RU121532U1 - SCREW PUMP FOR DRAINING HIGH-VISCOUS OIL PRODUCTS FROM BARRELS - Google Patents

Abstract

1. A screw pump for draining high-viscosity oil products from barrels with a fixed diameter of the drain-filler neck, containing a cylindrical housing with an outlet pipe made in the pressure cavity of the pump housing, a screw with a hollow shaft installed in the housing and a heating element located on the outer surface of the housing, covering the suction a pump cavity, characterized in that it additionally contains a pump attachment unit in the discharge and filler neck of the barrel, made in the form of a plug having the shape of an inverted truncated cone with a central axial hole, in which the cylindrical pump casing is placed with the possibility of longitudinal movement and fixation at a given depth, holes are made in the wall of the hollow shaft in the area of the pump pressure cavity, which communicate the pump pressure cavity with the shaft cavity, in the lower part of which a safety valve is additionally installed, on the outer surface of the pump attachment plug in the discharge-filling neck of the barrel side-to-side through grooves, and on the inner surface - a longitudinal channel in which the electric power supply wire of the heating element is located, closed by a casing, the outer diameter of which is less than the diameter of the drain-filling neck of the barrel, while the open end of the pump casing below the level of the safety valve installation is made with vertical windows closed with a metal mesh in the form of a cylindrical glass. ! 2. A screw pump for draining high-viscosity oil products from barrels according to claim 1, characterized in that the unit for fixing the cylindrical body at a given depth is made in the form of an annular clip located

Description

The utility model relates to screw pumps for draining highly viscous petroleum products, in particular motor oils from barrels with standard discharge and filler necks, and can be used for pumping any highly viscous liquids from containers having discharge and filler necks identical to drain and filler necks of barrels.

High viscosity motor oils for automotive engines include oils with kinematic viscosity at 100 ° C from 8.5 mm ² / s (cSt) and higher, the pour point of which is from minus 15 to minus 45 ° C. (1. GOST RV 50920-2005. Fuels, oils, lubricants and special fluids. A restrictive list and procedure for the assignment of weapons and military equipment. 2. Kushnirenko KF A brief guide to fuel. - M.: Military Publishing, 1989, p. 26-31).

Motor oils and a number of other oils are characterized by the fact that their kinematic viscosity sharply increases with decreasing temperature, and, consequently, the fluidity of the oil decreases sharply, especially at subzero temperatures. So, for example, if the kinematic viscosity of M-4 ₃ /14-D engine oil at plus 100 ° C is 14 mm ² / s (cSt), then at a temperature of 0 ° C - 850 mm ² / s (cSt), and at at a temperature of minus 10 ° С, it increases by more than 2.3 times compared with the viscosity at 0 ° С and amounts to 1970 mm ² / s (cSt).

Motor oils, as a rule, are stored in standard 200-liter barrels and for delivery to consumers they need to be packaged in smaller containers, and this requires special pumps to drain the oil from the barrel, both at positive and at negative temperatures.

From the analysis of domestic screw pumps it follows that they have large dimensions and are used either to drain viscous liquids from containers with a large diameter of the discharge pipe, or to collect spills from the soil surface, or to pump viscous liquids, including fuel oil, from open containers and are not suitable for draining liquids from barrels having a standard drain and filler neck with a diameter of 65 mm (Chebaevsky V.F., Vishnevsky KP, Nakladov NN, Kondratiev VV Pumps and pumping stations. Textbook - M .: Agropromizdat, 1989 .-- 416 p.).

Foreign-made barrel screw and screw pumps designed for pumping viscous petroleum products can only work at a positive temperature of the product. In addition, these pumps are either not equipped with a safety valve built into the pump, or have a safety valve in the kit, which is installed on the pump outlet. To ensure the operation of the pump with the valve installed, an additional tank is required to be discharged into the oil at the closing of the dispensing tap (Barrel and container pumps of the Lutz company. Germany, Advertising information of SamaraElectroMash CJSC).

The authors were faced with the task of developing a simple-design, reliable and efficient screw pump in operation, which would ensure the discharge of engine oil from barrels with a standard drain and filler neck in the field at an ambient temperature below 0 ° C.

When analyzing patent information, technical objects were identified that partially solve the task.

