RU11540U1 - DEVICE FOR SPILLING VISCOUS LIQUIDS - Google Patents

Abstract

A device for filling viscous liquids, including a source of compressed air with elements for connecting to the consumer, a supply tank, metering cylinders with valves and nozzles for connecting to a consumable tank and filling heads, pipelines with three-way valves, a piston moving mechanism for metering cylinders with a unit for controlling the dose in the container , a table with nests for placing containers and a device for adjusting the height of the filling head in containers of various sizes, characterized in that the mechanism The piston displacement of the metering cylinders is made in the form of an additional cylinder of the same type placed between them, and the rods of all three pistons are connected to a single traverse, and the additional cylinder is connected to a compressed air source through a valve-air distribution system, and a mechanical limiter is made to control the stroke of the additional cylinder, for example, a screw with an emphasis, the length of which is graduated in units of the volume of the dose of the gulf in the container, and for regulating the height of the location of the filling head depending on the size of the container is formed a second additional pneumatic cylinder, through the air distribution device is connected to a source of compressed air, the rod of which is connected to the traverse via a filling heads are connected through a valve conduit arrangement to the cavities of the metering cylinders.

Description

DEVICE FOR SPILLING VISCOUS GIVEN

The invention relates to dosage technology and can be used, for example, for dosing vegetable oil in small-scale production of farms.

At present, many devices have been developed for factories for spilling liquids (drinks, juices, vegetable oils, paints, etc.) of high productivity, automated systems. D |) their name in the conditions of small-scale farming is not economically feasible.

There is a weightless device for pouring liquids into glass containers (see as. USSR No.; 426806 B 67 s 3/02 Bul: 15. 1974)., Consisting of juices with funnels reinforced around its circumference with drain tubes. mounted on the shaft to sit under the funnel of the disk with sockets for uv, and the pipeline fixed above the funnels of the piping, and for increased accuracy, the dosage is equipped with two piston dosers connected through K1vpann; A SET system with a fluid supply pipe, while the metering pistons are mounted on a T-shaped frame, which has beams on which the retighten screws are tightened and connected via a pivot to an eccentric mounted on the shaft of the pinion gear for driving the pistons, in addition, the device can be equipped with an additional row of funnels fixed on the carousel, the drain pipes which are bent so that they are located on the same circle with the pipe of the funnel of the first row

A disadvantage of the known technical solution is the complexity of the constructive implementation.

The closest technical cynmocTii is a liquid spill device (see ASSR AS No. 165 2303 B 67 C 3/18 Bul: 2 1991), containing a consumable reservoir with a level regulator, fluid and compressed air inlets., Dosing unit cups, located in the supply reservoir ee, each of which has a siphon pipe, the free end of which is connected to the drain pipe, and each dosing cup is equipped with a poppet return filling cup installed in the lower part, and a hermetic lid in the upper part, in a throttle pipe is installed in the drain pipe, a supplementary tap and a pressure sensor are connected to the automatic heating unit, the outlet of which is connected to the input of the inlet pressure regulators, and the siphon tube and nozzles for supplying compressed Ti are mounted in a sealed cover, while the compressed supply is connected to a controlled three-way compressed air source

A disadvantage of the known technical solution is the complexity of the design, which is impractical to use for bottlers. vegetable oil devices in small (|) farm enterprises.

Yu1V67SZ / 18

The problem is solved as follows.

A device for pouring vegetable oil, including a source of compressed air with elements for connecting to a consumer, a diaphragm reef -, a dosing device again with valves and naTpy6KaNffi for connecting to a flow tank and filling heads, pipelines with a three-way flow fan, a mechanism for transferring dosing portions 1 oil filling in tfu, a table with nests for accommodation and adjustment devices for the views of the location of the filling head in tfu of various sizes, and to solve the problem The solution includes - the mechanism for moving the pistons of the metering cylinders is complete in B1sche of an additional (of the same type) cylinder placed between the two, and the pins of all three pistons are connected to the traverse, and the additional cylinder is connected to the compressed air source through the air supply system, and for the compressed air, and for A rod with a jTiopoM screw was used to regulate the stroke, for example, a screw with jTiopoM, the length of which is one degree in units of the dose volume of a gulf of vegetable oil in a tfa Assumption filler head configured pnavmaticheosim second additional cylinder through the air distribution device is connected to a source of compressed air, the rod of which is connected to the traverse via a filling GOLOVKVVUE connected conduit through the valve device to the cavities of the metering cylinders.

Significant differences of the proposed south technical solution are: The mechanism for moving the spoiled dosing cylinders is made in the form of an additional (of the same type) cylinder located between them, and the rods of all three pistons are connected to a single traverse, and the additional cylinder is connected to a compressed source through a connected air-distribution system. air.

This technical solution z-forgives the design of the device and ensures reliable operation. C) the name of oddotilnyh (identical in) cylinders simplifies the equipment and manufacturing technology.

The use of compressed air as an energy carrier provides the ability to control the performance of the device over a wide range.

In addition, the filling rate of ufu is regulated; ensuring the stability of the spill dose when the viscosity of the oil changes depending on the temperature, the oil is foamed ..

To control the stroke of the rod of the additional cylinder, a mechanical limiter was made, for example, a screw with a stop, the length of which is unloaded in units of volume of the volume of the vegetable bay in TF. This technical solution provides the possibility of adjusting the dose of oil inlet, depending on the size of the tfa, this ensures the dosage stability.

