RU90119U1 - HYDRAULIC PUMP PUMP - Google Patents

Abstract

1. A hydraulic metering pump, comprising a supercharger, containing a suction chamber, a pressure chamber and a positive displacement pump with a working body, the working chamber of which is in communication with said chambers, and a drive connected to the supercharger, made in the form of an electro-hydraulic device that converts electrical energy into mechanical and consisting of an electric motor and a transmission mechanism for transferring energy to a supercharger, characterized in that as a volumetric reciprocating pump it is equipped with holds a plunger or diaphragm pump, and the drive is made in the form of a transmission mechanism connected to each other, enclosed in a housing, and an electric motor located outside the specified housing, as a transmission mechanism, the pump contains a unit connected to the electric motor that converts electrical energy into mechanical energy and a spring-loaded rod with a piston made with the possibility of reciprocating movement under the action of the specified mechanical energy, while the spring-loaded rod is connected directly to working body volumetric reciprocating pump. ! 2. The pump according to claim 1, characterized in that the unit that converts electrical energy into mechanical energy is made in the form of an impeller or in the form of an oil or gear pump. ! 3. The pump according to claim 1, characterized in that, as a working body, the plunger pump contains a plunger with a rod. ! 4. The pump according to claim 1, characterized in that as a working body, the membrane pump contains a membrane with a mechanism for its movement. ! 5. The pump according to claim 1, characterized in that between the casing and the working body volume

Description

The invention relates to a technique for dispensing liquid media with dispensing devices, mainly of a plunger or membrane type, intended for dispensing chemically active liquids, and can be used mainly in the oil and gas industry as a part of equipment for supplying a chemical reagent, for example, surfactants, inhibitors of salt and paraffin deposits, corrosion inhibitors, demulsifiers, etc.

Known metering pump hydraulic plunger type, mounted on a well reinforcement (RF Patent No. 2142553, CL ЕВВ 37/04, from 1995). The supply of reagent to the well is controlled by changing the diameter of the pump plunger and by adjusting the adjustable stop.

The disadvantage of this known pump is the difficulty of regulating the flow of reagent into the well, since for each new treatment of the well, the pump needs to be disassembled for adjustment.

Also known are hydraulic metering pumps of the plunger type for volumetric pressure dosing of various liquids, including chemically active ones, consisting of a supercharger in the form of a plunger pump and an associated drive (Passport Н52.001.00.000 PS “Electric pump dosing units of type DP ( E) ”(manufacturer of Perm“ Dosing Systems and Pumps ”). The control of the supply of chemical reagent in these well-known metering pumps is carried out by changing the stroke length of the plunger. In addition, the feed can be regulated automatically remotely by changing the number of strokes of the plunger using a frequency converter due to a stepless change in the frequency of rotation of the drive motor shaft.

However, these known metering pumps have the following disadvantages:

- they include a complex mechanism for converting the rotational movement of the shaft of the drive motor into reciprocating motion of the plunger and a mechanism for changing the stroke length of the plunger;

- regulation of the supply of the reagent by changing the stroke length of the plunger, can only be done with the engine stopped;

- to regulate the flow, due to changes in the rotational speed of the drive motor shaft, it is necessary to additionally use a complex and expensive electronic frequency converter. Moreover, with this regulation, the speed of the plunger changes, and, consequently, the operating conditions of the valve system (suction and discharge chambers) change, which leads to a complex dependence of the supply on frequency;

- the designs of known pumps are complex, large in size, which reduces the degree of spatial placement of the pump, depending on the technological requirements of the process.

Closest to the proposed utility model is a hydraulic metering pump (RF Patent No. 64683, CL ЕВВ 37/04, dated 2006), which includes a supercharger in the form of a volumetric reciprocating pump - a plunger pump, and a kinematically connected drive, wherein the supercharger further comprises suction and discharge chambers, the plunger pump comprises a housing in which the plunger is placed, and between them an elastic element and a clamp are installed, the latter being arranged to interact with the elastic element for measuring To improve the tightness of the working chamber of the pump, the drive is made in the form of an electro-hydraulic device that converts electrical energy into mechanical energy with the reciprocating movement of the actuator, while the kinematic connection of the plunger pump with the actuator is made through a two-arm lever-spring-loaded stop system mounted on a rack, and the drive body is pivotally connected to one shoulder of the said lever, the end of the second shoulder of which is located in Interaction of a beaker placed in a spring-loaded stop, a two-armed lever arranged on a rack to be rotatable, wherein the housing a plunger pump and a glass in which a spring loaded abutment disposed rigidly secured to the rack in such a manner that their longitudinal axes are located on one straight line. The specified pump provides high operational reliability, provides the convenience of controlling the dosing process and reduces material costs.

