DE102013013678A1 - curling stone - Google Patents

Abstract

A curling stone (10) is described, at least its running surface (28) consisting of a ceramic material. In a curling stone (10) with a base body (12) and at least one insert body (14) connected to it, the running surface (28) on the insert body (14) is made from the ceramic material. The insert body (14) is connected to the base body (12) with a material fit and / or a form fit and / or a force fit.

Description

Curling is an ice-skating winter sport similar to boules and bocce. Two teams of four players each try to place their curling stones closer to the center of a target circle on the ice than the opposing team. Curling is very popular especially in Canada, Scotland, Scandinavia and Switzerland. Curling is actively played by around two million athletes worldwide and is represented at Olympic Games. Due to the attractiveness of the sport Curling enjoys a very large media presence. Curling is one of the precision sports.

The curling stones have a round ground shape; They usually consist of granite and have a handle.

The underside of the curling stones has a concave shape, so that the actual sliding d. H. Tread of curling stones is formed by an annular surface with a width of about 6 to 12 mm.

As the curling stone slides over the ice, a thin layer of water collects on the surface of the ring. This water layer is larger due to the rotation of the stone around its own vertical axis and due to the caused by the deceleration of the curling stone higher pressure on its front front. As a result, the friction is reduced front, resulting in a curvature of the track.

The curling stone is intentionally set in a slow rotational motion during its delivery, so that it does not run straight, but describes a parabolic trajectory. This makes it possible to play around an opponent's stone. The curvature of the trajectory can be influenced by wiping the web in front of the curling stone with a curling broom. Wiping in front of a curling stone as it moves forward increases the radius of curvature and makes the curling stone run straight. The wiping influences in addition to the curvature and the duration of a curling stone. A wiped curling stone loses less speed and thus lays back a larger railroad track.

In particular, the Scots are convinced that the best quality curling stones are of a certain granite type called "Ailsite". This granite is mined on Ailsa Craig, a small island off the coast of Ayrshire in Scotland. Because of the rarity of Ailsite such curling stones can cost up to 1300 euros. Many curling clubs use lower quality curling stones, which are available from around 500 euros and are made of inferior granite.

The main requirement for the tread of a curling stone with a concave tread is that the water absorption of the granite is as small as possible, otherwise the sliding properties are changed on ice. In addition, the wear on the tread should be as low as possible, since the costs and the logistical effort for regrinding are very high. The grinding costs can be about 500 € / set of curling stones. In-game curling stones must be reground at least once per season.

Modern high-performance curling stones have two individual parts, namely a stone base body and an associated insert body, which determines the running surface of the curling stone. The insert body consists of a higher quality compared to the material for the stone body. The insert body of the known high-performance curling stones usually consists of Garnit, he can only be reground several times. If too much material has been removed, the curling stone is no longer usable or the insert body is cut out of the stone and replaced by a new insert body.

Granite consists of the main constituents feldspar, quartz and mica minerals. Due to this composition with different minerals of different hardness is a slight, but unwanted water absorption unavoidable or always given. The Vickers hardness HV is about 850 GPa (Mohs hardness 6-7). Due to the composition of several minerals with different and also relatively low hardnesses curling stones "wear" during operation, so that a defined cut - as explained above - must be renewed regularly.

• – Kreisrunde Form,
• – Umfang maximal 36'' (91,44 cm),
• – Höhe mindestens 4,5'' (11,43 cm),
• – Gesamtgewicht zwischen 38 Pfund (US) (17,24 kg) und 44 US-Pfund (19,96 kg).

In the Statutes of the World Curling Association (WCU Rules of Curling) the following specification is defined in chapter R2:

• - Circular shape,
• - maximum of 36 '' (91.44 cm),
• - height at least 4.5 '' (11.43 cm),
• - Total weight between 38 pounds (US) (17.24 kg) and 44 US pounds (19.96 kg).

The WCU Rules, however, do not specify the material of which the curling stone should be made and its "design".