To regulate the height of the filling head, depending on the size of the container, a second additional pneumatic shchshshf is made. through an air-heating device connected to a source of compressed air, the rod of which is connected through a cross-arm to the locking heads by a connected pipeline through a valve device to the cavities of the dosing cylinder.

This technical solution simplifies the design by filling in tfi of various sizes., While maintaining a stable dose of js-mcim poured into tfu. An additional pneumatic cylinder with an air distribution device provides a clear and smooth adjustment of the device, which simplifies options for servicing the device for spilling vegetable oil,

Using pneumatic devices for driving dosing cylinders and devices for adjusting the height of the casting head, the device is compact, which is important when used in workshops with limited productivity. G | 5 ease of maintenance and reliability allows you to use the device for bottling in 4-farm enterprises, with low qualification of service personnel. A make-up artist for a device for pouring viscous liquids, a non-greamer of vegetable oil, shown in the following schematic diagram. The prospectus shows an ustshyuvka for spilling viscous liquids (sunflower oil) with a dosage of 0.25 to 1.5 liters with a capacity of up to 400 liters per hour (at a dose of 1 liter) with an accuracy of more than 0.5% of the metering. (The first sample was made at the start of 1999, successfully forgave laboratory tests).

The installation includes a compressed air source 1 (a compressed pressure network of 0.02 to 0.5 MPa can be used as a compressed air source 1). consumable peBqmyap 2 for vegetable oil, dosing (volumetric) tszhzhnlry 3, 4 with valves 5, 6 for vggusva growing oil in the cavity 3 and 4, and valve 7, 8, providing the supply of bulk in the separation heads 9 and Yu.

To move the pistons 11,12 in the cylinders 3, 4, the installation is equipped with an additional cylinder 13 located between the niches. 14, 15 and 16 are connected to a single TpaBqx “17.Glosty 18 and 19 of an additional cylinder 13 connected to the air distribution device 20 with a time relay and a source of compressed air 1.

To control the speed of flow 16, throttles 21 and 22 are installed. To regulate the dose of vegetable oil, an additional shchitsdr 13 is equipped with a mechonic stroke limiter, for example, a screw 23 installed above the beam 17. The stroke length of the screw is unbuffled in units of the total amount of vegetable oil spill in tfa 24 and 25 (bottle of Yessi). Tfa 24; 25 times it is placed on casting tables 26, 27 from the nest. The fact that tfa 24 and 25 in zshishmosh from © zhostn and konstrzrapshrazlizhuta

additional cylinder 29 through the air-tightening device 31 with a time relay connected to a source of compressed air 1.

A viscous fluid spill installation works as follows.

By means of a screw 23, they move the traverse 17 to the magnitude of B; doses of a spill of vegetable oil in imekzhts} Yusya containers (bottles) 24, 25.

JHa tables 26 27 install bottles 24 and 25, the second additional cylinder 28 with the air distribution system 31 turned on (with turnaround time) through the cable 29 with traverse 30 move the sewn-on head units 9 and 10 until they come in contact with the mountains: juvin amzh bottle 24 and 25 Through the air distribution device 20 (with a time switch), they switch into the work the auxiliary SH1PI1zdr 13. When the cavity 19 is filled with a piston through the rod 16, the yoke 17 is moved up to the stop with the screw 23 (for a certain dose). D |) and in this movement, vegetable oil enters the metering cylinders 3 and 4 from the feed tank 5 and 2 through the valves 5 and 6. B.when the traverse 17 rests against the supporting surface of the screw during its movement, 27, the filling of the metering cylinders 3 and 4 will stop, certain doses of vegetable oil will accumulate in the cylinder cavities. After a predetermined period of time passes, the air-distributing device 20 is turned on and the compressed into the cavity 18, the piston with the rod 16 begins to move downward, while the piston rods 14 and 15 use pistons from up to the bottom; the vegetable oil 3 and 4 are fed through the valves 7 and 8 to butygisi. When filling in the dose (the pistons in the metering cylinders 3 and 4 are in the lowest position), a delay occurs until the time signal relay switches on the air distribution devices 20 and 31.

Stock 29 of the second additional pin 21 through the traverse} 30 lifts the split heads 9 and 10. The neck of bottles 24 and 25 are released. We remove the bottles 24 and 25 filled with vegetable oil by hand, empty bottles are put in place. At this time, the next dose of vegetable oil is set into dosing shchishndra according to the technology described above, and the cycle repeats.

The unit provides a dosage} and a spill of vegetable oil during manual replacement of containers (bzpshok).

Conducted laboratory tests of the pfv sample showed that the installation provides stable dosing, short-term service and reliable service.

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Claims (1)

A device for filling viscous liquids, including a source of compressed air with elements for connecting to the consumer, a supply tank, metering cylinders with valves and nozzles for connecting to a consumable tank and filling heads, pipelines with three-way valves, a piston moving mechanism for metering cylinders with a unit for controlling the dose in the container , a table with nests for placing containers and a device for adjusting the height of the filling head in containers of various sizes, characterized in that the mechanism The piston displacement of the metering cylinders is made in the form of an additional cylinder of the same type placed between them, and the rods of all three pistons are connected to a single traverse, and the additional cylinder is connected to a compressed air source through a valve-air distribution system, and a mechanical limiter is made to control the stroke of the additional cylinder, for example, a screw with an emphasis, the length of which is graduated in units of the volume of the dose of the gulf in the container, and to control the height of the location of the filling head depending on the size of the container is formed a second additional pneumatic cylinder, through the air distribution device is connected to a source of compressed air, the rod of which is connected to the traverse via a filling heads are connected through a valve conduit arrangement to the cavities of the metering cylinders.