CS203909B2 - Facility for rotary seating of the ball pressure tank - Google Patents

Description

SOCIALIST REPUBLIC OF CZECHOSLOVAKIA (M) DESCRIPTION OF PATENT 203909 (11) | M) PROCESSOR (22) Registered 09 08 78 (21) (PV 5210-78) (51) En. Gl.3 B 67 D 1/04 1 (32) (31) (33) Priority from 11 08 77 FORTAD FOR INVENTIONS (P 27 36 283.0 j Federal Republic of Germany (40) Published 29 02 80 (45) Publisher 15 11 83 AND DISCOVERIES (72)

Author of the invention MOCKESCH ERICH, HEILBRONN (NSR) (73)

Patent holder BIER _ DREVY AG, CH - CHUR (Switzerland) (54) Equipment for rotary storage of ball pressure tank 1

BACKGROUND OF THE INVENTION 1. Field of the Invention The invention relates to a device for rotatably mounting a spherical tank, in particular for beverages containing carbon dioxide.

It is known that pressure tanks of certain portions can be loaded to the maximum when they have a spherical shape. With this in mind, ball pressure pressure tanks have been developed for storing beverages containing carbon dioxide, especially beer. For filling and discharging the pressure tank, its two poles are provided with a heat exchanger. In order for the material to be filled not to come into contact with the inner wall of the container, the seven pressure tank suspends the foil bag which is filled with the storage material. The foil pyramid is changed before each filling, the furnace is provided with connections for filling and emptying the stored material and a second armature is provided with a pressure gas connection. The foil bag is connected to the filling and discharge fitting which must be located on the upper pole of the ball pressure tank when the bag is suspended. .

Then the pressure tank must rotate around the axis, running 180 ° through the equator plane, so that the filling and discharge fitting is the down pole and the pressure gas fitting is the upper pole of the pressure tank. This position is necessary for the filled material to enter the filling bag into the foil bag from below 2 and to fill the bag in the upward direction.

The pressure tank is loaded with both the weight of the filled material and the pressure. The load varies depending on the degree of filling and the pressure in the tank. Both factors result in a corresponding deformation of the pressure puff.

The invention aims to create a rotatable spherical tank that takes the tank to deformation.

According to the invention, the pressurized tray is inserted into a ring whose inner diameter is smaller than the outer diameter of the pressure tank, that hinge elements are fixed to the ring, passing through the flat plane of the pressure tank, that the hinge elements are placed in a pedestal, rotatably rotating the axis passing through the plane of the rim, the woman under the pressure tank is under the annular ring. .

The pressure tank thus consists of a ring of the parallel line, which has an exit from the equator. As a result, the pressure tank can move upward in the ring when the tank expands.

If the ring were around the plane of the equator, 203909

Claims (5)

203909, the expansion of the pressure tank would result in a relatively strong bending load of the tank wall in the equator area. Said postpressure tank in the ring is caused by the tangent extending in a vertical plane by the point of contact of the pressure tank and the ring with an acute angle to the vertical line passing through that point of contact. This angle is greater, the smaller the diameter of the ring compared to the diameter of the pressure tank. The choice of the angle size depends on the coefficient of coefficient between the ring and the wall of the pressure vessel, as well as the weight and possible maximum expansion of the pressure tank. The ring expediently consists of one tube. The hinge elements may, according to one practical embodiment of the invention, have the shape of hooks in which the ring is suspended. Further, the support elements may be provided with pockets which are rotatably supported in the bearing of the support base. In order to be able to fix the pressure tank in any desired position, it is possible to provide a locking fixture to fix the axle pin. An exemplary embodiment of the device according to the invention will be described below with reference to the drawing. In the accompanying drawing, a pressure tank is shown which consists of a wall of plastic half-shells and is embedded in a ring 2. The inner diameter of the annular 2 is smaller than the outer diameter of the spherical pressure tank 1. Therefore, the pressure tank 1 rests in the ring 2 along a parallel that has a distance to the equatorial line. The ring 2 consists of a tube on which two hook-like hinge elements 3 are fixed, each of which carries an axle pin 8, which is supported in the plane of the equator of the pressure tank 1. The axle pins 8 are rotatably supported in bearings 5 of the base 4. Each bearing S is one side is provided with a joint 9 into which a screw 6 is inserted, which can be screwed by hand, which serves to reduce or enlarge the joint 9. The device 8 can be used to fix the axle pins 8 in the bearings 5, whereby the pressure tank 1 can be locked into any any rotational position. Fastening elements 7 are attached to the pressure tank 1, which prevent the pressure tank 1 from falling out of the ring 2 when the breast 2 is above the equator. There is a spacing between the support elements 7 and the ring 2 when the pressure tank 1 is depressurized and the ring 2 is below the equator. The tangent, running through the contact point of the pressure tank 1 and the ring 2, forms an angle α with the vertical plane. As a result of this angle, the pressure tank can be moved upward from the position shown when it is opened due to the pressure generated therein. With reference numeral 10, the tank is filled with the filling and emptying of the tank. A foil bag (not shown) is affixed to the armature, and a filler material is introduced so that the material does not come into contact with the inner wall of the pressure tank. gas which serves to keep the filled material in the foil bag under pressure and to ensure that the stored material is emptied by the filling and discharging fitting 10. 1. An apparatus for rotatably supporting a ball-type tank, in particular for carbon dioxide-containing beverages, characterized in that the pressure tank (1) is inserted into a ring (2) whose inner diameter is smaller than the outside diameter of the pressure tank. (1) that hinge elements (3) mounted in the plane of the pressure tank equator (1) are attached to the thread (2), that the hinge elements (3) are mounted in the base (4) rotatably about an axis, lying in the plane of the equator, that the supporting elements (7) are fixed on the pressure tank (1) below the ring (2) against the equator and that at least when the pressure tank (1 ) CLOSE the distance when the equator of the pressure tank (1) is above the ring (2). 2. Device according to claim 1, characterized in that the ring (2) is made of one tube. 3. Apparatus according to claim 1 or 2, characterized in that the hinge elements (3) have a hook shape which supports the ring (2). 4. Device according to claim 3, characterized in that the suspension elements (3) are provided with axial pins (8) which are rotatably supported by the inserts (5) of the base (4). 5. Apparatus according to claim 4, characterized in that the bearing (5) is provided with a fixing device, which is formed by a screw (6) in the joint (9j) and serves to lock the axle pin (8) in any position of the pressure tank ( 1) 1 sheet of drawings «varograli ·, np, z * vo <7, Most