RU2170853C1 - Proportioning pump - Google Patents

Abstract

FIELD: chemical, radiochemical, food, pharmaceutical industries and medicine. SUBSTANCE: pump is designed for continuous volumetric pressure metering of liquids. Proposed pump has housing with bore, and sleeve with radial channels installed in bore. Inlet and outlet channels are made in housing in zone of location of radial channels and opening in housing bore. Plunger is arranged in sleeve to form working chamber. Plunger is provided with flat in zone of radial channels. Pump has mechanism to transmit rotation and reciprocating motion to plunger. This mechanism is made in form of magnetic clutch consisting of driving and driven clutch members displaced relative to each other along axis and provided with partition-screen in between connected with housing. Disk is arranged in housing coaxially with driven clutch member shaft coupled with plunger. Disk has inclined end face surface. Pump is furnished with device rigidly secured on driven clutch member shaft for engagement with inclined end face surface of disk. Moreover, roller or additional disk mounted on ball support can be used as device for engagement with inclined end face surface of disk being mated with inclined end face surface by its end face. Shaft of driven clutch member can be either rigidly coupled with plunger or coupled with plunger by means of flexible member, such as bellows, enclosing the ends of plunger and shaft, with spherical member installed in between, or flexible compensator made in form of spring fitted in cup and carrier located over spring and coupled with plunger and shaft of driven clutch member. EFFECT: no leakage of any handled material. 6 cl, 4 dwg

Description

 The invention relates to the field of hydraulic engineering, and in particular to pumps designed for volumetric, continuous continuous dosing of liquids in technological processes at enterprises of various industries.

 With stable density and viscosity, temperature and operating parameters, they provide high metering accuracy.

 Along with this, an important characteristic of such a pump is its tightness, which prevents leakage of the pumped liquid into the environment, if the pumped liquid is toxic, aggressive, radioactive, or excludes the pollution of the pumped liquid (clean, ultra-pure) with any impurities that could get into the pump from the outside .

 In addition, the pump must be reliable during operation in industrial production.

 To solve these problems and the claimed pump is intended. But before describing how these problems are solved by the alleged invention, we will consider and analyze analogues known from the prior art.

 Thus, an adjustable pump is known (see ed. Certificate of the USSR N 1488544, class F 04 B 13/00, 1987), comprising a housing with a bore and a lid having an opening, coaxial to the bore, and a rotationally distributed sleeve installed in the bore with rotation radial distribution channels and a face cam located in the sleeve with the formation of the working chamber, a spring-loaded plunger with a lead installed with the possibility of interaction with the end cam of the sleeve to provide reciprocating movement of the plunger, the latter is equipped with a shank coupled to the groove of the sleeve located in the hole of the cover and connected with the volumetric feed adjustment mechanism, and the housing has supply and exhaust channels included in the bore in the area of the distribution channels of the sleeve, the housing being provided with a longitudinal groove, the leash is rotatably connected to the plunger relative to the latter and is equipped with a protrusion located in the specified longitudinal groove of the housing, the sleeve is rigidly connected to the control mechanism and mounted in the cover with the possibility of rotation, the plunger in the area distribution channels is provided with a longitudinal flat, and the housing - sleeve mating in the area of distribution channels is equipped with annular grooves.

 This pump provides high precision dosing of pumped liquids.

 However, when working with toxic, aggressive or radioactive environments, the known pump does not meet the requirements of absolute tightness. This drawback is due to the design of the pump.

 The installation of the distribution sleeve in the bore of the housing with the possibility of rotation and the presence of the radial distribution channels of the inlet and outlet here do not provide absolute tightness at the interface between the above parts of the pump due to their mobility. These circumstances cause leakage of the pumped liquid into the environment. If toxic, aggressive or radioactive liquids are pumped, leaks are dangerous for the environment and human health. If pure or ultrapure liquids used in medicine, pharmaceutical, chemical and food industries are pumped by the pump, these liquids may become contaminated with undesirable substances from the environment. The presence of a worm gear in the pump and the need to lubricate the worm and the worm wheel cause lubricant to enter the pumped fluid through the above mates and slot, which is unacceptable.

