US3682088A - Rack for agitating movement and inclination of bottles of champagne - Google Patents

Abstract

The present invention relates to a rack on which bottled of sparkling wine are supported, during the manufacture by the champagne process, and which is provided with means for simultaneously rotating all the bottles about their longitudinal axis and similar means for simultaneously varying the angle of inclination of all the bottles to the vertical. The purposes of this to ensure that any sediment in the wine collects in the neck of the bottles on the cork.

Description

United States Patent Paniez [451 Aug. 8, 1972 [54] RAClfgifilGlTATlNG MOVEMENT 2,056,014 9/1936 Moore et a1. ..259/54 AND ATION OF BOTTLES F CHAMPAGNE 0 FOREIGN PATENTS OR APPLICATIONS [72] Inventor: JeamMarie Joseph Mel 13 112,414 4/1876 France "99/2771 A enue dsEtflingen, France ..99/277-1 (Mame) France Pn'mary Examiner-Leon G. Machlin [22] Filed: Dec. 30, 1970 Attorney-Parrnelee, Utzler & Welsh [2i] Appl. No.: 102,677 57] ABSTRACT The present invention relates to a rack on which botlifl 3:38P:3:JJ3:3::3J:J:3::3:JJJJJIJJJJJJJJJJ???YY53132 fledofsparklingwimaresuppoflewflngrhe 58 Field of Search ....99/277.2 277.1 277- 259/57 ficme P champag. Pmcess, and whlch 259/56 21077 1 vided with means for simultaneously rotating all the 1 bottles about their longitudinal axis and similar means for simultaneously varying the angle of inclination of all the bottles to the vertical. The purposes of this to [56] References Cited ensure that any sediment in the wine collects in the UNITED STATES PATENTS neck of the bottles on the cork.

3,533,602 10/1970 Heck et al .99/277.2 X 12 Claim, 18 Drawing Figures PATENTEDAuc 81972 3 682 088 sum 1 or 7 PATENTEUMIB 8 I972 SHEET 2 0F 7 RACK FOR AGITATING MOVEMENT AND INCLINATION OF BOTTLES OF CHAMPAGNE The present invention relates to a bottle supporting rack on which bottles of champagne are supported during the manufacturing process.

As a preamble, a brief description will be given of part of the manufacture of champagne, namely the operation of moving the bottles.

The bottles are first placed with the neck downwards on racks such that they are inclined at approximately left, this operation being facilitated by the provision of a reference mark in white paint on the bottom of each bottle. The sediment is thus gradually detached and collects in the neck of the bottle. At the end of the operation, which may take from 6 weeks to 3 months the bottle will be vertical with neck downwards. A good workman will move some 30,000 bottles per day.

The present invention has the aim of reducing the bottle moving time and controlling the inclination of the bottles, which is achieved with the aid of a bottle moving rack provided with two manual controls, one for rotating the bottles and the other for varying the inclination of the bottles, this rack being able to hold from 10 to 100 bottles or more. Consequently, a very appreciable saving in time is achieved because a single workman can, by simply turning a handwheel, move for example 100 bottles instead of a single bottle as is the case when this work is done under present conditions.

This rack is composed of two frames movable parallel in the downward or upward direction. The fixed front frame is provided with two front pivots of each support for containers matching the shape of the neck of the bottle. The movable rear frame is provided with two rear pivots of the container support; the object of this frame is to increase the inclination of the bottle progressively from 45 until it stands entirely on its tip. This movement allows any sediment in the wine to drop on to the cork; this sediment will be removed in the operation of extracting the cork coated with deposit.

This explanation relates essentially to the desired inclination of the bottles. It will now be explained how the moving of the bottles is effected.

This is done with the aid of a small 45 helical gear fixed on a shaft passing through the entire width of the rack. Each container support is formed in one piece with four pivots and two forks, which receive the primary shaft, the small 45 helical gears of which are mounted and cottered on said shaft in each required position and transmit the rotary movement to the large helical gears mounted on the shafts of the bottle containers.

In order to reduce the coefficient of friction, two nylon rings are provided in the container support.

Each primary shaft is provided at one end, either on the right or on the left, with a double sprocket wheel. All the sprocket wheels are connected together by Y chains.

An operating handwheel is fixed on one of these primary shafts, at the end of the rack.

The following description and the accompanying drawings will permit easier understanding of the practical embodiment of the invention.

FIG. 1 is a rear view of the rack, in which the two operating handwheels, the helical gears, and the sprocket wheels equipped with their chains can be distinguished.

