DE102004016753B4 - Device and method for removing a cork from a bottle neck - Google Patents

Abstract

Corkscrew for removing a cork from a bottle neck due to the screwing of a high-helix lead screw (17) into a cork with a housing (1) in which two coupling mechanisms (A and B) are arranged, a spring (18) between a worktop ( 13) and a shoulder in the housing (1) in the upper part (A) of the housing (1) is arranged coaxially to the high-helix lead screw (17), whereby as a result of downward axial pressure on the high-lead lead screw (17) and at the same time forced rotation about it Axis with the help of a lever mechanism (7,8, 9, 10,11), which is connected to the worktop (13), the high-helix lead screw (17) retracts downwards into the cork when a lever rod (7) is actuated, marked by a screw nut (21) in the lower part (B) of the housing (1), the lower surface of which is equipped with short sharp spikes which penetrate into the upward surface of the cork.

Description

The invention relates to a device and a method for removing a cork from a bottle neck, in particular a corkscrew, which allows and facilitates the process of removing the cork from the corkscrew device.

Such devices are known in the prior art.
Among these facilities, there is a group that uses the pressure in the bottle to force the corks out.
There is also a group that is equipped with screws. Such a corkscrew is placed on the corresponding end of the round body, for example on the bottle head, and then the screw is screwed into the cork and the cork is removed from the bottle.
Among these devices, there are a variety of combinations of corkscrews suitable for removing different corks.
From the subsequently published German patent application DE103 02 097 A1 a corkscrew has become known that can remove the cork from the bottle neck at the same time as the screw rotation of a high-helix screw. This corkscrew has a housing with a high-helix lead screw which is preloaded in the axial direction by a spring, which is generated when the high-helix lead screw is screwed into the cork and thus facilitates the removal of the cork from the bottle neck.

Other such corkscrews are, for example, from the DE 0003118103A1 , DE 29703047 U1 and the EP 0220850 A2 become known in the prior art.

These devices, when combined into a single device, can only operate in two separate removal processes, i. H. first the top capsule of a cover is cut off and then the cork is removed.

The DE 39 27 261 A1 discloses a corkscrew that includes an elastic guide cap with cutting means at its end to cut the top portion of the cap covering the top of the bottle by pushing the corkscrew downward and rotating the entire corkscrew.

This solution has the disadvantage that the operator has to hold the bottle with one hand when pulling the cork out of the bottle neck and then pulls out the corkscrew and cork with the other hand in order to subsequently unscrew the cork from the steep thread.

Starting from the above-mentioned prior art, the invention has for its object to provide a corkscrew for removing a cork from a bottle neck, which is able to remove the cork from the high-helix spindle after it has been pulled out of the bottle neck.

This object is achieved with the features of the main claims.

According to the invention, the corkscrew for removing a cork from a bottle neck of a bottle due to the screwing of a high-helix spindle into a cork with a housing in which two coupling mechanisms A and B are arranged, with a spring between a worktop and a shoulder in the housing in the upper part A of the housing is arranged coaxially to the high-helix lead screw, whereby as a result of downward axial pressure on the high-lead lead screw and simultaneously forced rotation about its axis with the aid of a lever mechanism which is connected to the worktop, the high-helix lead screw in the cork when a lever rod is actuated downwards moves in, characterized by a screw nut in the lower part B of the housing, the lower surface of which is equipped with short sharp spikes which penetrate into the upward-facing surface of the cork.

It is advantageous that the housing contains the high-helix lead screw, the lever rod, two coupling mechanisms A and B and the device for placing the corkscrew on the bottle neck and cutting off the film, the lever rod being connected to the worktop by means of an eccentric which is made of the rod and the drive rod.

Another advantage is that the projection of the lever rod and the rod onto the surface that is perpendicular to the axis and includes an angle of 100 ° to 130 ° and is firmly connected to the axis.

It is also advantageous that the screw nut is elongated and that its lower part is in the space for the pulled-out cork and that its lower surface is in contact with the upper surface of the cork after it has been removed.