 A serious drawback of this pump is the fact that due to the large number of movable connections of the pump parts to each other, and rotational and reciprocating movements are simultaneously carried out in them, scoring may occur on the rubbing surfaces of parts made of different materials with different hardness, jamming occurs breakdown and shutdown of the pump.

 Closest to the claimed is a valveless piston pump (see application PCT N 86/06794, CL F 04 B 7/06, publ. 20.11.86 N 25, as well as advertising material "FLUID metering, inc. Valveless metering pumps. Printed in USA 1/94), adopted as a prototype. The pump contains a housing with a bore, a sleeve installed in the bore, having radial channels, in the area of which the inlet and outlet channels entering the bore are made in the housing (in the prototype suction pipe 2 and discharge 3) placed in the sleeve with the formation of the working chamber (in the prototype - injection cylinder 6), a plunger (in the protot Ipe piston 4), equipped with a flat (in the prototype - face 7) in the area of the radial channels, and a mechanism for transmitting rotation and reciprocating motion to the plunger (in the prototype "the end of the piston 8, opposite the face 7, rotates on a rotating eccentric 9, the axis whose rotation D forms an obtuse angle with the axis of the piston in such a way that when the eccentric 9 rotates, the piston 4 simultaneously performs an axial stroke and rotation around its axis ").

 This pump provides high precision dosing of the pumped liquid or gas.

 Apparently, the design of this pump meets the requirements of tightness and its reliability when used in laboratory conditions and in pilot plants.

 However, in real industrial production, and especially when working with toxic, aggressive and radioactive liquids, the tightness of such a pump is problematic. This drawback is associated with the design of the known pump. The passage of the plunger through the housing cover and through the sealing gasket (see the above advertising materials) between the cover and the housing will not provide absolute tightness at the place where the plunger and gasket mate during pump operation. This will cause the pumped liquid to leak from the pump casing into the environment. When pumping toxic, aggressive or radioactive media, these leaks will pose a threat to environmental pollution and to the health of staff. And, conversely, when pumping clean and ultrapure liquids, it is possible that unwanted impurities can get into them from the outside due to leaking mating, the plunger - housing cover, which is generally unacceptable.

 In addition, the relative position of the rotating eccentric 9, or rather its axis D, and the plunger (piston 4) at an obtuse angle to each other create prerequisites for jamming of the plunger in the sleeve; jamming of the lever 11 in the hole of the spherical part 12 is possible. All this can lead to breakdown of the pump parts and its termination.

 The specified disadvantages does not have the claimed pump.

 The inventors created such a pump, the design of which, coupled with the advantages of the prototype pump, will eliminate the leakage of any pumped liquid: neutral, clean or ultrapure, toxic, aggressive or radioactive, and thereby prevent a situation that is dangerous to the environment and human health.

 The pump according to this application contains a housing with a bore, a sleeve installed in the bore, having radial channels, in the area of which the inlet and outlet channels extending into the bore are made in the case, placed in the sleeve to form a working chamber, a plunger provided with a longitudinal flat in the area of the radial channels , and a mechanism for transmitting rotation and reciprocating motion to the plunger.

 The pump differs from the prototype in that the mechanism for transmitting rotation and reciprocating motion to the plunger is made in the form of a magnetic coupling, consisting of displaced relative to each other along the axis of the leading and driven half-couplings with a baffle - a screen between them, connected to the housing, placed coaxially in the housing the shaft of the driven half-coupling of the disk connected to the plunger having an inclined end surface and rigidly fixed to the shaft of the driven half-coupling of the device for interacting with the inclined end surface of the disk.

 In addition, the pump is characterized in that, as a device for interacting with an inclined end surface, either a roller or an additional disk facing it placed on a ball bearing is used.

 The authors of the invention also stated that the shaft of the driven half coupling is either rigidly connected to the plunger, or the shaft of the driven half coupling is connected to the plunger by means of an elastic compensator, for example a bellows, covering the ends of the plunger and the shaft, between which a spherical element is installed. The elastic compensator can be made in the form of a spring placed in a glass and a leash connected with the plunger above it.

