RU2161590C1 - Liquid filling machine and metering device - Google Patents

Abstract

FIELD: food industry; filling liqueurs into bottles. SUBSTANCE: proposed filling machine is furnished additionally with vacuum pipeline with adjustable shutter installed in service reservoir cover and conical baffle located on supply pipe over float. Liquid metering device is provided additionally with measuring cup installed in housing with fitted-in fixed central pipe and air outlet pipe installed for vertical displacement. Lower part of cup adjoins upper part of guide bushing installed in housing. Bushing has fixed drain pipe with conical seal adjustable in height. Drain pipe accommodates pipe with end piece, this pipe being connected with central pipe at top. Divider is found in bottom part of pipe with end piece. Conical surface of divider is in contact with flowing out liquid. Divider adjoins valve at other side. Ring seal is arranged in lower part of measuring cup. EFFECT: enlarged operating capabilities, prevention of liquid losses. 3 cl, 4 dwg

Description

 The invention relates to the technology of packaging food liquids in bottles and can be used in the bottling and dosing of alcoholic, alcoholic liquids, etc. into the bottles.

 Known bottling of alcoholic and alcoholic liquids in bottles, for example, using gravitational or vacuum methods. Dosing of liquids is carried out by volume or level (N.F. Kharitonov, D.A. Yarmolinsky "Automatic machines and production lines for bottling wines." Engineering, Moscow, 1967, p. 73).

 The gravity method is characterized in that the flow of liquid from the supply tank into the dispensing device, and then from the device into the bottle, flows by gravity under atmospheric pressure. The pressure depends only on the forces of gravity and its value is determined by the hydrostatic height of the liquid.

 The vacuum method is characterized in that the same vacuum is created in the supply tank, dosing device and in the bottle and the liquid is drained into the bottle under the pressure of a hydrostatic column of liquid. The disadvantage of this method is the appearance of drops when the vacuum is turned off.

 A device is known for filling gravity-type food liquids with volumetric dosing (SU N 333125, B 67 C 3/04, 12.30.70). It consists of a flow tank mounted on the upper carousel with an annular collector, on the circumference of which dispensers are mounted, which are connected to the latter through the annular reservoir collector. Each dispenser is made in the form of a measuring cup with an air exhaust pipe in communication with the tank and ending with a tip. At the outlet of the glass, a drain valve is mounted. At the outlet of the manifold, a filling valve is installed, which is pivotally mounted on the stem. The shape and dimensions of the drain valve and the tip of the exhaust pipe are selected so that, spilling on the walls of the bottle, the liquid calmly fills it (tent method). On the lower carousel are installed with the possibility of moving tables for bottles, feeders empty and removal of filled bottles.

 A gravity-type filling machine with dosing by level is known (N.F. Kharitonov, D.A. Yarmolinsky "Automatic machines and production lines for bottling wines." Engineering, Moscow, 1967, pp. 75-78). The machine has a supply tank for the circulation mixture, which is mounted on a vertical shaft. Filling devices - dosing devices - are attached to the bottom of the tank. Inside the tank there is a float regulator that maintains a constant liquid level. The circulation mixture is supplied to the supply tank through a pipeline. When the liquid level drops, the float lowers and opens the valve. When the liquid level rises above the set mark, the float rises and the valve closes. On the same shaft under the reservoir, plungers with bottles are mounted on the carousel disk. The plunger springs press the neck of the bottles to the centering bell of the metering device. While the carousel is moving, the bottle is filled with liquid and then transferred to the conveyor belt.

 The metering device (filling device) consists of a housing, the upper part of which is located in the tank and ends with a cap that is screwed into the housing. Holes are made for the flow of fluid in the grids of the cap and body. Through a system of air tubes, air escapes from the bottle when fluid flows into it. A valve is fixed at the lower end of the tube to block the annular opening of the drain tube through which fluid enters the bottles. The valve opens when the guide bell is screwed onto a socket; a rubber ring is clamped between the bell and the socket, against which the neck of the bottle abuts when lifting it with a plunger. A socket with a bell moves freely along a fixed tube installed coaxially with the air tube system.

 The above-described method and device for filling gravity-type food liquids have the following disadvantage. When bottling liquids in bottles with a capacity of less than 0.5 l, due to the design features of the bottles, there is a significant variation in capacity, i.e. underfilling or overfilling of the dose may occur. Externally, the bottles with the drink have a different level of filling, which affects the presentation of the finished product.

