fixed disk in insulating panels.In order to be presented at the correct grappling process of implementing in this aspect, the present invention proposes, and described securing member has control element, thus the reaching of the hobbing depth of the appointment as can be seen in thermal insulation material.Preferred this control element is configured to the projection on fixed disk, and this projection is pointed to the direction opposite with the placing direction of described securing member.If this projection ends at the lateral surface of described insulating panels, this just represents to have reached minimum hobbing depth so.As long as this control element is arranged on the circumference of fixed disk of form of described part cylindrical shell surface planarly, that thermal insulation material of just can successfully packing into is justified base.But also can so construct described control element, make it to remove, thereby when the described thermal insulation material of packing into is justified base, not have any interference geometry with hand or with hand-operated tools.

Because this rotation of carrying out with fixed disk is pressed into the torque of having relatively high expectations, so can when settling, on the side of described insulating panels, slider disc be set at that.This slider disc is rotatably supported on the described fixed disk, and is covered with the major part towards the surface of described insulating panels of described fixed disk, but covers peripherally, utilizes described periphery that described crack edge is provided at this.When described fixed disk sank in the insulating panels, the periphery of described fixed disk and slider disc were all laid and are put in place.In the peripheral rotary course of described fixed disk, described slider disc is then static with respect to insulating panels.This slider disc is slided with respect to fixed disk in swivel bearing.Frictional force torque in other words in this appearance is not significantly reduced with a kind of not comparing with the embodiment of slider disc on some thermal insulation material.

Description of drawings

By means of three kinds of embodiment the present invention is made an explanation below.Wherein:

Fig. 1 is two perspective section view of first embodiment;

Fig. 2 is three perspective section view of second embodiment;

Fig. 3 is the perspective section view of first detail section of described second embodiment;

Fig. 4 is the perspective section view of second detail section of described second embodiment;

Fig. 5 is two perspective section view of described embodiment.

The specific embodiment

The state of described securing member 1 before strutting has been shown in the first half of Fig. 1, its state after strutting then has been shown in the latter half.This securing member 1 is used for insulating panels 2 is fixed on base 3.It mainly comprises guide 4, will strut in part 5 these guidees 4 of screw-in in order to carry out grappling.With these guide 4 opposed ends on, fixed disk 6 is connected with the described part 5 that struts.On the principle, strut part 5 and fixed disk 6 can constitute one, describedly under the situation here strut the metal bolts that part 5 is configured to have turret head 7, this struts part 5 and has a Torx-holder 8.In order to be connected with described fixed disk 6 un-rotatably, describedly to strut part 5 dish 6 extruding that can be fixed and seal.In this embodiment, the described part 5 that struts is inserted in the described fixed disk 6, and described turret head 7 is in the hexagonal counterbore 9, and this hexagonal counterbore 9 is used for strutting transmitting torque between part 5 and the fixed disk 6.Lock pawl 10 on the edge of this hexagonal counterbore 9 axially remains in the fixed disk 6 the described part 5 that struts.In addition, described fixed disk 6 has reinforcing rib 11, and these reinforcing ribs 11 extend radially outwardly.The periphery 12 of described fixed disk 6 has a projection 13, and it is outer seamed edge 14 rectangle, that point to the direction of described base 3 that 13 of this projectioies have cross section.A stop part that is configured to cylindrical ring 15 extends towards the direction of described base 3 equally from fixed disk 6 beginnings.The diameter of this annular stop part 15 is roughly half of diameter of fixed disk 6.But also can select littler or bigger diameter for it.This stop part 15 does not need to have complete cylindrical surface, but only need delineate out this face of cylinder in the mode of segmental arc.One begins same direction towards described base 3 with the described extension 16 that struts part 5 encirclements from fixed disk 6 and extends.This extension 16 is engaged among the cover tubular holder 17 with telescoping tube ground form, and this holder 17 integrally prolongs described guide 4.In the supply of material state of the shown described securing member 1 of figure the first half, the described part 5 that struts is fixed in the described guide 4 by the portion that is located by connecting 18 between described extension 16 and holder 17.