The method according to the invention for removing a cork from the bottle neck of a bottle, wherein as a result of the screwing of a high-speed screw of the corkscrew according to claim 1 into a cork by means of a housing with two coupling mechanisms, the upper part A and lower part B and as a result of the downward axial pressure on the high-helix lead screw with its simultaneous forced rotation about its axis and extraction of the lead screw together with the cork from the bottle neck due to the upward axial pressure without rotation, is characterized in that the corkscrew has an additional possibility to remove the cork from the lead screw and the extraction of the lead screw together with the cork and the separation of the cork from the high-helix lead screw is consequently carried out as a result of the manual action on the lever rod without changing the direction of action.

It is advantageous that the downward axial pressure on the high-helix lead screw is caused to penetrate the high-helix lead screw of the corkscrew into a cork by rotating the rod through a certain angle of 110 ° -130 ° to 270 ° -300 °.

It is also advantageous with this method that the extraction of the high-helix spindle together with the cork and the separation of the cork from the high-helix spindle are effected by rotating the rod through a certain angle of 180 ° to 270 ° - 280 °.

It is also advantageous that the separation of the cork from the high-helix lead screw causes the rotational movement of the cork on the high-helix lead screw as the upward movement of the high-speed lead screw increases.

The stated purpose of the invention is also that the operator manually rotates the lever rod of the device from 0 ° to 80 ° for the screwing of the high-helix spindle into the cork, the extraction of the cork from the bottle neck and the removal of the cork from the high-helix spindle -200 ° turned. When the lever rod is turned from 0 ° to 40 ° -80 °, the high-helix lead screw turns into the cork. When the lever bar is turned from 40 ° -80 ° up to 180 ° -200 °, the cork is extracted from the bottle neck and the cork pulled out is removed from the high-helix spindle. After turning the lever bar to 180 ° -200 ° and performing the above-mentioned operations, the compressed spring is returned to its original position.

• Die Anwendung der Vorrichtung erhöht die Stabilität des Systems Flasche - Korkenzieher erheblich bei der Extraktion des Korkes.
• Im Laufe der Extraktion des Korkes empfindet der Operator ständig die Kraft der Festigkeit der Korkenbewegung und vergleicht unbewusst die eigenen Kräfte und die Kraft der Festigkeit. Dieser Umstand schließt die Wahrscheinlichkeit in bedeutendem Ausmaß aus, dass die Anwendungen der überschüssigen Kraft bei der Extraktion des Korkens und damit also auch wesentlich die Wahrscheinlichkeit der heftigen Abtrennung des Korkens vom Flaschenhals verringert.
• Ferner ist die Abtrennung des herausgezogenen Korkes von der Steilgewindespindel ein untrennbarer Bestandteil des Prozesses der Extraktion des Korkes aus der Flasche. Diese Operation verwirklicht sich bei der Wendung der Hebelstange der Vorrichtung bis zu 180°-200°.

The following advantages are achieved with the device according to the invention:

• The use of the device increases the stability of the bottle-corkscrew system considerably during the extraction of the cork.
• During the extraction of the cork, the operator constantly feels the strength of the strength of the cork movement and unconsciously compares his own strength and the strength of the strength. This fact significantly precludes the likelihood that the use of excess force in the extraction of the cork, and thus also significantly reduces the likelihood of violent separation of the cork from the bottle neck.
• Furthermore, the separation of the pulled cork from the high-helix lead screw is an inseparable part of the process of extracting the cork from the bottle. This operation is carried out when turning the lever bar of the device up to 180 ° -200 °.

• 1A einen längsläufigen Schnitt des Korkenziehers bei Wendung der Hebelstange der Vorrichtung innerhalb von 0° bis zu 40°-80°;
• 1B einen längsläufigen Schnitt des Korkenziehers bei Wendung der Hebelstange der Vorrichtung innerhalb von 40°-80° bis zu 100°-140°;
• 1C einen längsläufigen Schnitt des Korkenziehers bei Wendung der Hebelstange der Vorrichtung innerhalb von 100°-140° bis zu 160°-200°;
• 2 einen senkrechten Schnitt des Korkenziehers entlang der Mittelachse.