 The tasks that are solved by the proposed inventions are to increase the versatility of the bottling method and eliminate losses during bottling.

 The tasks are solved as follows.

 A filling machine containing a supply tank with a lid mounted on a vertical shaft, in which there is a feed pipe with a float, liquid dispensing devices mounted in the bottom of the tank, a carousel with plungers for bottles, a drive for carousel movement, is characterized in that a vacuum is additionally introduced into it a pipeline with an adjustable shutter installed in the lid of the supply tank, and a conical reflector located on the supply pipe above the float.

 A device for dispensing a liquid, comprising a housing, the upper part of which is located in a supply tank, an air exhaust pipe installed in the center of the housing, a drain tube, a conical seal, a guide bell, characterized in that it is additionally equipped with a measuring cup located in the housing with a fixed central and movable air exhaust pipes, the lower part of the measuring cup adjacent to the guide sleeve, which is installed in the housing and in which is mounted a movable drain pipe with a height-adjustable conical seal, and inside the drain pipe there is a pipe with a tip connected in its upper part to the central pipe, while a baffle is mounted at the bottom of the pipe with a tip, the conical surface of which contacts the outflowing fluid, and on the other hand adjacent to the valve. In addition, the device at the bottom of the measuring cup contains an O-ring.

 In FIG. 1 shows a filling machine, FIG. 2 - a device for dispensing a liquid, in FIG. 3 - a device for dispensing a liquid with a bottle; FIG. 4 - the upper part of the device for dispensing liquids.

 The filling machine consists of the following main units: a supply tank 1 mounted on a curbstone 2 of the carousel table with lifting devices (not shown in the drawings), a supply pipe 3 with a float 4, a vacuum pipe 5 with a shutter 6, a conical reflector 7 installed on the supply pipe 3, devices for dispensing liquids 8 mounted in the bottom of the supply tank 1. The machine also includes a turnstile group (not shown), which supplies bottles to the lifting devices (plungers) of the carousel, the bed with the drive ohm, driving the rotor and the turnstile group, and the control panel.

 The filling machine can operate in the gravity mode with dosing by volume and in the gravity mode with dosing in level.

 In the gravitational mode with dosing by volume, the shutter 6 of the vacuum pipe 5 is fully open and atmospheric pressure is provided in the tank. If in this case you turn on the vacuum and regulate the amount of vacuum in the tank with the shutter 6, then droplet formation that occurs when the bottle leaves the dispensing device can be eliminated.

 The device for dispensing liquid 8 consists of a housing 9 with a union nut for connection to a supply tank 1, mounted on the housing 9, a crosshead 10 with guide sleeves 11 for the rods 12 and springs 13, which provide a return stroke of the drain pipe 14, conical seal 15, bell 16, which catches the neck of the bottle. Inside the housing 9 there is a measuring cup 17 with a central 18 and air exhaust 19 tubes fixed therein. An O-ring 20 is installed in the lower part of the measuring cup 17. The drain pipe 14 is mounted motionlessly in the guide sleeve 21, which is installed in the lower part of the housing 9. The inner surface of the upper part of the sleeve 21 has a bevel 22, which is necessary for tight closure with the O-ring 20 of the measuring cup 17 . Inside the drain tube 14 is a tube 23 with a tip. The upper part of the tube 23 is connected to the central tube 18. Outside, a conical seal 15 is installed on the drain tube 14, which is height-adjustable by means of a threaded sleeve 24. On the bottom of the tube 23 there is a divider 25, on whose conical surface liquid enters when it expires from the drain tube. The divider 25 is adjacent to the valve 26 installed in the tip of the tube 23. The Central tube 18 is installed in the measuring cup 17 motionless. The air exhaust pipe 19 is installed with the possibility of vertical movement (to adjust the dose of liquid). Both tubes are fixed relative to the measuring cup with a nut 27. The inner channel of the tube 23, when connected to the central tube 18, forms a common cavity 28 — the channel for the air to exit into the tank. A gap 29 is formed between the measuring cup and the housing, which is constantly filled with liquid.

