RU2656475C2 - Liquid transfer device - Google Patents

Abstract

FIELD: technological processes.

SUBSTANCE: liquid transfer device, for example a hand pump, contains a cylinder, a piston, a rod. Outer surface of the piston, adjacent without a gap to the inner surface of the cylinder, changes its shape identically to the changed inner surface of the cylinder at any location of the piston, and the rod, changing its shape, at one end is rigidly connected to one part of the piston.

EFFECT: invention provides a reduction in the weight, dimensions and reliability of the device.

1 cl, 2 dwg

Description

FIELD OF THE INVENTION

This technical solution relates to devices for transfusion of liquids and can be used in mechanical engineering.

State of the art

Currently, in mechanical engineering both in the Russian Federation and foreign countries, a wide range of analogues of the proposed technical solution is used - hand pumps for overflow of cutting fluids (hereinafter referred to as coolant), gasolines, solvents, oils, etc., as a rule, from 200 liter barrels to other containers. One of the disadvantages of these devices is their high weight. For example, an analogue of the proposed technical solution, a manual barrel pump for coolant PIUSI F0033208 A (see INTERNET) made in Italy, is designed for pumping urea, water, windshield washer, water-mixed coolant. It contains a rotary pump, a dispensing hose with a nozzle, a suction pipe. Its weight is 3.4 kg. This manual barrel pump uses a suction pipe to collect fluid, and a transfer hose with a nozzle is used to move fluid from the rotary pump to another container. Similarly, in the proposed device, this role is played by the cylinder with the only difference being that it is a solid whole, not divided into two separate parts. Moreover, both the suction pipe and the transfer hose with a nozzle have an additional fastening to the rotary pump, which increases their weight, which is not in the proposed device. And the role of the rotary pump (which is the main weight in the PIUSI F0033208 A coolant barrel coolant pump) in the proposed technical solution is played by a piston, which can be made, for example, of felt and with a diameter of 20 mm (2 cm) and a length of 10 mm (1 cm) its weight will be 0.95 g and a rod, for example, of a fluorocarbon fishing line with a diameter of 1 mm (0.1 cm) and a length of 5600 mm (560 cm) will be 7.92 g. Obviously, only one handle of a manual barrel pump for coolant, PIUSI F0033208 A will outweigh the weight of the stem and piston taken together of the proposed technical solution, and therefore, of the device will be less manual barrel pump coolant weight PIUSI F0033208 A.

The next analogue is a device for transfusion of liquids (patent for utility model RU No. 48320 U1, IPC B67D 5/01 priority of 04/27/2005).

1. A device for transfusion of liquids, containing a support with horizontal guides on which the trolley is mounted, a pipeline made in the form of a pair of flexible pipes equipped at their respective ends with means for connecting to a stationary tank and a transport tank and connected through an intermediate link mounted on a truck with the possibility of angular and translational movement, characterized in that its support is made cantilevered and it is equipped with an additional pipeline of identical design, between nye links of pipe made in the form of rigid pipes fixed in clamps mounted by means of roller bearings in the guide frames, mounted on a trolley frame with guides perpendicular to the guide bar.

2. The device according to claim 1, characterized in that the frame is mounted on a trolley by means of a hinge with an axis perpendicular to the rack rails, and the clamps are connected to the roller bearings by uniaxial hinges, the axes of which are perpendicular to the axis of the frame hinge.

3. The device according to p. 1 or 2, characterized in that the trolley is equipped with spring clips that interact with the sockets on the guide bearings.

This analogue holds back the flexible pipes along which the overflowing fluid moves. The proposed technical solution also involves the use of a flexible cylinder (flexible tube or pipe). However, the disadvantage of this device is its large weight due to the large number of parts, namely supports 1 in the form of a rack 2, console 3, horizontal guides (4, 8, 9), trolleys 5, axles 6, frames 7, pipelines (10, 11 ), pipes (12, 13), nuts 14, nozzles 15, clamps 16, trunnions 17, brackets 18, rollers 19, tool holders 20, holders 21, filters 22. Moreover, many of them are made of metal. For example, the support 1 in the form of a rack 2 is shown in the figure with scarves and a plate welded at the base, which can only be made of metal. In addition, the support itself must be secured with metal fasteners. Only one fixture by weight will exceed several times the design of the proposed technical solution.