The invention is explained in more detail below with reference to drawings. It shows the

• 1A a longitudinal section of the corkscrew when turning the lever rod of the device within 0 ° to 40 ° -80 °;
• 1B a longitudinal section of the corkscrew when turning the lever rod of the device within 40 ° -80 ° up to 100 ° -140 °;
• 1C a longitudinal section of the corkscrew when turning the lever rod of the device within 100 ° -140 ° up to 160 ° -200 °;
• 2nd a vertical section of the corkscrew along the central axis.

The 1A shows a longitudinal section of the corkscrew when turning a lever rod of the device within 0 ° to 40 ° to 80 °. The corkscrew consists of the housing 1 that the wide top 2nd and the narrow lower part 3rd which is placed directly on the bottle neck when extracting the cork. The device is with the booklet 4th provided. With the help of the booklet 4th the operator receives the device in connection with the bottle ( 1 ). In the holes 5 of the housing 1 is the axis 6 ( 2nd ), along with to her off the shelf 9 and the socket 8th are fixed hard. The pole 9 ( 1 ) is with the lever rod 7 bonded hard at an angle of 110 ° -130 °. The connecting rod 10th with the pole 9 by means of the joint 11 connected is. The second end of the connecting rod 10th with the joint 12th that is on the top side of the countertop 13 fixed, connected. This plate with the eccentric, from the details 7 , 9 , 10th , 11 and 12th exists, with the possibility of progressive movement up and down under the action of the force on the lever rod 7 are arranged. On the lower surface of the countertop 13 are the housings 14 fixed within (within the room 15 ) the clutch mechanism A, consisting of the head 16 the high-helix lead screw 17th and the housing 14 is set up. The inner lower surface of the case 14 is done as the projections, and the external lower surface of the head 16 is made with the savings as the Possibility of the protrusions entering corresponding savings in the outermost lower layer of the head 16 inside of the housings 14 provided.

Between the outer side surface of the housing 14 and inner side surfaces of the housing 1 there is a saving in the end of the technological feather 18th is set up. Its upper end rests on the lower surface of the worktop 13 . The lower end of the technological feather 18th pushes itself into the bottom of the wide part of the housing 1 . In the narrow lower part of the housing 1 there are two compartment walls, upper 19 and lower 20. Within the space limited by these of two compartment walls is the clutch mechanism B, which consists of the elongated nut 21 , which has the shape of the truncated cone, with the top set up. This cone is supplied with the continuous vertical threaded core hole. In relation to the threaded core hole, the screw nut 21 and their head are arranged symmetrically. The inner surface of the threaded core hole of the extended nut 21 is supplied with the thread that corresponds to the thread of the high-helix spindle. The threaded core hole has the head. The height of the space between two department walls 19th and 20 is a little more than the height of the head of the nut 21 that creates the possibility of moving the head 21 within the space between the department walls 19th and 20 in the vertical direction up and down. The top surface of the department wall 20 is done as the tabs. The lower surface of the head of the elongated nut 21 is done as savings. Savings with possibility of entry of protrusions in the corresponding savings at the outermost lower layer of the head of the nut 21 inside of the room by the department walls 19th and 20 educated, done. The bottom surface of the extended nut 21 is with the short sharp thorns 22 provided. The lower part of the narrowing of the body 1 is with the saving formed between with two narrow plates 24th and 25th supplied as two semicircles. The outer edges of these panels are pointed.