Known screw pump-mixer, comprising a housing with primary and secondary nozzles for supplying materials and a receiving chamber to which a branch pipe is connected. A screw is installed in the housing, connected to the drive shaft and having a screw cavity and a hollow hub with holes, and seals. The pump is equipped with shut-off elements bypass lines that communicate with the receiving chamber with the inlet area of the screw. The cavity of the auger hub is open from the side of the receiving chamber, and through holes made in the form of discharge windows and located one relative to the other at an angle of 120 °, offset along the axis, the cavity of the hub is in communication with inter-turn cavities of the auger. The screw hub is installed in bearing assemblies located on the motor shaft and receiving chamber side and protected by seals (RU patent No. 2232298 C1, class F04D 3/02, 7/00, 07/10/2004).

The disadvantages of this pump include the impossibility of installing it inside the barrel through the neck due to the presence of bypass lines used to equalize the pressure, and a decrease in performance due to the presence of discharge windows located on the auger hub through which fluid flows continuously from the receiving chamber to inter-screw cavity of the entrance zone screw.

Known screw pump for cleaning viscoplastic and silt-sand masses, containing a housing in the cylindrical cavity of which a movable screw is installed, having a single-input and multi-input screw blades at the output. The one-way part is covered by a blade feeder having coaxially arranged shafts and various rotational speeds with the screw; the latter are connected to the coaxial output shaft of the gearbox. The output shaft of the gearbox is connected to the drive. The feeder is covered by a fixed lattice case. The blade of the single-running part of the screw along the outer perimeter from the side of the body is equipped with a side attached to its lifting surface at an angle from 90 to 140 °. The height of the side can be from 10 to 60% of the pitch of the single-start part (patent RU No. 2194881 C1, CL F04D 7/00, 3/02 12/20/2002).

The disadvantages of this pump are:

design complexity;

unreliability in operation due to the lack of pressure relief devices at the outlet of the multi-start part of the screw blades when the outlet pipe is blocked;

the inability to pump highly viscous products at low temperatures, due to the lack of a heating device.

The closest in technical essence to a utility model and taken as a prototype is a screw pump N. Zemlyakova with a heated feeder (patent RU No. 2320895 C1, class F04D 7/00, 3/02, 29/58, 09/13/2006 - prototype).

A screw pump with a heated feeder comprises a housing equipped with a tangential outlet pipe, and a screw located in the housing with the possibility of free rotation, while the screw is made of inlet single-entry and outlet double-entry parts. The output part of the screw is placed in the cylindrical cavity of the housing. The inlet part of the screw protruding from the housing is covered by a fixed trellised casing. The blades of the inlet part of the screw are made with sides. The internal cavity of the housing along the entire length is equipped with a replaceable tubular insert having several through holes on the side surface. One hole is combined with the hole of the outlet pipe and several parallel with each other and the axis of the through grooves with a rectangular or shaped profile in cross section. The inlet part of the auger is equipped with an easily removable blade feeder. On top of the trellised casing of the feeder, the pump is equipped with a removable tubular steam heater or an electric heating element.

The disadvantages of this screw pump are unreliability in operation due to the lack of a device that provides pressure relief when the outlet pipe is blocked, the design complexity, expressed by the presence of different input and output parts of the screw, and it is also impossible to install this pump in a barrel with a standard discharge and filler neck with a diameter of 65 mm due to the presence of a tubular heating element located on the outside of the fixed grid casing.

The technical result of the utility model is to simplify the design, increase the reliability and operating efficiency of the screw pump.

This technical result is achieved by the fact that a screw pump for draining highly viscous oil products from barrels with a guest diameter of the filler neck, comprising a cylindrical body with an outlet pipe made in the pressure cavity of the pump housing, a screw with a hollow shaft installed in the housing, and placed on the outer surface of the housing the heating element, covering the suction cavity of the pump, according to a utility model further comprises a pump mounting in the drain-filler neck of the barrel, made in the form of a tube having the shape of an inverted truncated cone with a central axial hole, in which the cylindrical pump casing is placed with the possibility of longitudinal movement and fixing at a predetermined depth, holes are made in the wall of the hollow shaft in the zone of the pressure cavity of the pump, which communicate the pressure cavity of the pump with the shaft cavity, in the lower part of which a safety valve is additionally installed, longitudinal through grooves are made on the outer surface of the plug of the pump mounting unit in the drain-filler neck of the barrel, and inner surface - a longitudinal channel in which the power supply wire of the heating element is enclosed, closed, the outer diameter of which is smaller than the diameter of the drain and filler neck of the barrel, while the open end of the pump housing below the installation level of the safety valve is made with vertical windows and closed with a metal mesh in the form of a cylindrical cup, as well as the fact that the fixation unit of the cylindrical body at a given depth is made in the form of an annular clamp placed above the cork of the mount Asosa to drain filler neck-drums.