However, the known pump is characterized by a somewhat complicated design and can be installed in the field only vertically, which reduces its technological capabilities. In addition, due to the placement of the entire drive, i.e. an energy source - an engine and a transmission mechanism for transferring energy to a supercharger, in one housing, repair work is complicated when these nodes fail. This leads to increased material costs.

The technical result achieved by the proposed utility model is to simplify the design, to reduce dimensions, to maintain maintainability and to expand the possibilities of spatial placement of the pump depending on the technological field requirements due to the possibility of installation both in horizontal and vertical position.

The specified technical result is solved by the proposed hydraulic metering pump, comprising a supercharger comprising a suction chamber, a pressure chamber and a displacement reciprocating pump with a working body, the working chamber of which is in communication with said chambers, and a drive connected to the supercharger, made in the form of an electro-hydraulic device that converts electrical energy into mechanical energy, and consisting of an electric motor - and a transmission mechanism for transferring energy to the supercharger, while according to the field In this model, as a volumetric reciprocating pump, it contains a plunger or diaphragm pump, and the drive is made in the form of a transmission mechanism connected to each other, enclosed in a housing, and an electric motor located outside the specified housing, as a transmission mechanism, the pump contains a motor connected to an electric motor a unit that converts electrical energy into mechanical energy, and a spring-loaded rod with a piston, made with the possibility of reciprocating movement under the action of the specified mechanic energy, while the spring-loaded rod is connected directly to the working body of the volumetric reciprocating pump.

The unit that converts electrical energy into mechanical energy is made in the form of an impeller or in the form of an oil or gear pump.

As a working body, the plunger pump contains a plunger with a rod.

As a working body, the membrane pump contains a membrane with a mechanism for its movement.

Between the body and the working body of the volumetric reciprocating pump, an elastic element and a clamp are additionally installed with the possibility of interaction to change the tightness of the working chamber of the specified pump.

The electric motor is equipped with a control unit.

Depending on the technological requirements of dosing, a controller, a time relay, a timer for cyclic operation, thermal current protection, an indication panel, and controls are used as a control unit.

The technical result achieved is ensured by the following.

Due to the fact that in the inventive metering pump, the drive is made in the form of a transmission mechanism connected to each other for transferring energy to a supercharger enclosed in a housing and an electric motor located outside the specified housing, simplification of repair work is provided due to the ease of replacing a failed assembly in while in the prototype the energy source (engine) and the transmission mechanism for transmitting energy to the supercharger are located in one housing, which complicates the repair. Thanks to this constructive solution, the maintenance, adjustment and repair of these components is facilitated independently of each other, which means that material costs are reduced.

Placing the transmission mechanism for transferring energy to the supercharger and the electric motor outside the common housing, and also due to the fact that the spring-loaded rod is connected directly to the working body of the volumetric reciprocating pump, the spatial distribution of the proposed pump is expanded depending on the technical and technological requirements of the field conditions due to installation options in both horizontal and vertical position. In addition, such a connection between the supercharger and the drive simplifies the design, which makes the metering pump more reliable in operation.

Along with this, the proposed design of the metering pump retains all the positive properties inherent in the prototype, namely: the introduction of the design of the metering pump drive, made in the form of an electro-hydraulic device that converts electrical energy into mechanical energy, with the reciprocating movement of the spring-loaded rod, allows you to adjust supply of a chemical reagent not in a volumetric reciprocating pump, but by changing modes in the drive. This allowed controlling the supply of the reagent by changing the frequency of movement of the working body of the volumetric pump with a constant volume of injection of the chemical reagent in one stroke of the working body, which ensures the dosing of the required volume of the reagent for these dosing conditions.

The possibility of using a plunger or diaphragm pump in the proposed device expands its technological and technical capabilities due to various characteristics. For the same purpose, it also works that, as a unit that converts electrical energy into mechanical energy, one can use options: an impeller or an oil or gear pump.

The supply of the volumetric pump with an elastic element and a clamp placed between the body and the working body, with the clamp being installed with the possibility of interaction with the elastic element, allows changing the tightness of the pump chamber, which affects the efficiency of the pump as a whole and its reliable operation during dosing.

The essence of the proposed utility model is characterized by drawings, where figure 1 shows a General view of the inventive metering pump with a plunger pump; figure 2 is a General view of the inventive metering pump with a membrane pump.