• Vor der Extraktion des Korkens der Operateur stellt das Vorrichtung auf den Flaschenhals auf solche Weise auf, dass der Achsbund des Flaschenhals in zwischen den Platten 24 und 25 gekommen hätte. Falls der Flaschenhals von der Folie abgedeckt ist, umdrehet man die Vorrichtung auf dem Flaschenhals auf 180°, dabei wird sich die Folie durchgeschnitten mit den scharfen Ränder der Platten 24 und 25 erweisen. Dabei hält der Operateur die Vorrichtung für das Heft 4. Haltend eine Hand die Vorrichtung auf dem Flaschenhals, nimmt der Operateur von der zweiten Hand die Hebelstange 7 und in der Richtung, die auf den 1 gezeigt auf 180°-200° umdrehet ihm. Nach der Teildrehung der Hebelstange 7 auf etwa 120°-130° kann man die Vorrichtung von dem Flaschenhals abnehmen und weiter die Hebelstange 7 fortsetzen zu drehen bis das Ende. Dabei der Korken ausfallt von dem Korkenzieher. Danach entlässt der Operateur die Hebelstange 7 und unter der Einwirkung der Kraft der technologischen Feder 18 in den Ausgangszustand sie zurückkehrt. Danach ist die Vorrichtung zur Extraktion des folgenden Korkens fertig ist. Bei der Wendung der Hebelstange 7 vom Ausgangszustand, von 0° bis zu 40°-80° (die Wendung der Stange 9 von 160° bis 200°) unter der Einwirkung der Handkraft , die zur Hebelstange 7 beigefügt ist, dreht sich auf solchen Winkel auch die Stange 9 um. Dabei versetzt die Treibstange 10 nach unten die Arbeitsplatte 13 zusammen mit dem Oberdeckel des Raums 15. Dieser Deckel versetzt worden nach unten, drückt auf die Oberkontaktoberfläche des Kopfes 16 der Steilgewindespindel 17, zwingend ihrer auch, senkrecht nach unten versetzt zu werden. Die Größen der Stange 9, Treibstange 10 und der Steilgewindespindel 17 sind auf solche Weise gewählt, dass bei der ersten Wendung der Hebelstange 7 auf 40°-80° die Steilgewindespindel 17 in dem Korken dreht sich an. Bei der Wendung der Hebelstange 7 von 40°-80° bis 100°-120° (die Wendung der Stange 9 von 160°-200° bis zu 220°-240°) die Steilgewindespindel 17 zusammen mit dem Korken aus dem Flaschenhals gehet raus. Bei der weiteren Wendung der Hebelstange 7 von 100°-120° bis 180°-200° (die Wendung der Stange 9 von 220°- 240° bis zu 300°-320°) der Korken ausfallt von der Steilgewindespindel. Bei der ersten Wendung der Hebelstange von 0° bis 40°-80° das Ende der Steilgewindespindel 17 die Oberoberfläche des Korkens erreicht. Die Kraft des Widerstandes dem Eintritt in den Korken der Steilgewindespindel 17 behindert die ihrer fortschreitenden Bewegung senkrecht nach unten. Dabei besetzt der Kopf 16 der Steilgewindespindel 17 die äußerste Oberlage im Raum 15. Daraufhin kommen die Vorsprünge und die Einsparungen des Kopfes 16 und der unteren Abteilwand des Raumes 15 aus gegenseitig Kämmen und der Kopf 16 und die Steilgewindespindel 17 die Möglichkeit des Drehens gleichzeitig mit der fortschreitenden Bewegung senkrecht nach unten bekommen. Gleichzeitig wird die verlängerte Schraubenmutter 21 infolge des Druckes, der auf die Steilgewindespindel geleistet ist, mit der unteren Oberfläche des eigenen Kopfes zur oberen Oberfläche der Abteilwand 20 angedrückt und sine Einsparungen und die Vorsprünge in Kämmen untereinander eintreten und die drehende Bewegung der Schraubenmutter behindern. Der weitere Fortschritt der Steilgewindespindel 17 nach unten wird nur möglich, wenn sie gleichzeitig drehet sich innen der verlängerten Schraubenmutter 21. Wie höher aufgezeigt war die Wendung der Hebelstange 7 (von 0° bis zu 40°-80°) der Kopf 16 schon lässt solche Bewegung der Steilgewindespindel 17 zu.