For described insulating panels 2 is fixed on the base 3, at first this insulating panels 2 is close on the base 3.This insulating panels 2 can be bonded on the described base 3 for this reason where necessary.Make boring 19 subsequently, this boring 19 is passed described insulating panels 2 and is arrived in the described base 3 always.Shown in figure the first half, described securing member 1 is inserted in this boring 19, be close on the described insulating panels 2 up to described stop part 15.Thus described guide 4 is pushed in the described boring 19 and arrives in the zone of described base 3 always.In addition, by means of spiral tool the described part 5 that struts is wedged in the guide 4 so deeply, until reaching at the grappling state shown in figure the latter half.For this reason, described spiral tool preferably is placed on the Torx-holder 8, and still according to the stability of described securing member 1, it also can be placed on the described hexagonal counterbore 9.In with the described process that struts in the part 5 screw-in guidees 4, described stop part 15 is at first clamp-oned in the described insulating panels 2.In addition, then described protruding 13 and last whole fixed disk 6 be close to outwardly entirely on the described insulating panels 2.This moment, described guide 4 partly strutted, and this guide 4 is fixed in the base 3 thus to a certain extent.If as defined the described part 5 that struts is further wedged in the described guide 4, so described insulating panels 2 is just along described peripheral 12 depressions.Be created in the depression cone 20 shown in figure the latter half at this.With described described guide 4 degree like this of part 5 wedging that strut, on the extension 16 of described fixed disk 6 abuts in stop surface 21 in the holder 17 of described guide 4.Control element 22 shows that to the user described securing member 1 is correctly settled.This control element 22 for this reason as projection arrangements on the periphery 12 of described fixed disk 6 and the described dorsad part 5 that struts.In the correct grappling state shown in figure the latter half, described control element 22 ends in the external surface 23 of described insulating panels 2.Because the structure of its smooth cylindrical sector section, it only occupies very little space in described depression cone 20 inside.Can put into described depression cone 20 with unshowned such as columniform thermal insulation material circle base easily thus.At this, to compare with the periphery 12 of described fixed disk 6, described thermal insulation material circle base can have excessive size slightly.Make it be clamped in the inside of described depression cone 20 easily thus.In this state, no longer can see described securing member 1, and can spread mortar for the external surface 23 of described insulating panels 2 with having no problem.For fixing,, and only need common drill bit and common spiral tool such as battery screwdriver form without any need for special tool.

Has something in common to a great extent at second embodiment shown in Fig. 2 and described first embodiment.Identical member uses identical Reference numeral.Only difference is inquired in addition, remainder is also with reference to above-mentioned explanation.Fig. 2 shows three kinds of grappling states of described second embodiment.

The figure upper part shows the supply of material state of described securing member 1a, and securing member 1a has pushed in the boring 19 in this state.The figure lower part illustrates the grappling state, and the figure mid portion shows the intermediateness in the grappling process.

The main distinction between described second embodiment and first embodiment is that described fixed disk 6a is with respect to described the moving axially property that struts part 5a.For this reason, the described part-structure that struts part 5a is different from the part that struts in first embodiment.Head extension 25 is can not relatively rotate and the axial restraint ways of connecting is connected to described strutting on the part 5a screw rod 24 originally, and opposite with screw rod 24, described head extension 25 is not by metal but is made of plastics.Fig. 3 illustrates the intercepting part of the coupling part of described screw rod 24 and head extension 25.Described screw rod 24 is at its cross section that has the Ω shape of extending transverse to the longitudinal direction of described screw rod 24 on the end of described head extension 25, and this cross section is engaged in the corresponding space 26 of described head extension 25.For installing, described head extension 25 is shifted onto on the screw rod 24 from the side.So determine the size in described space 26, make described head extension 25 be fixed on the described screw rod 24 with clamping.In addition, in Fig. 3, can also be clear that holder 17 and the described portion that is located by connecting 18 that struts between the part 5a at described guide 4.This portion 18 that is located by connecting is structurally with identical in the portion that is located by connecting 18 between the extension 16 of described fixed disk 6 and the described holder 17 that struts part 5 shown in described first embodiment.It is combined by annular protrusion 27 and cannelure 28, and described annular protrusion 27 just is engaged in this cannelure 28.So determine the size of described annular protrusion 27 and cannelure 28, make it under the effect of predetermined power, unclamp the fixing of the described portion 18 that is located by connecting.

Described head extension 25 with described screw rod 24 opposed ends on have Torx holder 8, this head extension 25 is used to drive the described part 5a that struts on the one hand.It also is used for described fixed disk 6a is axially guided on the other hand.As what find out in Fig. 4, described head extension 25 has the rib strip shaped sliver 29 of longitudinal extension for this reason, and these slivers 29 are engaged in the guide space 30 of described fixed disk 6a.In supply of material state shown in Figure 4, described fixed disk 6a at first can not be connected with described head extension 25 with its second portion 31 that is located by connecting with moving axially.This second portion 31 that is located by connecting also can unclamp by corresponding axial force.Described head extension 25 on itself and described screw rod 24 opposed ends, have one around convex shoulder 33, described fixed disk 6a moves axially the restriction that stroke is subjected to this convex shoulder 33 on head extension 25.