The curling stones used so far, due to the material properties through the use of a natural product and the method of manufacture have defects that are problematic for use. Decisive for consistently good sliding properties of the curling stone is a high homogeneity of the raw material used in conjunction with a low wear at consistent wear behavior. This is not ensured with a natural substance, such as granite, with different extraction areas of the granite. Due to different sliding properties within a Curlingstein series, a fair competition is therefore not possible. Most critical is the availability of the world's only granite currently available, which, as has already been stated, is mined on the island of Ailsa Craig off the coast of Ayrshire in Scotland. The deposits are largely exhausted, equivalent replacement material from other localities is not yet known. For this reason, the price of this coveted commodity is very high and it will continue to rise. The consequence of this is that the price of curling stones will continue to rise due to the shortage of raw materials. Of crucial importance is that each sports team requires a set of eight stones with identical characteristics to maintain consistent conditions. If a curling stone is damaged, it must be replaced by an equivalent curling stone. However, this is very difficult with a natural product so that it can not be ruled out that the entire set of eight curling stones will become unusable. In the foreseeable future, therefore, a shortage of suitable curling stones is to be expected.

Attempts to use other materials such as metals or plastics have not been successful, as their property potential deviates too much from the previously used granite.

In view of these circumstances, the invention has for its object to provide a curling stone with which the curling sport can be operated as before, the shortcomings of the known solutions are eliminated by simple means.

This object is achieved in that at least the Gleit- d. H. Tread of the curling stone consists of a wear-resistant technical ceramic.

Preferred embodiments or further developments of the curling stone according to the invention are characterized in the subclaims.

It has surprisingly been found that technical ceramics can solve the problems of known curling stones by preferably an insert body (hereinafter referred to as insert) made of technical ceramics forms the tread of the curling stone. The property potential of technical ceramics is predestined for this application because it makes it possible to realize a curling stone which is both wear-resistant and has good sliding properties. Aluminum oxide for the insert body has proven to be particularly advantageous in terms of sliding properties. In this case, the good tribological properties of the alumina have proven to be particularly advantageous because in this application, the optimal friction and good wear behavior of alumina is of crucial importance.

• • Mittlere bis extrem hohe mechanische Festigkeit (> 100 MPa)
• • Sehr hohe Druckfestigkeit (> 1000 MPa)
• • Hohe Härte (> 12 GPa)
• • Hohe Korrosions- und Verschleißbeständigkeit (Verwendung als Verschleißschutzwerkstuff in Mühlen, Mischern, Dichtungen etc)
• • Gute Gleiteigenschaften
• • Hohe Dichte (> 2,7 g/cm³)
• • Keine Wasseraufnahme
• • Hohe Homogenität der Keramikkörper, da technischer Werkstoff

In addition, Technical Ceramics have the following good mechanical and physical properties:

• • Medium to extremely high mechanical strength (> 100 MPa)
• • Very high pressure resistance (> 1000 MPa)
• • High hardness (> 12 GPa)
• • High corrosion and wear resistance (use as wear protection material in mills, mixers, seals etc)
• • Good sliding properties
• • High density (> 2.7 g / cm ³ )
• • No water absorption
• • High homogeneity of the ceramic body, since technical material

It has been found that these alumina material properties are predestined for use as inserts of curling stones to replace the granite used so far. Due to the high hardness and the good wear behavior, the wear of the sliding surface is extremely low, which solves the corresponding problems. Furthermore, the problem of water absorption in the material aluminum oxide is eliminated in an advantageous manner.

An essential further advantage of technical ceramics for the insert body is its problem-free permanent availability.

It can be seen from the above that technical ceramics is an optimal replacement for the granite used hitherto, with technical ceramics all the existing problems as mentioned above can be solved.

In addition to the use of technical ceramics for the insert body of curling stones, the installation of the insert body is of crucial importance. The know-how of a ceramic-compatible construction in connection with the use of suitable high-performance adhesives is a basic requirement for such a functioning composite system.

The ceramic insert bodies can be produced in a first method step by isostatic pressing, uniaxial pressing, slip casting, injection molding or another ceramic molding technology known per se. In a subsequent second process step, the green parts are processed by green processing to the nominal size. The editing can, however also completely hard ceramic after sintering done.

This is followed by a sintering process adapted to the particular ceramic material used, which can be followed by hard ceramic finishing by grinding, lapping or polishing. In the so-called. Near-net-forming is not necessary.

When installing the ceramic insert into the stone base, d. H. For example, a granite blank, various variants are possible: The insert body can be connected by means of a positive, non-positive, chemical or adhesive connection with the stone granite body.

The invention will be further elucidated on the basis of a few examples, it being understood that the invention is not limited to these examples.

Example 1:

Production of an insert made of AL ₂ O ₃ ceramic, which is, for example, ALOTEC - 92 of the Applicant.