Another analogue of this technical solution is a device for emptying containers (copyright certificate for the invention No. 356204, claimed January 27, 1970 (No. 1399108 / 23-26), IPC B65d 87/00).

A device for emptying containers, including a pipe for supplying compressed air and a pipe for draining the liquid, characterized in that in order to increase work efficiency, it is equipped with a housing and a sealing sleeve made of elastic material installed in the lower part of the housing along its perimeter.

The device for emptying containers along with other devices and parts includes a tube for supplying compressed air and a tube for draining the liquid. Similarly, the proposed device contains a cylinder, which can be in the form of a tube with the only difference being that it is a solid whole, not divided into two separate parts. The housing of this device for emptying containers has large overall dimensions and, accordingly, a large weight. Also, the valve 7, the tube 1 for supplying compressed air, the sealing sleeve 4 (which not only has large dimensions and correspondingly weight, but also carries additional fasteners and a pressure plate indicated in the drawing, but not mentioned anywhere else) increase the weight.

In addition, for the operation of this device, you must enter the following design changes:

- increase the hose 6 in length (since when covering the container 5 with the case 3, the hose 6 will not fall into the neck of the container 5, or in the case 3 make a transparent window with sealing gaskets, or other design options that in any case increase the weight of the proposed design);

- the tube 2 should be hermetically connected to the case 3, and for this the simplest and most reliable option is to weld a metal fitting to the case 3, having at the ends of the "Christmas tree" for putting on the hose 6 and tube 2 and fixing them with clamps, which also increases the weight of the structure . The same additional structural elements must be introduced for tube 1 - for supplying compressed air;

- an additional quick-release clamp is needed to ensure the tightness of the sealing collar 4 (with a supporting surface) to press it against the supporting surface, which will have significant dimensions due to the large diameter of the housing 3 and, accordingly, the weight, since it will need to be made of metal. Only one housing 3 of the device for emptying containers has a large weight (therefore, two handles are provided on the housing for lifting the housing by two operators) several times the weight of the proposed technical solution. As a result, in aggregate, a very large weight of the device for emptying containers is obtained (significantly exceeding the weight of the proposed technical solution), which is one of the disadvantages of this device.

Another analogue of this technical solution is a device for transfusion of liquids from containers (copyright certificate for the invention SU No. 1479410 A1, priority from 10/12/1987, IPC B67D 5/4).

A device for transfusion of liquids from containers containing a siphon pipeline with a valve, a bend connected to it with a valve, a piston with a rod mounted in it and an additional pipe connected to a siphon pipeline, characterized in that in order to increase productivity and reduce labor costs by eliminating idle strokes of the piston, it is equipped with a nozzle, one end of which is connected to the siphon pipeline under the valve, and the other to the under-piston cavity of the knee, the knee valve is installed in the place of its connection with a branch pipe, an additional pipeline is connected to the piston cavity, and the valves are spring-loaded.

The siphon pipeline with the valve of the device for transfusion of liquids from containers can be considered as an analogue of the proposed technical solution, in the sense that the siphon pipeline can be roughly taken as a cylinder (by weight), and a valve with a spring by a piston with a rod (by weight). Then all other parts of the device for transfusion of liquids will be additional, and each of these parts will further increase the weight of the device.

In addition, to create a vacuum in the sub-piston cavity by means of a piston and rod, this design involves the manufacture of them from metal (as shown in Fig. 1 of the above copyright certificate), and given that the technical solution provides increased productivity, the piston cavity must be increased (which additionally increases the weight of the structure). All this, together with two valves, springs, pipelines, pipe, provides a large weight of the device (significantly exceeding the weight of the proposed technical solution), which is a disadvantage of this device.

The next analogue is a device for transfusion of gasoline (patent for invention RU No. 20133367 C1, priority dated 04.17.1992, IPC B67D 5/04).