 Characterized by the claims of the present application, the pump eliminates the above disadvantages of the prototype pump, i.e. leakage and unreliability. When using the invention in industrial production, leakage of toxic, aggressive or radioactive liquids into the environment, as well as pollution of clean and ultrapure liquids by environmental impurities will be excluded.

 The design of the pump ensures its reliable operation in production conditions.

 The claimed invention meets all the criteria of patentability.

 It is new because at the moment, the applicant has not found any known solutions from the prior art characterized by the same set of features.

 The invention meets the criterion of "inventive step", because the applicant has not identified solutions that have signs that match his distinctive signs.

 Moreover, at present, in the era of the development of environmentally friendly technological processes and equipment, the need for absolutely tight and reliable pumps for pumping and high-precision dosing of toxic, aggressive, radioactive, clean and ultrapure liquids is over-relevant. Therefore, due to the indicated need, and also due to the fact that the applicant, when conducting patent research, did not find pumps suitable for solving this problem, the need for developing a new pump was determined, the result of which is the present invention.

 The invention is industrially applicable, because it is characterized by specific design features, each of which reproduces and does not contradict the use of the pump as a whole in an industrial environment. The whole set of essential features and each feature individually are aimed at achieving the expected technical result - to eliminate leaks and create safe conditions for human health and the environment.

 Confirmation of the above is a description of the design of the pump and its operation.

 In FIG. 1 shows a General view of the pump in section; in FIG. 2 and 3 reflect the features of the invention according to claims 3 and 6 of the claims, respectively; in FIG. 4 - the position of the pump parts at the time of fluid intake.

 The dosed feed pump comprises a vertical casing 1 with a bore 2, a sleeve 3 installed in the bore 2, having radial channels 4, in the area of which the bore 2 has an outlet 5 for the pumped and dosed liquid and a channel 6 for its discharge, located in the sleeve 3 with the formation of the working chamber 7, the plunger 8, equipped with a longitudinal flat 9 in the area of the radial channels 4, and a mechanism for transmitting rotation and reciprocating movement to the plunger 8.

 The mechanism is made in the form of a magnetic coupling, a disk 10 having an inclined end surface 11, and a device 12 for interacting with an inclined end surface 11 of the disk 10.

 Located in the rack 13, the magnetic coupling consists of a leading 15 and a driven 16 half-couplings displaced relative to each other along the axis 14, a baffle - a screen 17 between them, connected to the housing 1 by means of flanges 18 and 19. The coupling halves 15 and 16 are mounted on shafts 20 and 21 respectively. The shaft 20 is connected to a motor shaft (not shown in the drawing). The disk 10 is placed in the housing 1 coaxially to the shaft 21 connected to the plunger 8, and the device 12 for interacting with the inclined end surface 11 of the disk 10 is rigidly fixed to this shaft.

 In accordance with claim 2 of the claims of the present invention and FIG. 1, a roller 22 can be used as a device 12, mounted through a bearing 23 on an axis 24 passed through a shaft 21.

 In accordance with claim 3 and FIG. 2, an additional disk 25 can be used as the device 12, the end of which is mated to the inclined end surface 11 of the disk 10, while the disk 25 is placed on a ball bearing 26 connected to an axis 27 passed through the shaft 21.

 The shaft 21 of the driven half-coupling 16 and the plunger 8, in the General case, can be rigidly interconnected to represent a single part of the pump. However, in order to exclude the influence on the operation of the pump of inaccuracies made in the manufacture of the shaft 21 and plunger 8, as well as deviations from the alignment of the shaft 21 and plunger 8 during installation, paragraph 5 of the claims provides for the development of signs of an independent paragraph, namely, shaft 21 may be connected to the plunger 8 by means of an elastic compensator, for example a bellows 28, covering the ends of the plunger 8 and the shaft 21, between which a spherical element 29 is installed (see Fig. 1).