In the first process step, a ceramic body with the dimensions 250 × 250 × 25 mm from ALOTEC 92 is produced uniaxially with a pressing force of 2850 kn and a pressing pressure> 40 MPa on an axial press. The green density achieved is> 2.00 g / cm ³ . The green body is processed in a second process step in a machining center to produce a disk with a diameter of 200 mm and a thickness of 35 mm. The disc is then tapered by a lathe in the central region by 10 mm to obtain the required annular sliding surface. In addition, a 12 mm bore is placed in the middle of the disc. The sintering firing took place at 1600 ° C. in a gas oven under standard sintering conditions (50 h, HZ = 1 h). The ceramic body has the following ceramic properties:
Sintered density: 3.662 g / cm ³
Hardness (HV5): 12.3 GPa
Speed of sound: 9980 m / s
Wear: 0.95 cm ³
Roughnesses: R _A = 1.79, R _Y = 16.24, R _Z = 13.95, R _q = 2.31

Sliding tests of a curling stone with an insert produced in this way have very good results on ice.

Example 2:

Production of an insert made of AL ₂ O ₃ ceramic (ALOTEC - 99).

In the first process step, a ceramic body with dimensions of 220 × 220 × 50 mm from ALOTEC 99 is isostatically pressed at a pressure of 1000 bar. The green density reached is 2.37 g / cm ³ . In a subsequent second step, a biscuit firing takes place at 1100 ° C. in order to stabilize the green body for the further processing steps. The green body is then further processed on the lathe to produce a disc having a diameter of 200 mm and a thickness of 35 mm. The disk is then tapered by 10 mm in the central region by means of the lathe in order to obtain the required annular sliding surface. The sintering firing takes place at 1620 ° C. in a gas furnace under standard sintering conditions (48 h, HZ = 3 h). The ceramic body has the following ceramic properties:
Sintered density: 3.905 g / cm ³
Hardness (HV5): 16.05 GPa
Speed of sound: 10430 m / s
Wear: 0.85 cm ³
Roughnesses: R _A = 0.42, R _Y 3.43, R _Z = 2.59, R _q = 0.52

Sliding tests of a curling stone with a thus prepared insert on ice showed very good results.

Subsequently, grinding tests were carried out on this production pattern. After the grinding process, the following roughness values were obtained:
Roughnesses: R _A = 0.03, R _Y = 2.71, R _Z = 1.2, R _q = 0.09

The sliding properties are still very good. However, the sliding tests on ice show that the discs are "too smooth" for the application. During sliding over the ice, a thin layer of water collects on the annular sliding surface. This thin layer of water is larger due to the rotation of the stone about its vertical axis and the higher pressure caused by the deceleration of the stone at the front of the stone front.

Due to the smooth surface of the ceramic insert body is the desired and required so-called. Curl effect, d. H. the parabolic curve is not given sufficiently.

Example 3 of another preparation and other materials:

• 3.1) The insert body is glued into the basic granite body of the curling stone. For this purpose, an elastic adhesive is used, which has only a low high-temperature strength. As a result, a damaged or worn insert body can be removed from its basic body again by a thermal treatment of the curling stone and replaced,
• 3.2) The insert body is glued into the basic granite body of the curling stone. For this purpose, an adhesive is used, which has only a high temperature resistance, to prevent accidental falling out of the insert body, or
• 3.3) The insert body is combined with a screw, by means of which the handle is fixed to the top of the curling stone. Even with such a design of the latter type a simple, easier and time-saving replacement of the insert body is possible.

In addition to the significantly improved properties of the ceramic sliding surface, these three fastening methods represent a significant advantage of the curling stone according to the invention. Previously, worn defective curling stones had to be elaborately reamed again in order subsequently to be provided with a new granite insert body and thus to be renewed can.

According to the invention rings or discs of ceramic, hollow ceramic body, ceramic tubes, ceramic Hubel, or one-piece curling stones made of ceramic can be used.

The dimensions of the components can of course vary according to the respective wishes and / or requirements in a simple manner.

The curling stones according to the invention can also be made from alternative materials because the granite stocks are becoming increasingly scarce and thus the prices of granite curling stones is getting higher. According to the invention, at least the sliding d. H. Tread of the curling stone made of technical ceramics as a wear-resistant material with the desired sliding properties.

If alternative materials are used, the insert body made of ceramic can be chosen so that the predetermined weight of the curling stones is maintained. For this purpose, it is possible that curling stones according to the invention of the respective material, for example, have a recess or a pocket for an additional weight in order to achieve the required total weight of the curling stone. Likewise, it is possible to provide a recess for an electronic circuit in the curling stone or in its base body.