A gasoline transfusion device comprising a housing, an intake pipe connected thereto for communication with the intake tank, and means for displacing air from the housing, characterized in that the means for displacing the housing is made in the form of a container made of an elastic material, for example rubber, having a fitting located on the wall of the housing, while in the latter there is a hole for draining gasoline into a filled tank.

The device comprises a housing, an intake pipe, a fitting, a rubber balloon. The intake pipe of a gas transfusion device can be an analog of a cylinder (which is also a flexible tube) of the proposed technical solution, because it should be enough in length from the intake tank to the tank being filled. Therefore, the weight of the intake pipe of the device for transfusing gasoline can be roughly equated to the weight of the cylinder of the proposed technical solution. And the weight of the piston and rod of the proposed technical solution can be compared with the weight of the device for transfusion of gasoline, consisting of a metal body (including at least two nipples) and a rubber balloon. A nipple having an outer diameter of 20 mm according to GOST 16042-70 weighs 28.9 g.

In the proposed technical solution, the piston can be made, for example, of felt and with a diameter of 20 mm (2 cm) and a length of 10 mm (1 cm), its weight will be 0.95 g and a rod, for example, of a fishing line made of fluorocarbon with a diameter of 1 mm ( 0.1 cm) and a length of 5600 mm (560 cm) will be 7.92 g. Obviously, the weight of the rod and piston combined (8.87 g) is 3.26 times less than the weight of one nipple according to GOST 16042-70. Thus, the weight of the device according to the proposed technical solution is significantly less than the weight of the device for transfusion of gasoline.

In addition, for the device to work, you must:

- the intake pipe must be tightened on the nipple (which is shown on the drawing, but not indicated) of the housing (to ensure tightness), or the intake pipe on the nipple of the housing must be secured with a clamp with fasteners (and this is an increase in weight);

- the rubber bottle must be tightened on the nipple (to ensure tightness), or the intake pipe on the body nipple must be fixed with a clamp with fasteners (and this is an increase in weight);

- the housing must also be airtight, including its connection with the housing nipple and with the rubber cylinder nipple. And this is possible in the case of a metal case (and this is an increase in weight);

- the body nipples must be metal and welded to the body so that their connections to the body are tight.

All these additional necessary structural ones further increase the already large weight of the petrol transfusion device.

In addition, the authors do not exclude the use of a pump, which further increases the weight of the device. Providing these technical requirements makes the device significant in weight, which is one of the disadvantages of this technical solution.

Another analogue of the claimed technical solution is a device for transfusion of fluid (patent for invention RU No. 2452684 C2, priority of 04/20/2010, IPC B67D 7/00).

1. A device for transfusion of liquid containing a first pipeline, the first end of which is the first end of the device, the second end of the first pipeline is connected to the first end of the start-up block, the second end of which is an additional end of the device, characterized in that the second pipeline and the tap are inserted into it, the first end of the second pipeline is connected to the third end of the launch block, the second end of the second pipeline is connected through a tap to the second end of the device.

2. The device according to claim 1, characterized in that the launch unit comprises a first tap, an air inlet, a tee and a second tap, the second end of the second tap is the first end of the trigger, the third end of the tee is the third end of the trigger.

3. The device according to claim 1, characterized in that the start-up unit comprises a vacuum pump and a tee connected in series, the second end of the tee is the first end of the start-up unit, the second end of the vacuum pump is the second end of the start-up unit, the third end of the tee is the third end of the start-up unit.

One of the main disadvantages of this device is its significant weight, since the device includes a vacuum pump (which contains a rubber bulb, two exhaust valves, a liquid level indicator already has a decent weight), an air intake (which also has a significant weight, as it is made in in the form of a pipe of the required volume), pipelines, etc. Therefore, it is obvious that the weight of the device for transfusion of liquid (patent for invention RU No. 2452684 C2, priority of 04/20/2010, IPC B67D 7/00) will significantly exceed the weight of the proposed technical solution.