In FIG. 1 shows a screw pump for draining high-viscosity oil products from barrels (sectional view);

FIG. 2 - the same (view along AA in FIG. 1);

FIG. 3 - node A in FIG. one;

FIG. 4 is a view along BB in FIG. 3 without metal mesh (the bearing of the sliding bearing is rotated by 45 °);

FIG. 5 is a view along BB in FIG. 3 without metal mesh.

A screw pump for draining highly viscous petroleum products from barrels contains a cylindrical housing 1, in the lower part of which there is a suction, and in the upper part, a pressure cavity (without positions). The outlet pipe 2 is made in the pressure cavity of the housing 1. In the housing 1, a dual-entry screw 3 is installed with free rotation, the screw blades of which are fixed to the hollow shaft 4. The screw blades of the screw 3 in the upper part end at the level of the lower generatrix of the output pipe 2. In the lower part of the hollow shaft 4, a normally closed safety valve 5 is installed, and holes 6 (at least two) are made in the wall of the hollow shaft in the area of the pump pressure cavity, for communicating the pressure cavity of the pump with the shaft cavity 4. In the lower part indricheskogo body 1 is provided with two vertical windows 7 for receipt of oil into the suction chamber of the pump housing. The windows 7 and the lower open end of the cylindrical body 1 are closed with a metal mesh 8 made in the form of a cylindrical removable cup mounted on the body 1 with screws (without positions). On the outside of the cylindrical body 1 in its lower part above the metal mesh 8, an electric heating element 9 with a power of 2 kW is installed, protected by a casing 10, the outer diameter of which is smaller than the diameter of the drain and filler neck of the barrel. The casing 10 protects the electric heating element 9 from mechanical damage during installation of the pump housing 1 in the barrel and its removal from the barrel. The power to the heating element is supplied through an insulated electric wire 11 with a cross section of 2.5 mm ² , protected from mechanical damage by a protective casing 12. On the cylindrical body 1 with a possibility of longitudinal movement, a pump mount is installed in the drain-filler neck of the barrel, made in the form of a plug 13, having the shape of an inverted truncated cone with a central axial hole (without position) and longitudinal grooves 14 (at least four) on the outer surface, necessary to ensure air flow into the barrel ku during oil drain. A longitudinal channel 15 is made on the inner surface of the central axial hole of the plug 13, which is necessary for accommodating the electric wire 11 and the protective casing 12. The longitudinal grooves 14 in the cross section have a rectangular profile, and the longitudinal channel 15 in the cross section is semicircular in shape. The outer diameter of the lower base of the plug 13 is 6-8 mm less than the diameter of the drain and filler neck of the barrel, which allows you to insert the plug 13 into the drain and filler neck of the barrel at least ½ of its height. A plug 13 inserted into the neck of the barrel holds the pump housing 1 in an upright position.

As the material for the manufacture of cork 13, any polymer materials with an elastic modulus of at least 4-10 ³ kg / cm ^{2 are used} . Alternatively, aluminum and its alloys can be used.

To limit the movement of the cylindrical body 1 inside the barrel in height, there is a fixing unit made in the form of a clamp 16 with a wing nut (without position), which is placed above the plug 13. Clamp 16 can be made of mild steel in the form of a band clamp.

The hollow shaft 4 of the screw in the lower part of the pump housing 1 is placed in a sliding bearing 17, the support 18 of which is fixed in the cylindrical housing 1 with screws (not shown). The upper part of the hollow shaft 4 is rigidly connected to the shaft shaft 19, the outer diameter of which is smaller than the diameter of the hollow shaft 4. The shaft shaft 19 is fixed in the rolling bearing 20 and is protected from the pumped oil product by the stuffing box seal 21 and the metal disk 22. A coupling half 23 is installed at the end of the shaft shaft 19. for connecting a pump drive, which uses an AC electric motor, the power of which must be at least 0.75 kW, while the pump capacity must be at least 10 l / min at a temperature ature of heated oil plus 5 ° C and a pressure of 0.05 MPa.