FIG. 2 is an exploded view showing the principle of the mechanism controlling the inclination of the bottles;

FIG. 3 is a top view and FIG. 4 a front view of an articulation fork provided with a smooth hole;

FIG. 5 is a front view of an articulation fork provided with a tapped hole;

FIG. 6 is a front view of an upright of a frame of the rack;

FIG. 7 is a side view of the rack in the direction of the arrow VII in FIG. 18, in which the trumpet-shaped bottle containers and their supports, the gears, the sprocket wheels, and the two frames can be distinguished;

FIG. 8 is a side view and FIG. 9 an end view of a trumpet-shaped container;

FIG. 10 is a top view and FIG. 11 a side view of a container support;

FIG. 12 is a front view and FIG. 13 a side view of a low friction bearing ring insetted in the hole in a container support:

FIG. 14 is a front view and FIG. 15 is a side view of a helical gear:

FIG. 16 is a front view and FIG. 17 a side view of a sprocket wheel;

FIG. 18 shows in the form of a side view, partly cut away, the principle of controlling the movement agitating the bottles.

As shown in the drawings, the rack consists of a front and rear frame of each comprising an upper and a lower channel section 1 receiving a series of uprights 3 of the frame, which are made of a mouldable material. Holes 2 in the sections 1 are placed opposite holes 5 in the uprights 3 (FIG. 2) and the two are connected by a countersunk screw 6 locked by its nut 7. Holes 4 in the uprights 3 receive pivots pins 27 of supports 23 for trumpet-shaped containers 18 for supporting the bottles, said containers 18 being moulded in plastics material. Two flat bars 8 are welded at one end on each upper section 1 and are pierced with holes 9. As shown in FIGS. 2, 3 and 4, the holes 9 in bars 8 secured to the left hand, front frame receive pivot pins 12 of an upper bushing 10 having a smooth walled transverse central aperture 15. The holes 9 in the bars 8 secured to the right hand rear frame receive the pivot pins 12 of a lower bushing 1 1 having a square pitch screw-threaded aperture. The holes in the parts 10 and 11 receive a 1 square-threaded adjusting screw 16, a smooth portion pivoting the supports 23 connected therebetween (F IG. 7). A shaft 19, which forms part of each trumpetshaped container 18, has a square end 20 to which a 45 helical drive gear 33 is mounted being held in place by way of a pin passing through a cotter hole 22. These containers 18 are each rotatably mounted in a support 23, bevels 26 on the lower shoulder of the container 18 and the neck of the support 23 forming a bearing surface.

fixed on the bottle cork, thus making it possible for the containers to receive bottles sealed in different ways, namely by means of metal caps or by means of corks provided with hooks. The support 23, is provided with a bore 24 and with four pivot pins 27 which are received in the holes 4 in the uprights 3, is formed with a fork 28, the arms of which are provided with holes 29 to receive a shaft 38, which in turn carries a small helical drive gear 30. The bore 24 in each support 23 is provided with two nylon bearing rings 25, thus contributing towards reducing the friction of the shaft 19 of the container 18 which rotates in the support 23. Each of the gears 30, has a bore at 31, and is pierced with a cotter hole 32. A number of shafts 38 are provided extending across the rear frame of the rack and each passing through the holes 29 of a series of supports 23 and each being secured to a series of the gears 30 associated with each of the supports 23. Each of the gears 30 meshes with a gear 33 (FIGS. 14 and such that rotation of the shaft 38 causes all the containers 18 in each of the rows to rotate.

Each shaft 38 itself carries a double sprocket wheel 34 atone end. These sprocket wheels, which have a bore 35, are connected together by chains 36 and enable a rotational movement to be transmitted to all the shafts 38, which in turn drive the trumpet-shaped containers, this movement originating from a handwheel 37 keyed at 32 on one of the shafts 38. By turning handwheel 37 therefore, each of the bottles held in the container 18 is caused to rotate about its longitudinal axis, while rotation of the handwheel 17 causes the angle of each of the bottles to the vertical to be altered.

By means of this system regular agitating movement of all the bottles placed on the rack is achieved; variation of the inclination is also obtained under the same conditions.

To sum up, the advantages mentioned at the beginning of this text are principally much higher output, because hundreds of bottles can now be manipulated simultaneously, and equally accurate work to that which hitherto was performed manually. Moreover, the fact that this rack is made of plastics material makes it practically free from wear and it requires no maintenance.

It is obvious that various modifications could be 7 made to this invention; for example, the helical gears 30, 33 could be replaced by angle gears. Automation could be achieved by replacing the handwheels 17 and 37 by electric drive motors which can be operatedautomatically by a time switch if desired.

l l I? ottle supporting rack comprising a front and rear vertical frame, a plurality of containers for saidbottles each rotatably mounted in a support member, the support members being pivotally mounted across between said front and rear frames, means for imparting relative vertical movement to said frames. and means for simultaneously rotating all of said containers relative to their support members.