The closest analogue (prototype) of the claimed technical solution is a device for transfusion of liquid (copyright certificate for the invention SU No. 1094850 A, priority of 02/08/1983, IPC B67D 5/4).

A device for transfusion of liquid, containing a cylinder, a piston and a hose connected to it, characterized in that in order to reduce the loss of overflowing fluid, a drain hole is made in the cylinder wall that is not covered by the piston when it is in dead spots.

The device consists of a metal cylinder with a drain hole and a hose, a drain metal tip (welded to the cylinder) with a drain hose and a metal lock nut. The disadvantage of the prototype is the significant weight of the device due to the fact that the cylinder, lock nut, drain tip, piston are made of metal. In addition, in order for the prototype device to actually work, the following design changes are required:

- the cylinder should not have a blind hole, but a through hole, because when welding the drain metal tip with the cylinder, the cylinder will deform, including its internal cavity. And the resulting ovality of the inner surface of the cylinder will need to be removed mechanically in a special device, which will require an increase in the thickness of the cylinder wall;

- there must be a thread on the second end of the cylinder;

- a threaded plug with a sealing gasket (ring) is required, since if there is no sealing in the threaded plug and cylinder, the vacuum will not be created;

- a sealing gasket (ring) is also needed to connect the metal lock nut and cylinder (since if there is no sealing in the connection the lock nut and cylinder, a vacuum will not be created).

All of the above structural changes of the prototype will further increase the already increased weight of the device (due to an increase in both the thickness of the cylinder wall and additionally appearing parts).

A comparative analysis of the design of the proposed technical solution and prototype gives the following:

- let's say the length and inner diameter of the cylinder (the proposed technical solution) and the length and inner diameter of the drain hose and the hose (prototype) are the same, because they solve the same problems - provide an enclosed space to create a vacuum and the subsequent movement of the overflowing liquid over it, therefore, in the calculation we will not accept them;

- put the remaining prototype parts on one weighing pan: a metal cylinder, a drain metal tip (welded to the cylinder), a metal lock nut, a threaded plug for the cylinder, a gasket (ring) for the threaded plug and cylinder, a gasket (ring) for the metal retainer nuts

- and on the other side of the scale we place the remaining parts of the proposed technical solution: a piston, for example, of felt with a diameter of 20 mm (2 cm) and a length of 10 mm (1 cm) and a rod, for example, fishing line with a diameter of 1 mm (0.1 cm) and 5600 mm long (560 cm) from fluorocarbon.

The weight of the piston from felt with a diameter of 20 mm (2 cm) and a length of 10 mm (1 cm) will be 0.95 g, and the weight of the rod, for example, from a fishing line of fluorocarbon with a diameter of 1 mm (0.1 cm) and a length of 5600 mm (560 cm) will be 7.92 g. The total weight of the rod and piston will be 8.87 g. If we look at the weight of one nut (included in the design of the prototype), for example M20 GOST 5915-89, is 62.2 g. And in the prototype there are two, counting the weight of the rest of the prototype parts is already losing its meaning.

And it turns out that the weight of only one nut of the prototype is 7.02 times greater than the total weight of the piston and rod of the proposed technical solution. Thus, the weight of the device for transfusion of liquid (copyright certificate for the invention SU No. 1094850 A, priority dated 08.02.1983, IPC B67D 5/4) of the prototype significantly exceeds the weight of the proposed technical solution.

Disclosure of invention

A device for transfusion of liquid (hereinafter referred to as the device) contains a cylinder, a piston, a rod.

The aim of creating the proposed technical solution is to reduce the weight of the device.

