SU1013826A1 - Device for measuring concentration of hard particles in suspension - Google Patents

Abstract

1. A DEVICE FOR MEASURING CONCENTRODE. HARD PARTICLES IN SUSIYJZII, containing a sensing element in the form of; blades, saKpeti lei1gsh} Haf one end of the pivoting double lever, the second end of which is I - I 7, y, ... r yll ,; J-, -. .. „...., .ййЛйоЧ-::; The spring is connected with E dchags. the actuator of the command element, and the elements of the switch in the form of a supply and a receiving valve, characterized in that, in order to increase the reliability of the device, the power supply and the receiving nozzle are set coaxially on. opposite sides of the bracket, mounted on the end of the drive lever, and between the pitaiadim and the receiving nozzles, a damper is mounted, fixed on the end of the two-armed lever. 2. The device according to A.1, from l and so that the connection is kk (and the ends of the levers spring is filled with a cylindrical spring, and its extreme coils are rigidly fixed on the ends of the levers.

Description

This invention relates to a measurement technique and is intended to determine solid concentration. pulverized particles in suspension and automatic control of the operation of apparatus filled with a suspension, for example, mass-exchange apparatus, apparatus for washing the suspension, and the like. A solid-liquid ratio measuring sensor is known, which contains a trap mesh mounted on a rotating shaft, onto which the slurry tray is directed. The solids content in the slurry stream is judged by the angle of rotation of devices perceiving the load from solid particles trapped on the mesh, while the liquid phase passes freely through the mesh 1.

The drawback of the device lies in the fact that its design does not allow measuring the percentage ratio of the liquid and solid phases of the suspension directly in the frame of an industrial apparatus, for example, a granule washer.

In addition, the drawbacks of the device are design complexity, bulkiness and unreliability in operation.

It is also known a device for measuring the level of bulk materials under a layer of liquid, including a blade-shaped sensing element mounted on one end of a two-arm rotary lever, the second end of which is connected to the control element actuator lever by means of a spring and the element l of the switch is mounted on these levers as a feed and receiving nozzles. This device is essentially a device for measuring the concentration of a precipitating solid phase. It can also be used to measure the concentration of solids in suspensions with suspended particles 2.

The drawback of the device is the unreliability of the operation of the switch, including the supply and receiving nozzles, which are located at the ends of the drive levers and the sensing element (blade), which are interconnected by a spring. This unreliability is caused by the presence of backlash in the lever arm, blade, vibrations of the process equipment on which the device is installed, as well as a change in the angle of the device, which causes the axes of the supply and receiving nozzles to deviate.

In order to eliminate the dynamic effect of the oscillating medium on the blade and eliminate the possibility of sedimentation of solid particles on the surface of the sensitive element of the blade, the device must be installed so that the plane of its blade is parallel

main flow (oscillation direction). The scapula is affected by the pulsarine flow of the medium, moving it. In this case, not only the blade, but also the receiving nozzle rigidly mounted on the blade lever, is rejected, while the feed nozzle mounted on the drive lever remains in place.

In the described case of a deviation

blades due to the presence of backlash in the support arm of the blade.

A change in the displacement between the axes of the feed and receiving nozzles can also occur as a result of

fatigue leaf spring, which will be bent under the action of the weight of the lever with the blade. In addition, the vibrations of the process equipment can be reflected in different ways on the body of the apparatus in which the blade is installed and on the actuator of the command element, which will cause the receiving and feed nozzles to move (vibrate) with different amplitudes. This ultimately leads to the unreliability of the switch: a false alarm or failure at the right time

due to misalignment of nozzles.

The aim of the invention is to improve the reliability of the device.

The goal is achieved by the fact that, in a device for measuring the concentration of solid particles in suspension: a siege containing a sensitive element in the form of a blade fixed at one end of a rotary double arm, the second end of which is connected with a spring of the command element actuator by means of a spring and switch elements in form of supply and receiving nozzles, the latter are installed coaxially on opposite sides of the bracket attached to the end of the drive lever, and a damper is provided between the supply and receiving nozzles, fixed Enna at the end of a two-armed lever. It is advisable to

The spring connecting the ends of the levers was cylindrical, and its extreme turns must be rigidly fixed to the ends of the levers.

Such an embodiment of the device provides the following advantages.