Described securing member 1a as shown in the figure upper part push in the described boring 19 after, the described part 5a that struts wedges described strutting in the sleeve 4 again rotationally.Because described fixed disk 6a is close on the external surface 23 of described insulating panels 2, so just produced axial force, described axial force causes two

portions

18 and 31 that are located by connecting to be unclamped.Further wedge in the process in the guide 4 at the described part 5a that struts, described fixed disk 6a moves along described head extension 25.Because the guiding in described sliver 29 is together rotated at fixed disk 6a described in this process.This fixed disk moves along described head extension 25 always, arrives the opposed end in described screw rod 24 of described head extension 25 and arrives described convex shoulder 33 places thus until it.Because can't be moved further now, thus just improved pressure on the external surface 23 that acts on base 2, up to this base 2 as about the described depression of first embodiment.The bottom surface 32 towards base 3 of described fixed disk 6a thus serves as the stop part that is used for described securing member 1a.About the end of described grappling and putting into of thermal insulation material circle base, please refer to the explanation of being done about first embodiment.In this second embodiment, also can arrange control element equally.

The 3rd embodiment shown in Figure 5 has the structure identical with first embodiment to a great extent.Therefore, for avoiding repetition, please refer to the application of top explanation and identical Reference numeral.

The difference of described the 3rd embodiment and first embodiment is, arranged slider disc 34 at described fixed disk 6 on the side of described insulating panels 2.This slider disc 34 is annular, and its inside with the edge of outside on respectively at flange shape supporting place 35 rotating supports on fixed disk 6.

When being close to described fixed disk 6 and slider disc 34 on the insulating panels 2, describedly at first being braked, and stopping because of friction at last as the slider disc 34 of fixed disk 6 rotations.Then it slides in supporting place 35 rotatably with respect to described fixed disk 6.Mainly using mineral wool to compare the needed torque of obvious minimizing with first embodiment under as the situation of thermal insulation material thus.In described second embodiment, also such slider disc can be set equally.

Claims

1. be used for insulating panels (2) is fixed on securing member on the base (3) (1,1a), wherein said securing member (1,1a) has guide (4), struts part (5,5a) and fixed disk (6,6a), wherein, described securing member (1,1a) has stop part (15,32), make described fixed disk (6,6a) when grappling, be absorbed in the described insulating panels (2) and and clamp-oning wherein with the hobbing depth of appointment, it is characterized in that described fixed disk (6,6a) can rotate and can not relatively rotate with the described part (5,5a) that struts with respect to described guide (4).

2. by the described securing member of claim 1, it is characterized in that described fixed disk (6) can not move axially with respect to the described part (5) that struts.

3. by the described securing member of claim 2, it is characterized in that described stop part (15) is arranged on the described fixed disk (6).

4. by the described securing member of claim 3, it is characterized in that described stop part (15) is the cylindrical ring on the described fixed disk (6).

5. by the described securing member of claim 1, it is characterized in that described fixed disk (6a) can move axially with respect to the described part (5a) that struts.

6. by the described securing member of claim 5, it is characterized in that, releasably be fixed on described strutting on the part (5a) in the state of described fixed disk (6a) before grappling.

7. by the described securing member of claim 1, it is characterized in that described securing member (1) has control element (22), thereby may be displayed on the situation that reaches of the hobbing depth of the appointment in the described thermal insulation material.

8. by the described securing member of claim 7, it is characterized in that described fixed disk (6) has projection as control element (22), this projection is pointed to the opposite direction of placing direction with described securing member (1).

9. by the described securing member of claim 8, it is characterized in that described control element (22) is planar and outer placing that be arranged in described fixed disk (6).

10. by the described securing member of claim 8, it is characterized in that the available hand of described control element (22) or take off from described securing member (1) with hand-operated tools.

11. by the described securing member of claim 1, it is characterized in that, go up the slider disc (34) of arranging rotatably support at described fixed disk (6).

12. be used for insulating panels (2) being fixed on method on the base (3) with securing member (1,1a), this securing member (1,1a) has guide (4), struts part (5,5a) and fixed disk (6,6a), wherein said fixed disk (6,6a) rotates when grappling, it is characterized in that, described fixed disk (6,6a) when grappling, be squeezed in the described insulating panels (2) and this insulating panels (2) in this process along periphery (12) depression of described fixed disk (6,6a).

13. by the described method of claim 12, it is characterized in that, be squeezed in the described insulating panels (2) with predetermined hobbing depth.

14., it is characterized in that described hobbing depth is pre-determined by described securing member (1,1a) by the described method of claim 12.

15., it is characterized in that at the described securing member of grappling (1,1a) afterwards, the described counterbore that forms because of this grappling is justified base with thermal insulation material and sealed by the described method of claim 12 in insulating panels (2).