In addition, the device and its versions will reduce the time from placing the device into the overflowing liquid until the liquid exits the device (due to the fact that the flexible and tight piston creates a vacuum with the beginning of its movement and forces the liquid to move along the flexible cylinder - which is not found in any today produced or operated device for transfusion of liquid and the claimed patented technical solutions); reduce dimensions; increase reliability (due to the very simple design of the device and the parts included in it, as well as the elimination of the appearance of air jams); take up little space during transportation (due to the flexibility of the cylinder, piston, rod); to pour liquids from hard-to-reach places (due to the flexibility of the cylinder, piston, rod); does not require electricity and other energy sources; does not require large expenditures of physical energy (since you do not need to rotate the handle of the device, either raise and lower the handle or constantly use your foot, as happens in manual pumps for transfusion of liquid, since the proposed technical solution only needs to be pulled by the rod); work the proposed device most of the time offline, which allows you to simultaneously perform other types of work and ultimately increase productivity; fully ensure electrical safety during liquid overflow; pour liquid when the level of the container where the liquid is poured is higher than the level of the container from which the liquid is poured; the device case does not corrode with gasoline and other liquids; significantly increase the service life; allows you to expand the scope, for example, you can transfuse water (both drinking and distilled), wine, milk, regulate the environment of the reservoir (when chlorella is released into the reservoir), in summer cottages (if there is no tap in the tank), and when keeping the aquarium (drain water from the aquarium), etc.

This technical result is achieved due to the fact that the outer surface of the piston, without a gap adjacent to the inner surface of the cylinder, changes its shape identically to the changing inner surface of the cylinder at any location of the piston, and the rod, which changes its shape, is rigidly connected at one end to one part of the piston.

Suppose we remove from the proposed technical solution

- one of the structural elements (and any);

- arrangement of elements;

- the relationship between the elements.

In this case, we will not only not receive the claimed technical results, the claimed device simply will not work.

Suppose the outer surface of the piston would abut against the inner surface of the cylinder not without a gap, but with a gap. In this case, the device would simply not work due to the fact that there would not be a vacuum in the internal cavity of the cylinder. If the outer surface of the piston did not change its shape identically to the changing inner surface of the cylinder at any location of the piston, that is, the outer surface of the piston and the inner surface of the cylinder would not be flexible, then it would not be possible to reduce the weight (in comparison with the prototype and analogues), and to ensure the operability of the claimed device. Using, for example, GOST 6308-71 felt as a piston, which, in addition to easily changing its outer shape (which ensures the operability of the device), it has a small specific gravity (0.28 plus minus 0.02) g / cm ³ , which provides a significant reduction in weight of both the piston itself and the device as a whole. So, the weight of a piston made of felt with a diameter of 20 mm (2 cm) and a length of 10 mm (1 cm) will be 0.95 g. If the rod, changing its shape, were not able to change its shape, then this would not significantly reduce the weight (compared with the prototype and analogues), as well as ensure the operability of the claimed device (because if the piston could not change its shape, would not be flexible, the piston would jam even in a flexible cylinder). If the rod at one end were not rigidly connected to one part of the piston, then the inventive device simply would not work. So, the piston can be made, for example, of fishing line with a diameter of 1 mm, and as a material, for example, fluorocarbon having a specific gravity of 1.78 g / cm ³ . Fluorocarbon works in the temperature range from minus 40 to plus 160 ° C, is resistant to chemical and physical aggressive environments. The weight of a rod from a fluorocarbon fishing line with a diameter of 1 mm (0.1 cm) and a length of 5600 mm (560 cm) will be 7.92 g. This is a fairly small weight. The cylinder can be made, for example, from a silicone medical tube (hereinafter TCM), having the following technical characteristics:

- density 0.2-1.3 g / cm ³ ;

- retain their elasticity up to minus 60 ° С, working capacity up to plus 300 ° С;

- available in three degrees of hardness: soft - 40 units. by Shore A; average - 60 units. by Shore A; solid - 70 units. by Shore A;

- tensile strength at break - 5-35, kg / cm ² ;

- elongation at break - 250 ÷ 500 or more%;

- TSM with increased flexibility, 10-20 conv. units by Shore A.

Silicone tubes are available: food, medical, technical, namely oil-, alcohol-, alkali-, acid-, heat-resistant.