Feeding and. the receiving nozzle is fixed on the bracket, i.e. hard

are interconnected and therefore always remain coaxial. At the same time, the accuracy of the switch (and, consequently, the device) is determined only by the degree of oscillation of the end of the two shoulders lever on which the damper is fixed. In addition, only horizontal oscillations of the damper affect the position of the switch, since the damper has a height greater than twice the amplitude of the possible oscillations. At the same time, the influence of the oscillations of the two arms is eliminated by the fact that the cylindrical spring connecting the ends of the levers, when installed, is twisted (to extract the backlash in the support) and stretch To create longitudinal stiffness (to eliminate vibrations from vibrations), the advantage of a cylindrical spring compared to a plate spring is that it can stretch as the distance between the ends of the arms changes, and the plate spring quickly wears and breaks. . Thus, false positives of the device are prevented and the reliability of its operation is increased. Figure 1 shows a schematic diagram of the device in the initial stage of operation at low concentrations of solid particles (horizontal section); Fig. 2 - the same, in the mode up to a predetermined concentration of solid particles. A device for measuring the concentration of solid particles in a suspension contains a sensitive element in the form of a mesh mesh 1, which is fixed at the end 2 of a pivoting double arm 3, an actuator 4 and a secondary device 5. The actuator is made, for example, in the form of two pneumatic cylinders, which are connected with a lever 7, at the end of which a bracket 8 is rigidly fixed. On the bracket 8, switch elements are installed, for example, the power supply 9 and the receiving 10 nozzles, turned towards each other. The pitak nozzle 9 is connected to a compressed air source, and the receiving valve 10 is connected to the secondary device 5. The switch elements can be made in the form of a membrane actuator, bellows, electric actuator, etc. The lever 3 is mounted on a support 11 fixed to the bracket 12. Its end 2, which is inside the device 13, is isolated by means of a separating bellows 14. The lever 3 is located on the same axis with the lever 7 and is connected to it by means of a cylindrical spring 15, the outermost turns which gesture is closed at the ends of the levers. At the end of the lever 3, a flap 16 of the switch is installed, perpendicular to the axis of the pit: return and receiving nozzles. The flap height is such that when the levers 3 and 7 are located on the same axis, the flap is located between the nozzles, while the air flow from the feeding nozzle 9 does not pass to the receiving nozzle -10. The side of the valve 16, which cuts off the air jet, from the feed nozzle 9 / is made perpendicular to the plane of movement of the levers. The device operates on the following side. The command pneumatic signals from the pneumatic generator 17 are alternately fed into the cavities of the driver's 4 cylinders, the rod of which, moving, rtlone the lever 7, and view it and the lever 3 with a spatula 1 at a certain angle in one the other side relative to the axis of the apparatus around the fixed support 11. While the amount of solid particles in the suspension is relatively small, the blade 1 experiences little resistance to its movement, since the fluid passes freely through the cell of the blade. In this case, the spring 15 is not bent and the levers 3 and 7 remain coaxial. The air stream supplied to the feed nozzle 9 does not pass to the feed nozzle 10, since a damper was on its way. With the gradual increase in the number of solid particles suspended or deposited in a liquid, the resistance to the shifting of the blade increases. As a result, the spring 15 bends and the lever 3 deflects from the axis of the lever 7. Together with the lever 3, the flap 16 installed on it also deflects. When the deviation corresponding to a given concentration of the solid phase in the suspension is reached, the air stream from the feed nozzle 9 enters the receiving a nozzle 10, and then a signal is transmitted to a secondary device controlling the operation of the loading and unloading device. The suspension with the washed granules is discharged from the apparatus 13, and a new portion of the granules and the washing liquid are fed into it. The reliability of the device is determined as follows. The power supply and receiving nozzles are fixed on the bracket coaxially with each other and, therefore, when the flap deflects, the switch operates clearly. Since the side of the flap that cuts off the air flow entering

If the feed nozzle is perpendicular to the plane of movement of the sharks, then a vertical vibration cannot cause false processing of the device.

The use of a cylindrical spring allows to eliminate the backlash in the axis of rotation of the two shoulders and by stretching it eliminate the effect of vibration on the accuracy of the device.

The device can be used in installations of cascade polyamidation, extraction and drying of granules for high strength

The use of the proposed devices as part of these installations allows for the continuous washing of polycaproamide crumbs from low molecular weight substances (HMW). The proposed device contributes to the maintenance of a constant concentration of the crumb in, affecting the loading and unloading devices, P9Evo to regulate the productivity of the washing annapata, to obtain a product with a high degree of washing of the crumb.

Claims (2)

1. DEVICE FOR MEASURING SOLID PARTICLES CONCENTRATION IN SUSPENSION, containing a sensitive element in the form of a blade attached to one end of a rotary two-armed lever, the second end of which is connected via spring to the drive lever of the command element, and switch elements in the form of a supply and receiving spreel, characterized in that,. in order to improve the reliability of the device, the supply and receiving nozzles are mounted coaxially on. opposite sides of the bracket fixed to the end of the actuator arm, and a shutter mounted on the end of the two-arm arm is installed between the supply and receiving nozzles. " 2. The device according to claim 1, characterized in that the spring connecting the ends of the levers is cylindrical, and its extreme turns are rigidly fixed to the ends of the levers. ^ 9PC0 ^pv TJ ^v0