The corkscrew works in the following way:

• Before extracting the cork the operator places the device on the bottle neck in such a way that the axis collar of the bottle neck is in between the plates 24th and 25th would have come. If the bottle neck is covered by the film, turn the device on the bottle neck to 180 °, the film is cut through with the sharp edges of the plates 24th and 25th turn out. The operator holds the device for the booklet 4th . With one hand holding the device on the bottle neck, the surgeon takes the lever bar from the second hand 7 and in the direction of the 1 shown at 180 ° -200 ° turns it. After the partial rotation of the lever rod 7 at about 120 ° -130 ° you can remove the device from the bottle neck and further the lever rod 7 continue spinning until the end. The cork falls out of the corkscrew. The operator then releases the lever 7 and under the influence of the force of the technological spring 18th it returns to the initial state. After that the device for extracting the following cork is ready. When turning the lever rod 7 from the initial state, from 0 ° to 40 ° -80 ° (the turn of the rod 9 from 160 ° to 200 °) under the influence of the hand force that leads to the lever rod 7 is attached, the rod also rotates at such an angle 9 around. The drive rod is offset 10th down the countertop 13 together with the top cover of the room 15 . This lid has been moved downwards, pressing on the top contact surface of the head 16 the high-helix lead screw 17th , also compelling them to be displaced vertically downwards. The sizes of the rod 9 , Connecting rod 10th and the high-helix lead screw 17th are chosen in such a way that at the first turn of the lever rod 7 at 40 ° -80 ° the high-helix lead screw 17th in the cork turns. When turning the lever rod 7 from 40 ° -80 ° to 100 ° -120 ° (the turn of the rod 9 from 160 ° -200 ° up to 220 ° -240 °) the high-helix lead screw 17th get out of the bottle neck together with the cork. When turning the lever rod further 7 from 100 ° -120 ° to 180 ° -200 ° (the turn of the rod 9 from 220 ° - 240 ° up to 300 ° -320 °) the cork fails from the high-helix spindle. At the first turn of the lever rod from 0 ° to 40 ° -80 ° the end of the high-helix spindle 17th reached the top surface of the cork. The force of resistance to entry into the cork of the high-helix lead screw 17th hampers their progressive downward movement. The head occupies 16 the high-helix lead screw 17th the outermost top layer in the room 15 . Then there are the projections and the savings of the head 16 and the lower compartment wall of the room 15 from mutual combs and the head 16 and the high-helix lead screw 17th get the possibility of turning vertically downwards at the same time as the progressing movement. At the same time, the elongated nut 21 due to the pressure exerted on the high-helix lead screw, with the lower surface of its own head towards the upper surface of the compartment wall 20 pressed and enter the savings and the projections in combs with each other and hinder the rotating movement of the nut. The further progress of the high-helix lead screw 17th Down is only possible if it simultaneously rotates inside the elongated nut 21 . As shown above, the turn of the lever rod was 7 (from 0 ° to 40 ° -80 °) the head 16 such a movement already leaves the high-helix lead screw 17th to.

In this way, when turning the lever bar 7 the high-helix lead screw from 0 ° to 40 ° -80 ° 17th offset vertically downwards and at the same time doing the rotating movement. These two movements result in the high-helix lead screw 17th is screwed into the cork. The sizes of the rod 9 , the connecting rod 10th , the high-helix lead screw 17th and the angle between the lever rod 7 and rod 9 are selected so that when the device is placed on the bottle neck, the tip of the high-helix spindle 17th touched the top surface of the cork. When turning the lever rod 7 at 40 ° -80 ° the high-helix lead screw 17th is screwed into the cork to 40 mm, which corresponds to the standardized length of the cork. When turning the lever rod further 7 from 40 ° -80 ° up to 100 ° -140 ° ( 1A and 1B) the force acts on the connecting rod 10th and the countertop 13 vertically upwards, forcing it to move in that direction. The worktop has been moved 13 drags his head behind him 16 and the high-helix lead screw 17th , and together with him pulls the cork out of the bottle neck. The frictional force of the cork over the bottle neck prevents the cork from moving vertically upwards and pushes the lower surface of the head 16 to the lower surface of the room 15 . In doing so, the protrusions and the savings come from the lower surface of the head 16 and bottom surface of the case 14 in the combing and turning of the head 16 together with the high-helix lead screw 17th be banned.

The further turn of the lever bar 7 from 100 ° -140 ° up to 180 ° -200 ° (the turn of the rod 9 from 210 ° to 270 °) forcibly rotates the cork in the direction of screwing the cork from the high-helix spindle 17th and, in this way, unscrew the cork from it.

