DD228868A1 - PNEUMATIC DEVICE FOR TRANSFERRING SLEEPING AND NITROGEN - Google Patents

Abstract

Field of application of the invention are working machines, in particular pumps for liquids. Objects of the application are pump systems for sludge feeding to test devices. The aim is to create a functionally reliable device for the production of sludge which is easy to manufacture. It is a pneumatically operated device using high life ball valves to develop. By means of a membrane moved by means of a pneumatic cylinder, a mixture of sludge from a storage container to test devices for axle parts is conveyed via ball valves arranged in a valve housing. Fig. 1

Description

Title of the invention

Pneumatic device for conveying sludge and thick matter

Field of application of the invention

Field of application of the invention are working machines »in particular pumps for liquids. Objects der'Anwendung are pumping equipment for sludge ¹¹ promotion of testers.

Characteristic of the Known Technical Solutions Progressive cavity pumps, screw and screw diaphragm pumps of various designs are known for conveying sludges and thick slabs. Although these pumps are generally well-suited for conveying thick materials, they have disadvantages in terms of their durability and thus on their cost-effectiveness. The Exzenterschnekkenpumpe, which may be referred to as the best for the promotion of thick materials, tends due to their high internal friction, in many cases, for example, with fluids

high solids content, for self-destruction. It is also • a high drive power for this pump

required, resulting in a negative efficiency. Although the screw pump has considerably more favorable properties with regard to its durability, it is not better in terms of the overall efficiency, since it is not suitable for building up high pressures. The screw pump is also not back pressure tight, d. h., After switching off the drive, the delivery pressure from the pressure to the suction side decreases. Furthermore, hydraulically actuated displacement pumps according to DE-OS 2837944 are known, which for pumping viscous or solids containing and abrasive liquids, with a pump part, which is used as an integral part directly into a pipeline for the liquid to be pumped and at least one provided with check valves Has diaphragm pump. However, these pumps are relatively large in size and accordingly correspondingly heavy, so that often occur in their assembly problems.

Object of the invention

The aim is to create a functionally reliable device for sludge feed, which is easy to manufacture,

The essence of the invention The technical task

It is a pneumatically actuated device using ball valves, which should have a long life to develop.

Features of the invention

A device for the supply of sludge, consisting of a mixture of sand, humus, loam and water, proposed to a test device for simulating driving conditions. The device consists of a valve housing in each of which a ball discharge valve and a ball suction valve are arranged vertically. The ball suction valve is through a Schlamrasaugrohr with the

Mud tank connected. At the ball discharge valve, a delivery line is provided, through which the medium (sludge) is brought to the DUTs. The rubber ball valves and valve seats act as shut-off valves and allow the fluid to pass through only in one direction. Where the valve seat has a circumferential bevel of 5 mm χ 45 °, on which the rubber ball applies sealingly at each stroke of the membrane. The inner diameter of the valve housing or the cage is about one third larger than the outer diameter of the ball. The balls are usually limited in stroke and fall due to their own weight and the recoil of the conveyor medium back to their seat. The arranged in a diaphragm housing membrane is connected to a pneumatic cylinder which is driven by a clock and a pneumatic valve. Furthermore, a solenoid valve, a pressure regulator and a water separator are provided.

The pneumatic valve is connected by exhaust pipes with injector nozzles located at the bottom of the sludge tank. The resulting during actuation of the pneumatic cylinder exhaust air is thereby intermittently fed into the sludge tank. By the escape of the exhaust air from a plurality of nozzles of the injector a continuous Aufwirbelung the Schlamrabehälterinhaltes is ensured.

Ausführuncjsbeispiel

Further details of the invention are explained in more detail below with reference to an embodiment. It shows the

Fig. 1 shows the schematic structure of the device and Fig. 2 is a sectional view of the valve housing

The lifting movement of the diaphragm 9 on the pump is generated by a pneumatic cylinder 4, which is controlled by a timer 5 and a pneumatic valve 8. We distinguish two operations,

the suction and ejection of the medium 10. When sucking receives the pneumatic valve 8 from the clock 5 a pulse to open an air duct. The air, which is held by a pressure regulator 7 to a constant value of about 6 at, flows via the pneumatic directional control valve 8 into the pneumatic cylinder 4. This moves into the end position and thereby moves the membrane 9 the medium is balanced. During this process, the medium 10 via an intake manifold and a suction valve 3, which is designed as a ball valve, conveyed from the sludge tank 1 in the diaphragm housing · The suction valve 3 has the Aufgäbe to let the medium 10 to pass during suction and the same ejection to prevent backflow by closing the ball seat by the rubber ball

 When ejecting the Pneuraatikwegeventil 8 receives by the clock 5 another impulse to open another air duct. In this case, the air flows into the pneumatic cylinder 4 and moves it in the opposite direction in the other end position, whereby the medium 10 is conveyed through the ball discharge valve 2 and lines 14 from the diaphragm housing by reducing the volume in the diaphragm chamber. The ball discharge valve 2 is open, while the ball suction valve 3 is in the closed position. After completion of the ejection stroke, the ball of the discharge valve 2 falls on the valve seat and thereby prevents the backflow of the medium into the Merabrankamraer. This is followed by the intake stroke and the sequence "sucking in and out" is repeated, creating a pumping rhythm · »

The resulting during actuation of the pneumatic cylinder 4 exhaust air is through the pipes 12 and

Injectors 11, which are provided with a plurality of nozzles, passed into the sludge tank 1 for fluidization of the medium 10. Here, the solid and liquid components are mixed together, so that a flowable medium 10 is present for suction.

Claims (2)

invention claim A pneumatic device for conveying sludges and slurries using a membrane which has a certain suction and pressure stroke and two ball valves, with two valve balls made of wear-resistant material, in a valve housing, characterized in that a sludge tank (1) with in a valve housing arranged Kugelansaug- and Kugelausstoßventil (3; 2) and delivery lines (14) and provided on the valve housing membrane (9) with a pneumatic cylinder (4), a timer (5), a pneumatic directional control valve (8) and exhaust ducts (12), which with injector nozzles (11) having a multiplicity of nozzles and a pipeline (13), a solenoid valve (6) and a pressure regulator (7) attached to the bottom of the sludge container (1), £. Pneumatic device for conveying sludges and thick materials according to item 1, characterized in that the ball valves (2, 3) and their valve seats, which have a circumferential chamfer of at least 5 mm, made of rubber and an inner diameter (D) of the valve housing about one third larger than an outside diameter (d) of the balls. For this 2 sheets of drawings ί