PL155261B1 - Flow indicator - Google Patents

Description

RZECZPOSPOLITA PATENT DESCRIPTION 155 261 POLAND

OFFICE

PATENT

RP

Additional patent to patent no - Int. Cl. ⁵ G01F 23/16

Reported: 87 02 17 (P. 264181) ^{G08B 19/00}

F04B 49/06

Priority - Application announced: 88 09 15 t Patent description published: 1992 04 30

Inventor of the invention: Bronisław Świątkiewicz

The holder of the patent: Świątkiewicz Bronisław, Wrocław (Poland)

Flow indicator

The subject of the invention is a liquid or gas flow indicator intended for use in signaling the occurrence of extreme states of liquid or gas flow in any installations and devices, such as in systems of signaling the failure of the cooling water flow to the bearings of high-capacity pumps, in order to disconnect the pumps when the flow is lost.

A flow indicator is known and used, which comprises a body inside which a rubber diaphragm is located, in which a nozzle is mounted coaxially, and behind the nozzle there is a sliding, axially located end of a lever which, along a part of its length, is attached to the bellows body through a bellows. The other end of the lever led out to the outside mechanically acts on the electric microswitch and, moreover, the discussed end of the lever is pre-attached to the body by means of a spring whose adjustable stretching is used to set the sensitivity threshold of the alarm device. This solution is structurally complicated, it requires the use of seals for the lever passages outside the area of the controlled flow of the medium.

A flow indicator is known and used, consisting of a body provided with an inlet and an outlet stub, between which a cylindrical chamber is formed, inside which a flag is pivotally mounted, which is the driving element of the indicator. Said lug is coupled to one element of the magnetic clutch, the other element of which is mounted on the other side of the sealed diamagnetic barrier and is coupled to a mercury contact. The deflection of the flag under the influence of the medium flow causes the appropriate switching state of the mercury contact through the magnetic clutch. This solution is mechanically very complicated, for example it is made of 57 separate elements, it is a material-consuming solution, and its weight when installed on a pipe with a diameter of 15 mm is about 10 kg.

Known is a rotometer made of a transparent conduit section with a longitudinal, axial section in the shape of a truncated cone, inside which there is a float, the position of which at the vertical position of the device is a measure of the flow rate. The flow rate scale is marked on the surface of the transparent conduit section.

155 261

The flow switch comprising a two-piece body on the inlet and outlet sides terminated with connections is characterized in that it is made of an outer pipe section seated tightly between the upper body part and the lower body part, with the inner pipe section permanently embedded in the upper body part, coaxially located inside of the outer pipe section, and said inner pipe section, about half the length of the outer pipe section, has a series of cylindrical openings on its side surface, while inside the outer pipe section, in the area between the face of the inner pipe section and the inlet opening of the lower part, the body slides axially disposed ferromagnetic cylindrical float. A known inductive sensor is permanently attached to the outer tube section in the end face area of the inner tube section.

The solution according to the invention makes it possible to obtain a reliable, reliable flow switch using simple technical means, without the need to seal any moving parts from the medium flow area, while at the same time it is possible to easily and simply ensure any required medium flow through the controlled area by selecting the diameters of both sections pipes and the diameters and number of holes on the inner pipe section, as well as by selecting the shape and dimensions of the float.

The subject of the invention is explained in more detail on the basis of an embodiment shown in the drawing which shows an axial longitudinal section.

The flow switch according to the invention has a two-piece body consisting of an upper body portion 1 and a lower body portion 2. The upper body part 1 and the lower body part 2 terminate on the outside with threaded connections 3 and 4. Inside the cylindrical upper body part 1 and the lower body part 2 the ends of the outer pipe section 5 are seated. The outer pipe section 5 is sealed in both body parts 1 and 2 by means of gaskets 6 and 7 tightened by through bolts 8 and 9.

The upper part 1 and the lower part 2 of the body together with the external pipe section 5 embedded in them are screwed together by means of disks 10 and 11 and pin bolts 12 and 13 pulling them together and nuts 14, 15, 16, 17 cooperating with them. The upper part 1 of the body is permanently embedded in the inner pipe section 18 arranged axially inside the outer pipe section 5. The inner pipe section 18, about half the length of the outer pipe section 5, has a series of cylindrical holes 19 formed on the cylindrical surface.

Inside the outer pipe section 5, in the area between the face 20 of the inner pipe section 18 and the inlet opening 21 of the lower body part 2, a ferromagnetic cylindrical float 22 is displaceably axially disposed. On the outer pipe section 5, in the area of the face 20 of the inner pipe section 18, it is permanently embedded. known inductive sensor 23.

After switching the signaling device on by means of ports 3 and 4 into the medium flow path, which flow is to be signaled, the medium flowing from port 4 to port 3 will lift the ferromagnetic float 22 and press it against the face 20 of the inner section 18 of the pipe. The flow of the medium of the desired size will be realized through the holes 19 and the connection 3. At any loss of medium flow, the ferromagnetic float 22 will detach from the face 20 of the inner section 18 of the pipe and begin to fall towards the inlet opening 21 of the lower part 2 of the body. At the same time, the ferromagnetic float 22 will come out of the front area 20 of the inner section 18 of the pipe, and thus from the inductive area of the sensor 23, causing a change in the inductance of its measuring circuit, which will cause the sensor to activate and disconnect the power supply to devices that could be damaged if the medium flow ceased other reasons required by the operating regime of the devices.

Claims (1)

Patent claim A flow switch consisting of a two-piece body at the inlet and outlet sides terminated with connections, characterized in that it is formed from the outer section (5) of the pipe sealed between the upper body part (1) and the lower body part (2), in the upper part (1) ) of the body, the inner pipe section (18) is permanently seated axially inside the outer pipe section (5), and said inner pipe section (18) having a length approximately half the length of the outer pipe section (5) has a series formed on its side surface holes (19), while inside the outer pipe section (5), in the area between the face (20) of the inner pipe section (18) and the inlet opening (21) of the lower part (2) of the body, there is a sliding axially located ferromagnetic cylindrical float (22). ), while a known inductive sensor (23) is permanently mounted on the outer pipe section (5) in the area of the head (20) of the inner pipe section (18). Department of Publishing of the UP RP. Circulation 100 copies Price: PLN 3,000