During the turn of the lever rod 7 from 0 ° to 180 °, the technological spring 18th compresses and the spring is completely compressed to achieve the lever rod of this position. After the surgeon pulls the lever bar 7 release and under the force of the compressed spring, the device returns to its original state. The presence of the spring 18th is not mandatory. Basically the device can work without the spring, but in this case it takes manual to put the device in the initial state.

• -der Anschlag in der Nähe von der Marke 0° mit dem Ziel des Verbotes der Wendung der Hebelstange 7 von 0° in der Richtung im Uhrzeigersinn;
• -der Anschlag in der Nähe von der Marke 200° mit dem Ziel des Verbotes der weiteren Wendung der Hebelstange 7 in der Richtung gegen den Uhrzeigersinn.

The above sizes of the angle of the turn of the lever rod 7 of the device are counted from 0, for which the strictly vertical starting position of the device is adopted and the angles are counted counter-clockwise. Two stops are provided in the device, which are not shown in the figures:

• -The stop near the 0 ° mark with the aim of prohibiting the lever rod from turning 7 from 0 ° in the clockwise direction;
• -The stop near the mark of 200 ° with the aim of prohibiting the lever from turning further 7 in the counterclockwise direction.

Claims (8)

Corkscrew for removing a cork from a bottle neck due to the screwing of a high-helix lead screw (17) into a cork with a housing (1) in which two coupling mechanisms (A and B) are arranged, a spring (18) between a worktop ( 13) and a shoulder in the housing (1) in the upper part (A) of the housing (1) is arranged coaxially to the high-helix lead screw (17), whereby as a result of downward axial pressure on the high-lead lead screw (17) and at the same time forced rotation about it Axis with the help of a lever mechanism (7,8, 9, 10,11), which is connected to the worktop (13), the high-helix lead screw (17) retracts downwards into the cork when a lever rod (7) is actuated, marked by a screw nut (21) in the lower part (B) of the housing (1), the lower surface of which is equipped with short sharp spikes which penetrate into the upward surface of the cork. Corkscrew after Claim 1 , characterized in that the housing (1) contains the high-helix spindle (17), the lever rod (7), two coupling mechanisms (A) and (B) and the device for placing the corkscrew on the bottle neck and cutting off the film, wherein the lever rod (7) is connected to the worktop (13) by means of an eccentric consisting of the rod (9) and the drive rod (10). Corkscrew after Claim 1 , characterized in that the projection of the lever rod (7) and the rod (9) onto the surface which is perpendicular to the axis (6) and an angle of 100 ° up to 130 ° and are firmly connected to the axis (6). Corkscrew after Claim 1 , characterized in that the screw nut (21) is elongated and its lower part is in the space for the pulled-out cork and its lower surface is in contact with the upper surface of the cork after its removal. Method of removing a cork from the bottle neck of a bottle, following the rotation of a high-helix spindle (17) of the corkscrew Claim 1 into a cork by means of a housing (1) with two coupling mechanisms (the upper A and lower B) and due to the downward axial pressure on the high-helix lead screw (17) with their simultaneous forced rotation about its axis and extraction of the high-lead lead screw (17) with the cork from the bottle neck due to the upward axial pressure without rotation, characterized in that the corkscrew has an additional possibility to remove the cork from the high-helix spindle (17) and the extraction of the high-helix spindle (17) together with the Cork and the separation of the cork from the high-helix spindle (17) is consequently carried out as a result of the manual action on the lever rod (7) without changing the direction of action. Procedure according to Claim 5 , characterized in that the downward axial pressure on the steep threaded spindle (17) by means of a rotation of the rod (9) through a certain angle of 110 ° to 130 ° to the penetration of the steep screw spindle (17) of the corkscrew into a cork 270 ° - 300 ° is effected. Procedure according to Claim 5 , characterized in that the extraction of the high-helix spindle (17) together with the cork and the separation of the cork from the high-helix spindle (17) by rotating the rod (9) through a certain angle of 180 ° to 270 ° - 280 ° is effected. Procedure according to Claim 5 , characterized in that the separation of the cork from the high-helix lead screw (17) with the progressive movement of the high-lead lead screw (17) at the same time causes the rotary movement of the cork on the high-lead lead screw (17).

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