2. A bottle supporting rack as claimed in claim 1 wherein each of said containers comprises a trumpetshapedfront portion adapted to fit over a bottle neck and a rear shaft portion to the free end of which is secured a drive gear, wherein a horizontal drive shaft extends along a row of said containers and is provided with transmission gears each of which meshes with one of said drive gears.

3. A bottle supporting rack as claimed in claim 2 wherein a series of said horizontal drive shafts is provided, each extending along a row of said containers, each of said drive shafts being interconnected by a driving chain, means being provided to rotate one of drive shafts.

4. A bottle supporting rack as claimed in claim 1 wherein each of said support members is formed with laterally extending pivotpins at the front and rear ends thereof, said pins being received in apertures formed in the upright members of said front and rear frames.

5. A bottle supporting rack as claimed in claim 4 wherein each of said support members is formed with a central bore in which said container is rotatably mounted, bearing rings of low friction material being provided in said bore.

6. A bottle supporting rack as claimed in claim 2 wherein said drive shaft is rotatably mounted on arms formed on said support members.

7. A bottle supporting rack as claimed in claim 1 wherein an upper'bushing member provided with a smooth bore is pivotallymounted to the upper end of said front frame, and a lower bushing member provided with a threaded bore is pivotally mounted to the upper end of said rear frame, wherein a drive' screw is rotatably mounted in the bore of said upper bushing member and secured against axial movement relative thereto and is threadedly engaged in the lower bushing member.

8. A bottle supporting rack as claimed in claim 1 wherein each of said containers is provided with apertures which enable the contents of the bottles to be seen.

9. A'bottle supporting rack as claimed in claim 8 wherein said .apertures are arranged to allow the passage of any hooks or wires secured'to the cork of a bottle.

10. A bottle supporting rack as claimed in claim 3 wherein a drive motor is provided to rotate said drive shaft.

11. A bottle supporting rack as claimed in claim 10 wherein a time switch is provided to automatically operate said drive motor at a pre-determined time.

' 12.'A bottle supporting rack as claimed in claim 7 wherein a drive motor is provided to rotate said drive screw.

Claims (12)

1. A bottle supporting rack comprising a front and rear vertical frame, a plurality of containers for said bottles each rotatably mounted in a support member, the support members being pivotally mounted across between said front and rear frames, means for imparting relative vertical movement to said frames and means for simultaneously rotating all of said containers relative to their support members.

2. A bottle supporting rack as claimed in claim 1 wherein each of said containers comprises a trumpet-shaped front portion adapted to fit over a bottle neck and a rear shaft portion to the free end of which is secured a drive gear, wherein a horizontal drive shaft extends along a row of said containers and is provided with transmission gears each of which meshes with one of said drive gears.

3. A bottle supporting rack as claimed in claim 2 wherein a series of said horizontal drive shafts is provided, each extending along a row of said containers, each of said drive shafts being interconnected by a driving chain, means being provided to rotate one of drive shafts.

4. A bottle supporting rack as claimed in claim 1 wherein each of said support members is formed with laterally extending pivot pins at the front and rear ends thereof, said pins beinG received in apertures formed in the upright members of said front and rear frames.

5. A bottle supporting rack as claimed in claim 4 wherein each of said support members is formed with a central bore in which said container is rotatably mounted, bearing rings of low friction material being provided in said bore.

6. A bottle supporting rack as claimed in claim 2 wherein said drive shaft is rotatably mounted on arms formed on said support members.

7. A bottle supporting rack as claimed in claim 1 wherein an upper bushing member provided with a smooth bore is pivotally mounted to the upper end of said front frame, and a lower bushing member provided with a threaded bore is pivotally mounted to the upper end of said rear frame, wherein a drive screw is rotatably mounted in the bore of said upper bushing member and secured against axial movement relative thereto and is threadedly engaged in the lower bushing member.

8. A bottle supporting rack as claimed in claim 1 wherein each of said containers is provided with apertures which enable the contents of the bottles to be seen.

9. A bottle supporting rack as claimed in claim 8 wherein said apertures are arranged to allow the passage of any hooks or wires secured to the cork of a bottle.

10. A bottle supporting rack as claimed in claim 3 wherein a drive motor is provided to rotate said drive shaft.

11. A bottle supporting rack as claimed in claim 10 wherein a time switch is provided to automatically operate said drive motor at a pre-determined time.

12. A bottle supporting rack as claimed in claim 7 wherein a drive motor is provided to rotate said drive screw.

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