The proposed metering pump contains a supercharger and an associated drive, made in the form of an electro-hydraulic device that converts electrical energy into mechanical energy, and consists of an electric motor 1 and a transmission mechanism for transmitting energy to the supercharger. The specified transmission mechanism is enclosed in a housing 2 and consists of a unit 3 connected to an electric motor 1 (for example, an impeller or a plunger pump), which converts electrical energy into mechanical energy, and from a spring 5 of a rod 5 with a piston 6 made with the possibility of reciprocating movement under the action of the indicated mechanical energy, the Specified spring-loaded rod 5 is driven into reciprocating motion by means of a fluid pressure, which is supplied by a node 3 operating from an electric motor 1. When this m electric motor 1 is disposed outside said housing 2 and may be provided with a control unit 16, as which may be used anprimer, controller, timer, the timer operation mode in tsiklicheskolm thermal overcurrent protection, display panel, controls, etc.

The supercharger comprises a pressure chamber 7 and a suction chamber 8, as well as a positive displacement pump 9, which can be used as a plunger pump (figure 1) or a diaphragm pump (figure 2). The plunger pump comprises a housing 10 in which the plunger 11 is placed, while its working chamber is in communication with the suction chamber 8 and the discharge chamber 7. Between the housing 10 and the plunger 11 of the pump can be located an elastic element 12 and a clip 13. In this case, the degree of tightness of the aforementioned working chamber of the pump is determined by the pressing force of the elastic element 12 using the clamp 13.

The spring-loaded rod 5 of the transmission mechanism is connected directly to the working body - the plunger 11 of the plunger pump.

When using a diaphragm pump in a supercharger, there are the following design features (FIG. 2). As a working body, it contains a membrane 14, which is driven by a mechanism 15, which is a plunger. The mechanism 15 is connected directly to the spring-loaded rod 5 of the transmission mechanism.

The proposed metering pump operates as follows.

Install the dosing pump spatially depending on the required field conditions. The housing 2 of the transmission mechanism during operation is recommended to be rigidly fixed to the support. Connect the specified metering pump to the tank for the chemical reagent (through the suction chamber 8) and to the discharge line (through the discharge chamber 7). Reagent injection volume is determined for one swing of a volumetric pump (plunger or diaphragm). The control unit of the transmission mechanism is set up to transfer energy to the required frequency of movement of the spring-loaded rod 5. The rod 5 reciprocates the plunger 11 (if a plunger pump is installed) or the membrane 14 (if a membrane pump is installed) with the chemical supply required for these dosing conditions reagent. The working body of the volumetric pump is a plunger 11 or membrane 14, in one (reverse) stroke, it fills the hydraulic part of the volumetric pump through the suction chamber 8 from a container with a chemical reagent, and with another (direct) stroke of the working body is a plunger 11 or membrane 14, this the volume of the chemical reagent from the hydraulic part through the injection chamber 7 is supplied to the discharge line to the treatment zone.

Thus, the regulation of the supply of the reagent of the proposed metering pump is simple and reliable. Significantly simplifies the design compared with the known, thereby increasing reliability. Provides versatility and multiple use under various technological field conditions, ease of replacement of any failed pump unit. In addition, the technological capabilities of the appearance of options for its installation in both horizontal and vertical positions are expanding, depending on the required fishing conditions.

Claims (7)

1. A hydraulic metering pump, comprising a supercharger, containing a suction chamber, a pressure chamber and a positive displacement pump with a working body, the working chamber of which is in communication with said chambers, and a drive connected to the supercharger, made in the form of an electro-hydraulic device that converts electrical energy into mechanical and consisting of an electric motor and a transmission mechanism for transferring energy to a supercharger, characterized in that as a volumetric reciprocating pump it is equipped with holds a plunger or diaphragm pump, and the drive is made in the form of a transmission mechanism connected to each other, enclosed in a housing, and an electric motor located outside the specified housing, as a transmission mechanism, the pump contains a unit connected to the electric motor that converts electrical energy into mechanical energy and a spring-loaded rod with a piston made with the possibility of reciprocating movement under the action of the specified mechanical energy, while the spring-loaded rod is connected directly to working body volumetric reciprocating pump. 2. The pump according to claim 1, characterized in that the unit that converts electrical energy into mechanical energy is made in the form of an impeller or in the form of an oil or gear pump. 3. The pump according to claim 1, characterized in that, as a working body, the plunger pump contains a plunger with a rod. 4. The pump according to claim 1, characterized in that as a working body, the membrane pump contains a membrane with a mechanism for its movement. 5. The pump according to claim 1, characterized in that between the housing and the working body of the volumetric reciprocating pump are additionally installed with the possibility of interaction of the elastic element and the clamp to change the tightness of the working chamber of the specified pump. 6. The pump according to claim 1, characterized in that the electric motor is equipped with a control unit. 7. The pump according to claim 6, characterized in that, as the control unit, a controller, a timer, a cyclic timer, thermal current protection, an indication panel, and control elements are used depending on the technological requirements of dosing.