 A device for dispensing a liquid works as follows. The liquid from the supply tank through the gap between the housing and the measuring cup enters the measuring cup and into the internal cavity of the drain pipe 14, filling the volume to the cutoff 30 of the exhaust pipe. In this case, the air from the measuring cup through the air exhaust pipe goes into the tank. The neck of the bottle rises (with a plunger), is centered by a bell 16 and rests on the conical seal 15. The drain pipe with the tip goes inside the bottle to the height set by the conical seal 15. The liquid from the measuring cup 17 enters the divider 25 through the drain pipe 14, valve 26 and drains a tent on the inside of the bottle. The air displaced by the liquid from the bottle passes through a channel 28 inside the central tube into the reservoir. With the rise of the bottle, the spring-loaded drain tube 14 rises to the stop in the housing 9 of the dispensing device. At the same time, during the passage of this distance (stroke), the bevel 22 of the guide sleeve 21 closes with the O-ring 20 of the measuring cup 17. The lower part 31 of the drain pipe 14 moves away from the end valve 26 of the handpiece, maintaining the tightness of its lower direction, opening the drain pipe at the end of the stroke. The lower section 31 of the drain pipe has an internal bevel parallel to the bevel on the divider 25. The fluid flow flows into the formed annular gap and meets a valve 26, which forms a liquid tent (umbrella), increasing the contact zone with the inner surface of the bottle.

 Regulation of the dose of fluid is as follows.

 The central 18 and the air outlet 19 tubes are hermetically mounted in the elastic ring 32 of the measuring cup 17. In this case, the central tube is fixed motionless in a fixed position using the locking bracket 32, and the air tube is mounted with the possibility of vertical movement relative to the central tube to control the dose of liquid. Dose adjustment is carried out using a nut with a fine thread 33, moving along the thread 34 of the upper end of the Central tube. Inside the nut there is a disk 35 connected to the air tube. Thus, moving the nut along the central tube, the disk, remaining in place, progressively removes the air outlet tube from the measuring cup or introduces it back, thereby increasing or decreasing the dose along the lower edge of the air tube.

 To operate the filling machine in the gravitational mode with dosing by level, the following operations must be performed: turn on the vacuum and regulate the vacuum value with the shutter 6, reduce the stroke in the metering device, for this it is necessary to remove the seal 20 and provide a constant gap between the measuring cup 17 and the sleeve 21 so that the fluid can flow freely into the bottle.

 When applying vacuum, the conical reflector 7 installed in the supply tank returns to the tank the liquid picked up by the vacuum along the supply pipe during operation of the float, and thereby eliminates fluid loss.

 The proposed filling machine is universal, as it can dispense both in volume and level, which significantly expands the conditions for its use. The machine uses a direct-flow method of pouring liquid from a reservoir into a bottle (there is no intermediate volume), at which the turbulence of the flow, which affects the rate of fluid outflow and foaming, is reduced. The fluid from the tank can be completely dispensed without residue through dispensing devices without the use of a drain valve. The measured capacity of the dispensing device is located below the bottom of the tank, so the filling height of the container is always maximum and, therefore, the filling speed of the bottle is also maximum.

 The present invention provides a universal method of bottling in volume and level and will find application in the alcoholic beverage industry.

Claims (3)

 1. A filling machine comprising a supply tank with a cover mounted on a vertical shaft, in which a feed pipe with a float is located, liquid metering devices mounted in the bottom of the tank, a carousel with plungers for bottles, a carousel drive, characterized in that a vacuum is additionally introduced a pipeline with an adjustable shutter installed in the lid of the supply tank, and a conical reflector located on the supply pipe above the float.  2. A device for dispensing a liquid, comprising a housing, the upper part of which is located in a supply tank, an air outlet pipe installed in the center of the housing, a drain tube, a conical seal, a guide bell, characterized in that it is additionally equipped with a measuring cup located in the housing, in which a fixed central tube and a movable air exhaust pipe, the lower part of the measuring cup adjacent to the top of the guide sleeve, which is installed in the housing and in which a fixed drain pipe with a conical seal height-adjustable is installed, and inside the drain pipe there is a pipe with a tip connected in its upper part to the central pipe, and a divider is mounted at the bottom of the pipe with a tip, the conical surface of which contacts the outflowing liquid and the bottom of the divider is adjacent to the valve.  3. The device according to claim 2, characterized in that an annular seal is installed in the lower part of the measuring cup.

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