If the above is always a curling stone, this does not mean that it is a stone material or granite for the main body, but that it may be sufficient to achieve the desired or required properties, such as wear resistance and sliding behavior, if at least the sliding d. H. Running surface of the curling stone according to the invention consists of a suitable ceramic material.

Further details, features and advantages will become apparent from the following description of drawn in a sectional representation embodiments of the curling stone according to the invention.

Show it:

1 schematically a first embodiment of the curling stone,

2 schematically a second embodiment of the curling stone,

3 schematically a third embodiment of the curling stone,

4 schematically a fourth embodiment of the curling stone,

5 schematically a fifth embodiment of the curling stone,

6 schematically a sixth embodiment of the curling stone,

7 a sectional view of an embodiment of the curling stone similar to in 1 schematically illustrated embodiment with two annular insert bodies,

8th a sectional view of a curling stone with an annular insert body which encloses a central body,

9 a sectional view of a curling stone similar to the curling stone according to 8th with an annular insert body with a one-sided enlarged tread,

10 a sectional view of a curling stone with two disc-shaped insert bodies, between which a disc-shaped base body is provided,

11 a sectional view of a curling stone similar to the one in 3 schematically drawn embodiment,

12 a sectional view of a curling stone similar to the one in 4 schematically drawn embodiment,

13 an embodiment of the curling stone with two disc-shaped insert bodies facing away from one another, wherein the base body is formed with a receiving compartment,

14 a sectional view of a curling stone with two disc-shaped insert bodies facing away from each other - similar to the embodiment according to FIG 13 - And with an additional annular ceramic body on the outer peripheral surface of the curling stone.

1 schematically illustrates an embodiment of the curling stone 10 , the one main body 12 For example, granite and an insert body 14 made of ceramic material. The in a recess of the body 12 glued insert body 14 forms the tread of the curling stone 10 whose basic body is simply planar and not drawn with a concave base.

2 shows an embodiment of the curling stone 10 instead of an annular insert body 12 as he is in 1 is drawn, designed as a Hubel ceramic material insert body 14 having.

3 illustrates an embodiment of the curling stone 10 with a basic body 12 and an insert body 14 , The insert body 14 is designed as a disc made of ceramic material, which is in a recess in the body 12 is glued.

4 shows a curling stone 10 , which consists of a total of a ceramic material to accomplish the desired sliding and wear properties.

5 shows an embodiment of the curling stone 10 made of ceramic material and that with an annular insert body 14 and with a bag 16 for a ballast weight and / or for an electronic circuit.

6 illustrates an embodiment of the curling stone 10 with an annular insert body 14 and with a basic body 12 from an alternative material and an outer ring body 18 who is the main body 12 encloses.

7 illustrates in a sectional view an embodiment of the curling stone 10 with a basic body 12 that between its concave bottom 20 and its concave top 22 with a central through hole 24 is trained. The bottom 20 and the top 22 are the same shape, so the curling stone 10 if necessary, turned over and the top 22 as a base 20 of curling stone 10 can be used. The bottom 20 and the top 22 are each with an annular recess 26 educated. In the respective recess 26 is an annular insert body 14 screwed or glued, which has a tread 28 of curling stone 10 certainly.

The main body 12 can be made of natural stone. The natural stone may, for example, be granite. The main body 12 However, it can also be made of metal, glass or wood. Likewise it is possible that the basic body 12 consists of a plastic material and that the insert body 14 in the production of curling stone 10 directly and immediately encapsulated with the plastic material of the body and firmly connected.

8th illustrates in a sectional view an embodiment of the curling stone 10 with a central body 12 and one the main body 12 enclosing annular insert body 14 made of ceramic material, the tread 28 of curling stone 10 certainly.

Same details are in 8th with the same reference numerals as in 7 referred, so that it is unnecessary, in connection with 8th to describe all the details again in detail.

Also in the embodiment according to 8th it is possible, in due course, the concave top 22 as a base 20 of curling stone 10 to use and in this way the operational ie operating time of the curling stone 10 to extend accordingly, ie to double.

9 shows in a sectional view one of 8th similar embodiment of the curling stone 10 , where the central body 12 annular enclosing insert body 14 made of ceramic material with an annular surrounding collar 30 is designed to the tread 28 of curling stone 10 to enlarge.