The safety valve 5, located in the lower part of the hollow shaft 4 (Fig. 1 and 3), consists of a cylindrical support 24, screwed into the wall of the hollow shaft 4 and having a Central hole (without position), which overlaps the locking element in the form of a ball (without position ) with a spring 25 mounted on a support 26 with holes (without positions) and screwed into the wall of the shaft 4 identical to the support 24.

Due to the fact that the screw pump is used to drain oil from standard 200-liter barrels (GOST 6247. Steel barrels, welded with hoops on the shell), having a height of 870 mm, the length of the cylindrical housing 1 of the pump from the bottom to the outlet 2 must be at least the height of the barrel.

Thus, the inventive screw pump in comparison with the prototype is simpler in design, and the additional installation of the safety valve 5 in the cavity of the screw 4, the attachment point of the pump housing in the neck of the barrel and its fixation at a given depth increases the reliability and efficiency of its operation.

The pump is operated as follows.

As a rule, motor oils are stored in warehouses and bases in standard 200-liter barrels in heated and unheated storages, and a screw pump complete with an electric motor, meter, hose and dispensing tap are stored in wooden boxes.

To drain engine oil from the barrel, an oil-benzo-resistant hose with a dispensing valve (not shown) is connected to the pump outlet 2. If it is necessary to account for the amount of oil dispensed, a liquid counter (not shown) is first connected to the outlet pipe 2, to which a hose with a dispensing valve is then connected.

Cylindrical pump housing 1 is lowered into the barrel to a predetermined depth, while the plug 13 is inserted into the neck of the barrel and using the ring clamp 16 fix the position of the pump housing 1. The immersion depth of the pump housing 1 is determined by the task of complete or partial drainage of oil from the barrel.

If the oil temperature is above 0 ° C, then after installing the pump housing 1 in the barrel, the electric motor is turned on and the oil is completely or partially drained from the barrel. If the oil temperature is 0 ° C or lower, the heating element 9 is turned on, and the electric motor is turned on 20-40 minutes after the heating element is turned on. The time for heating the oil to a fluid state depends on the immersion depth of the pump housing 1 in the barrel and the oil temperature. So, for example, when the immersion depth of the pump housing 1 is half the barrel height and the oil temperature is minus 10 ° C, as shown by the test results, the heating time of the upper layers of oil to a temperature of plus 5 ° C is 20-25 minutes.

Heated and less viscous oil by gravity enters the suction cavity of the pump and is fed into the pressure cavity of the pump by a rotating screw 3, while through the holes 6 in the upper part of the shaft 4 the oil fills its cavity. When the dispensing tap is open, the oil is poured into another smaller container or the engines of the units are filled with engine oil.

When the dispensing valve is closed for a short time and the pump is running, the pressure in the pressure chamber of the pump above the screw 3 increases and is transmitted through the holes 6 to the shaft cavity 4. At a pressure of 0.08 MPa, the safety valve 5 opens and the oil returns from the pressure cavity to the pump suction cavity.

In the process of draining the oil from the barrel, air enters its cavity through the longitudinal grooves 14 located on the outer surface of the plug 13.

The use of the claimed utility model improves the reliability and efficiency of the screw pump.

Claims (2)

1. A screw pump for draining highly viscous petroleum products from barrels with a guest diameter of the filler neck, comprising a cylindrical body with an outlet pipe made in the pressure cavity of the pump housing, a screw installed in the housing with a hollow shaft and a heating element located on the outer surface of the housing, covering the suction pump cavity, characterized in that it further comprises a pump mount in the drain and filler neck of the barrel, made in the form of a tube having the shape of an inverted truncated of the cone with a central axial hole in which the cylindrical pump casing is placed with the possibility of longitudinal movement and fixing at a predetermined depth, holes are made in the wall of the hollow shaft in the zone of the pump pressure cavity, which communicate the pump pressure cavity with the shaft cavity, in the lower part of which there is an additional safety a valve, longitudinal through grooves are made on the outer surface of the plug of the pump mounting unit in the drain and filler neck of the barrel, and on the inner surface is a longitudinal channel in which ohm arranged electrically power the heating element, the closed casing, an outer diameter smaller than the diameter of the drain-bulk mouth barrels, and the open end of the pump housing below the level of installation of the safety valve is configured with vertical windows and covered with the metal mesh in the form of a cylindrical cup. 2. A screw pump for draining highly viscous petroleum products from barrels according to claim 1, characterized in that the fixation unit of the cylindrical body at a predetermined depth is made in the form of an annular clamp located above the plug of the pump attachment in the drain and filler neck of the barrel.