SU562672A1 - Volumetric dosing pump - Google Patents

Description

The invention relates to an o-batching metering pump with a Cyrillic OUTPUT control O) taking the dose into the user’s system or the average supply for a 1-cycle technological cycle.

Volumetric metering pumps are known, which contain a drive unit (gambler, device) that controls the displacement of the pump and the control system 1, associated with the displacer.

However, such Pumps are not adapted for use in automated technological systems with digital control without the use of complex digital-to-analog converters.

Volumetric dosing pumps are also known. They contain a drive motor associated with, a propellant, a pai6o4ero volume regulating device guide) and a system of wirawlei equipped with an electric motor shaft speed sensor installed in the control circuit, installed in the discharge channel of the waste pulse from the counter- pre-set feed pulses, to the output KOTqpo-pod1K a 2-part finishing relay 2. However, the accuracy of such a metering pump a, especially with a small number of feed pulses, is insufficient, since one of its operating cycles It may not be taken into account if the task arrived at the counter after the rotational speed sensor triggered. In addition, the inertia

system imposes a limit on the frequency of transmission of iodine pulses and pump power.

The aim of the invention is to increase

the frequency of transmission of supply pulses and pump power, as well as improving the metering accuracy and broadening the design of the metering pump. This is achieved by the fact that the proposed control system is provided with a bypass operated by a TWO POSITIONAL normally OPEN | OTHER communicated with the hydraulic unit.

Clamp., the drive device of which is included in the control circuit, and the encoder shaft O60ipOTOB of the drive motor is connected to the impulse reset channel from the contact meter through the logic element I, the second input of which is connected to the output of the counter. The rotational speed sensor is installed with the possibility of angular movement and fixation relative to the engine at the point corresponding to the triggering at the pump suction stroke, and is equipped with two pairs of normally open contacts, the closure of which is offset from each other.

in the direction of rotation of the shaft, with the first in this direction a pair of contacts connected to the reset circuit and pulses from the counter, and the second through an additional logic element AND, another input of which is connected to the output

counter, communicated with the starting relay, supplied with normally open cant1ktam; in the center of control of the pareluac element; in the reset circuit of Mmpulis with the counter and .blogerov target of the starting relay, in which there are normally open contact terminals of the relay.

The device for adjusting the working volume of the piloblock and the prapupakia paws is made in the 1st stage of the general bypass, and a regulating device equipped with an installed g :: O displacer with 1 axial displacement, limited by the movable support plate, the ti liter, which interacts with the output 1 the displacer of the bypass channel and svagnaya with elbktromappatny.m drive, Bhlyuchein in the chain of the system is traced-sh.

 FIG. Figure 1 shows a structural diagram of a control circuit, a circuit, and a control circuit; ia f | Ig. 2 - pump with bypass, combined with the regulating mechanism; irova: n.

Drive d, v, needle (not shown) due to electric overload shaft 1 with displacer 2. pump, the KOTOipo.no control system contains a sensor for jigging, j for shaft 1, mounting 1n01vl en.ny in l; waste pulses from a setting counter of 5 pulses of transmission, connected channel | M 6 with an external control system. A finishing relay 7, nR | I1Vod, is connected to the output of the counter, the pump bypass valve 8 is in positon, .p, p1i. Which hydraulically dvodnuyu 9 cavity of the pump is compatible with the drain capacity W, which, when the engine is running, allows 1 feed a portion of the well to the pressure line U /. In the control circuit of the valve 8, the normally closed contacts are installed; 12 contacts of the starting relay 13 are used. A second pair of normally open contacts 14 of the relay 13 is set to L1in, and 1 and 4 are reset from the working impulse from the preset counter 5. The same LI1NI is included l.oric element I 15, one of which INPUT 01B of which is connected with the sensor of rev 3, and the other with vyOhODO, m counter 5. Sensor 3 is equipped with two AA pairs of normally open contacts 16 and 17, which are offset one relative to In the direction of rotation of hall 1, and installed with the possibility of an angular n still and fi.kszsatsii relative to the latter.

The second LO | Lic ele: me “t I / 5 is connected by its inputs to sensor 3 (to the circuit of normally open contacts 17) in to the output of counter 5. The output of logic 18 And 18 is connected to relay 13, the third pair of normally open contacts 19 of which installed in blocking circuit 20 in series with normal 1O open contacts 21 f | INISche; th relay 7.