They have a long service life. The tubes are elastic, have a smooth surface, without foreign inclusions, dents, pores, cracks. Available in internal diameters from 2 to 25 mm, wall thicknesses from 1 to 4 mm. Example, a tube with an internal diameter of 15 mm, a wall thickness of 2 mm and a length of 7 m weighs 1 kg. That is, in reality, a 2 m long tube weighs only 290 g. Thus, if the device consists of a piston (felt with a diameter of 20 mm (2 cm) and a length of 10 mm (1 cm)), a rod (a fishing line made of fluorocarbon with a diameter of 1 mm (0 , 1 cm) and a length of 5600 mm (560 cm)) of the cylinder (TCM tube 2 m long), then its weight will be 298.87 g. Thus, the actual dimensions of the proposed device once again prove that its weight is significantly less than the weight of the device prototype, analogs and products on the market. The piston, rod and cylinder can be made of other materials.

Variant of execution, where the second end of the rod, part of which is located outside the cylinder and outside the length of the cylinder, is rigidly connected to the opposite part of the piston, forming a closed line, allows the piston to act as a valve (if you need to dispense the liquid into a different container dosed) and without removing devices from the overfilled container, insert the device into another overfilled container and overfill. As a result, with a slight increase in the weight of the device, the embodiment allows to increase the productivity of the device (due to the fact that you do not need to completely remove the device from one container, then to pour it into another container) and dose the overflowing liquid (when, pulling the rod in the form of a closed lines, the piston moves towards the cylinder, its entry into the internal cavity of the cylinder and the free movement of the liquid is blocked).

The embodiment along with the above advantages can also significantly reduce the weight of the proposed device.

The proposed technical solution is industrially feasible, compact, developed using modern materials, has a very low weight.

Specific application, this technical solution can be found: in all machine-building enterprises of the Russian Federation, near and far abroad and other enterprises that use flammable liquids in their production (flammable liquids, namely solvents, alcohols, etc.), coolant (and namely water-soluble, mineral, semi-synthetic, etc.) and other liquids. Today coolant is used in aggregate, grinding, drilling, broaching machines. A coolant or flammable liquid is supplied, as a rule, in 200-liter barrels (for example, Perm Perm Lubricant and Coolant Plant) or in Germany the Zeller + Cmel plant in 50-205 liter barrels. And at the consumer enterprises, from the supplied barrels, first, using hand pumps, they are pumped to other containers, from which they are then pumped (or manually poured) to machines or used in the technological process.

Today on the market there is a large range of hand pumps for overflowing various liquids with a large weight, for example, the GROZ GR44052-GNB-25 / 3RSPL manual rotary oil pump (see INTERNET), made in India, has a large weight, namely 6 kg. In addition, these pumps have a number of other disadvantages that limit their use, for example:

- short service life (since all pump parts are plastic and in order for them to work for a long time, high precision of manufacturing both the parts themselves and the manufacture of housings is necessary, since the axis parallelism (usually of the gear pump) must be ensured with a high accuracy class ; in addition, pumps may be damaged due to accidental impact; in addition, some pumps require cleaning after each transfer);

- a lot of preparatory time (since you first need to install a hand pump on the barrel, then fix it);

- a large time for creating a vacuum (in the proposed device with the beginning of the movement of the piston, the overflowing liquid begins to move, that is, the vacuum is created with the movement of the piston);

- low reliability (due to the large number of parts having insufficient strength, in addition, the design itself does not exclude jamming, etc.);

- large dimensions;

- do not allow to transfer liquids from hard-to-reach places;

- requires a large expenditure of physical energy (since you need to constantly rotate the handle of the device, or to constantly raise and lower the handle, or to constantly use your foot);

- do not allow to increase labor productivity;

- do not allow to expand the scope without changing the design, etc.

All of these drawbacks are deprived of the proposed technical solution, which solves the same problems as the above-mentioned hand pumps on the market to transfer liquids from one tank to another, while having significant technical advantages.

Therefore, the proposed device for transfusion of liquid meets the criterion of "industrial applicability".

The use of significant differences in the designs of the above proposed not only significantly reduces the weight of the claimed device, but also makes it compact and obtain many other technical results that are absent from the prototype and analogues.

The set of distinctive features of the claimed device is not found in the patent and scientific literature. Therefore, the proposed device has significant differences.