 In development of claim 5, the claim in paragraph 6 provides the following: the elastic compensator can be made in the form of a spring 31 and a leash 32 connected to the plunger 8 and the shaft 21 of the driven coupling half 16 (see Fig. 3).

 The pump operates as follows.

 An electric motor is connected to the mains and turned on. The motor shaft drives the drive coupling half 15, which then transfers the rotation of the driven coupling half 16, the shaft 21, the device 12 and the plunger 8.

 Simultaneously with the rotation of the coupling half 15 and 16, the reciprocating movement of the driven coupling half 16 occurs due to the fact that the coupling halves 15 and 16 are displaced along the axis 14 with respect to each other, and the magnetic forces of the magnets of the coupling half displaced upwards attract the magnets of the driven coupling half 16, and therefore the latter performs a progressive upward movement. Together with it, the shaft 21 and the device 12 are progressively moving upward, and since the shaft 21 and the device 12 also rotate, then the roller 22 is rolling or the additional disk 25 is sliding from bottom to top along the inclined end surface 11 of the disk 10. Then the roller 22 or disk 25 change the direction of their translational movement in the opposite direction - from top to bottom along the inclined end surface 11, forcing the rotating coupling half 16 and the plunger 8 to move down.

 At the same time, the longitudinal flatness made on the plunger 8 during the complete rotation of the plunger 8 and its translational movement from the bottom up and back first opens the channel 5 and the radial channel 4 of the sleeve 3 located in the zone of its location, ensuring the suction of a dosed portion of the pumped liquid into the working chamber 7, and then, having closed the mentioned channels 4 and 5, it opens the channel 6 and the channel 4 located in the zone of its location, providing for the injection of this portion of liquid into them from the working chamber 7.

 Further, the pump operation cycle described above is carried out as many times as the process requires.

As can be seen from the description of the pump, the magnetic coupling performs not only its usual function - transferring rotation to the working body - the plunger 8, but provides:
- reciprocating movement of the plunger 8;
- constant pressure against the inclined end surface 11 of the disk 10 of the device 12 for interaction with it (ie, acts as an elastic spring element 10 in the prototype);
- creates an absolute tightness of the housing 1 with the help of a partition - screen 17, excluding either leakage of any pumped liquid from the pump, or the ingress of unwanted impurities into the pumped liquid from the environment.

 The design of the inventive pump is reliable during its operation, there are no parts and assemblies involving jamming, breakdown and pump shutdown. This contributes to the development of the features of the independent claim in the dependent claims.

 The use of the present invention in industry is safe for the environment and human health.

Claims (6)

 1. A dosed feed pump comprising a housing with a bore, a sleeve installed in the bore, having radial channels, in the location zone of which inlet and outlet channels are included in the bore, placed in the sleeve to form a working chamber, a plunger equipped with a longitudinal flat in the area the location of the radial channels, and a mechanism for transmitting rotation and reciprocating movement of the plunger, characterized in that the mechanism for transmitting rotation and reciprocating movement of the plunger is made in the form magnetic coupling, consisting of a leading and driven half coupling displaced relative to each other with a baffle - a screen between them, connected to the housing, located in the housing coaxially connected to the plunger shaft of the driven coupling half of the disk having an inclined end surface, and rigidly fixed to the shaft of the driven coupling half devices for interacting with the inclined end surface of the disk.  2. The pump according to claim 1, characterized in that a roller is used as a device for interacting with the inclined end surface of the disk.  3. The pump according to claim 1, characterized in that as a device for interacting with an inclined end surface, an additional disk coupled to the last end is used, which is located on the ball joint.  4. The pump according to claim 1, characterized in that the shaft of the driven coupling half is rigidly connected to the plunger.  5. The pump according to claim 1, characterized in that the shaft of the driven coupling half is connected to the plunger by means of an elastic compensator, for example, a bellows, covering the ends of the plunger and the shaft, between which a spherical element is installed.  6. The pump according to claim 5, characterized in that the elastic compensator is made in the form of a spring placed in the cup and a leash above it, connected with the plunger and the shaft of the driven coupling half.

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