Works pump as follows. Shaft / Bone B rastachs. This allows you to increase the frequency of the 1 pulse delivery. At some arbitrary time, a task is sent to the counter on channel 6, for example, the number “2. At the same time, "an output appears in the counter output, and the relay 7 is driven. Contacts 21. During the shaft rotation, contacts 16 are closed, however, the pulse is not reset from the counter, because CounterTakTbi 14 is still open, because relay 13 is turned on only after closing The following pair of contact-contact 17 relays 3. This closure occurs at the beginning of the suction stroke, but therefore, the controller 8 has sufficient time to switch to the position ensuring the sealing of chamber 1 9 h to the moment the displacer 2 starts to turn (1) to the right. After displacing the fluid in the main line 11 in the tact of the inlet, i.e. after testing one Impulse of the problem, the closure of the contacts 16 of the relay 3 has already started. It leads to a reset of the hypothesis from the counter, and the pin 14 is already ground by this moment. the start of the relay 13, which is blocked by closing the contacts 19. Therefore, the relay 13 will be turned on while the output of the counter is at a voltage. that i-iMeeT is the place for the presence of a task (number) on it.

Thus, the bypass valve 8 remains closed, and the prK of the next turn of the shaft / will be p. in the mater.t // one more porosi of liquid, after one of the first 16, the discharge is one more unit from the counter. For the above: above the date (number “2) after this point. iHa counter will be used “Oh, which will lead to the disappearance of the voltage at the output of the counter 0 o, off, 1 of the finishing relay 7, opening of the contacts 21, turning off the starting relay 13, switching the pereguyny valve 8 to normal open position and , thereby, to the termination of the pumping of portions of liquid to the ma-pistral //.

When the proposed metering pump is operating, accurate processing of even setting the number "1 per meter is guaranteed, therefore, the metering accuracy does not depend on the number of set feed pulses. The frequency of practicing the practical pulses is determined by the frequency of rotation of the shaft /.

To simplify the construction, the device for regulating the working volume of the lidroblock and 45 bypass 1 valve is made in the form of a common neipeinycKHoro and regulating device (see Fig. 2). This device is equipped with a sleeve 22, mounted on the displacer 2 with the possibility of its axial movement, guided by 50 movable stop 23. The sleeve 22 interacts with the outflow channel 24 made in the displacer and is connected to the electromagnetic actuator 25. The position of the stop 23 determines the value the volume of fluid po55 given by the pump in line 11 when testing the feed pulse.

Claims (3)

Invention Formula 60 1. A volumetric dosing pump containing an electric generator connected to the water heaters, a hydraulic unit volume control unit and a gravity control system, equipped with an electric motor speed sensor controlled in the control circuit 65 installed in the control channel of the electric motor, connected to the control circuit of the electric motor shaft, connected to the control circuit of the electric motor; ka supply pulses, to the output of which is connected a liquid relay, characterized in that, in order to increase the frequency of supply pulses and increase pump power, the supply control system on a bypass communicated with the hydraulic unit: a | logical element And, the second input iKOToporo Connected to the output of the counter. 2. A pump according to claim 1, characterized in that, in order to improve the metering accuracy, the speed sensor is mounted with the possibility of angular movement and fixation of the motor with respect to the electric motor at the exact point corresponding to the sensor response at the pump suction stroke, equipped with two pairs of holes | a few times, K1 intact contacts, the contactors of which are displaced one relative to the other in the direction of rotation, with the first in this direction a pair of contacts connected to the reset circuit of emuls from the counter, and the second through an additional logical element AND The other iBxoa of which is connected to the iK output of the counter is communicated with a starting relay equipped with normally open contacts in the control circuit of the fluorescent element M in the circuit reset: Pulse from the meter and in the starting relay lock circuit, in which normally open contacts are installed (finishing relay. 3. The pump of claim 1, wherein that, in order to simplify its design, the device for regulating the hydraulic unit's working volume and the bypass valve are made in (as a general bypass 1I regulating device equipped with an axial displacement mounted on the displacer, limited by a movable stop, a sleeve, which interacts with the output made in the displacer of the bypass channel and associated with the electromagnetic drive, included in the control system circuit. Sources of information taken into account during the examination: 1.Britvin L.I. “Classification of volumetric type pumps with adjustable flow. Proceedings of VNIIGidromash, M., “Energy, vol. 43, 1972. 2. Catalog of the foreign company Brann and Lübbe, Germany, 1970, p. 36-38.