10 illustrates in a sectional view training of curling stone 10 with a disk-shaped base body 12 , the upper and lower sides each with an insert body 14 is combined of ceramic material, which are each also disc-shaped. The one disc-shaped insert body 14 is with a concave base 20 and the other disc-shaped insert body facing away therefrom 14 is with a conforming, concave top 22 trained so that the curling stone 10 either with its concave bottom 20 or after pivoting 180 ° with its top 22 as a base 20 can be used. The two disc-shaped insert body 14 can with the main body 12 be glued. Likewise, it is possible to use the two disc-shaped insert bodies 14 with the main body 12 - And with a not drawn handle - through the central through hole 24 screw through.

11 shows an embodiment of the curling stone 10 - similar to the one in 3 schematically drawn embodiment - with a body 12 and an insert body 14 made of ceramic material. De insert body 14 is at the bottom 20 of curling stone 10 provided and in a recess 26 of the basic body 12 glued or with the main body 12 and a not shown handle, for example. Through the central through hole 24 screwed through.

12 shows a sectional view of an embodiment of the curling stone 10 - similar to those in 4 is schematically illustrated -, where the entire curling stone 10 consists of a suitable ceramic material.

13 illustrates in a sectional view an embodiment of the curling stone 10 with an annular base body 12 and two opposing insert bodies 14 from a suitable ceramic material. The main body 12 is with a central receiving compartment 32 formed, the top and bottom by the disc-shaped insert body 14 made of ceramic material axially limited and completed. The receiving compartment 32 can be provided for at least one additional weight, for example, in a relatively lightweight body 12 z. B. made of wood or plastic the required total weight of the curling stone 10 to realize. In the receiving compartment 32 For example, at least one electronic circuit o. The like. Be provided.

14 shows a sectional view of an embodiment of the curling stone 10 with a basic body 12 , the lower and upper sides each with a disk-shaped insert body 14 made of ceramic material. The one body 14 forms the concave bottom 20 and the other insert body 14 forms the conformal concave top 22 of curling stone 10 which, if necessary, the bottom 20 and thus the annular tread 28 of curling stone 10 can form. In addition, in this embodiment of the curling stone 10 the main body 12 with an annular ceramic body 34 combined, the outer shell surface 36 of curling stone 10 Are defined.

Same details are in the 1 to 14 each with the same reference numerals, so that it is unnecessary, in conjunction with all figures to describe all the details in detail.

LIST OF REFERENCE NUMBERS

10

curling stone

12

Basic body (from 10 )

14

Insert body (from 12 )

16

Recess / pocket (in 12 )

18

Outer ring body

20

concave underside (from 10 )

22

concave top (from 10 )

24

central through hole (between 20 and 22 )

26

Recess (in 12 For 14 )

28

annular tread (from 10 )

30

Covenant (from 14 For 28 )

32

Receiving compartment (in 10 )

34

Ceramic body (from 10 at 36 )

36

Outer jacket surface (from 10 )

Claims (11)

Curling stone, characterized in that at least its tread ( 28 ) consists of a ceramic material. Curling stone according to claim 1, having a base body ( 12 ) and an associated insert body ( 14 ), characterized in that its tread ( 28 ) on at least one insert body ( 14 ) is formed from the ceramic material, wherein the at least one insert body ( 14 ) with the basic body ( 12 ) is connected materially and / or positively and / or non-positively. Curling stone according to claim 2, characterized in that the at least one insert body ( 14 ) consists of an oxide ceramic material. Curling stone according to claim 3, characterized in that the at least one insert body ( 14 ) consists of an aluminum oxide ceramic. Curling stone according to claim 3, characterized in that the at least one insert body ( 14 ) consists of a mixed ceramic material. Curling stone according to claim 2, characterized in that the basic body ( 12 ) with a recess ( 26 ) for the associated insert body ( 14 ) is trained. Curling stone according to claim 6, characterized in that the insert body ( 14 ) in the associated recess ( 26 ) of the basic body ( 12 ) is attached by means of an adhesive. Curling stone according to claim 6, characterized in that the insert body ( 14 ) in the associated recess ( 26 ) of the basic body ( 12 ) is fastened by means of a screw connection. Curling stone according to claim 8, characterized in that the screw connection at the same time for fixing a curling stone ( 10 ) wegstehende grab handle is provided. Curling stone according to one of the preceding claims, characterized in that the basic body ( 12 ) of natural stone, preferably granite, or of an alternative material such as metal, glass, plastic or wood. Curling stone according to one of the preceding claims, characterized in that the basic body ( 12 ) for weight adjustment at least one receiving compartment ( 32 ) or a pocket and / or at least one storage compartment for at least one electronic circuit.

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