Brief Description of the Drawings

FIG. 1 - device with a one-way rod.

FIG. 2 - a device with the location of the rod in a closed line.

The implementation of the invention

Fluid Transfusion Device FIG. 1 contains a cylinder 1, a piston 2, a rod 3.

In the idle position, the device of FIG. 1 for transfusion of a liquid containing a cylinder 1, a piston 2, a rod 3, may have three options:

- the piston 2 with the rod 3 are located outside the inner part of the cylinder 1 (that is, separately from the cylinder 1);

- the piston 2 with the rod 3 are located in the inner cavity of the cylinder 1;

- the piston 2 is located outside the inner part of the cylinder 1 (that is, separately from the cylinder 1), and the rod 3 is located in the inner cavity of the cylinder 1.

In the working position, the rod 3 (changing its outer shape, one end is rigidly connected to one part of the piston 2) is partially located in the inner cavity of the cylinder 1 and the part extends beyond it. In the working position, the piston 2 can be located either inside the cylinder 1, either at the very end of the cylinder 1, or beyond, and in any of these positions part of the cylinder 1 with the piston 2 (in any of the indicated positions) and the rod 3 are lowered into the container ( for example, in a 200 liter barrel with coolant), from which the liquid should be poured. The second end of cylinder 1 (where the rod 3 extends beyond cylinder 1) is inserted into the opening of the container (for example, 20 liter if this coolant is subsequently transferred to a horizontal type aggregate machine) into which liquid is poured. Then the operator, taking cylinder 1 with one hand (which can be used, for example, is a medical silicone tube with an internal diameter of 20 mm and a length of, for example, 2 m (the length can be different and is determined by the volume of the containers, the distance between the containers from where the liquid is poured and where the liquid is poured, as well as the amount of the poured liquid), and with the other hand begins to pull the rod 3 (which can be made, for example, from a fluorocarbon fishing line with a diameter of 1 mm (0.1 cm) and part of which extends beyond the length of cylinder 1 before starting work) “to yourself” until the piston 2 exits (which can be made, for example, of felt GOST 6308-71, if it is poured, for example, coolant) from the bore of the cylinder 1 and the appearance of the poured liquid. Moreover, when the piston 2 moves along the surface of the cylinder 1, the outer surface of the piston 2, without a gap adjacent to the inner surface of the cylinder 1, changes its shape identically to the changing inner surface of the cylinder 1 at any location of the piston 2, and the rod 3, which changes its shape, is rigidly connected to one end by one end bore piston 2. That is, along the entire path of movement of the piston 2 along the inner surface of the cylinder 1, its outer diameter should fit snugly against the inner surface of the cylinder 1 (tube). So there is a transfusion, for example, coolant from a 200-liter barrel into a 20-liter capacity.

In the embodiment of the device of FIG. 2, when the second end of the rod 3, part of which is located outside the cylinder 1 and outside the length of the cylinder 1, is rigidly connected to the opposite part of the piston 2, forming a closed line, the device is always in the working position. Device Operation FIG. 2 is similar to the work of the basic design, which allows for the delivery of liquid in a dosed manner.

Thus, due to the design features of the device for transfusion of the liquid, or rather its significant differences, it is not only possible to reduce weight, but also to make the device compact; increase reliability; work offline; increase labor productivity; to pour liquids from hard-to-reach places; as well as the device does not require energy costs, does not require large expenditures of physical energy, fully ensures electrical safety during liquid overflow, expands the scope.

Claims (2)

1. A device for transfusion of liquid containing a cylinder, piston, rod, characterized in that the outer surface of the piston, without a gap adjacent to the inner surface of the cylinder, changes its shape identically to the changing inner surface of the cylinder at any location of the piston, and the rod, changing its shape, one end is rigidly connected to one part of the piston. 2. A device for transfusion of a liquid according to claim 1, characterized in that the second end of the rod, part of which is located outside the cylinder and outside the length of the cylinder, is rigidly connected to the opposite part of the piston, forming a closed line.

Images