DE3144709A1 - Flow switch - Google Patents

Abstract

A crosspiece (1), which can be built into a pipeline, contains a gate valve (6), the tap cock of which has a first end (7) with a lockable adjusting ring (8) in a connection (4), a second end (13) in a connection (5) and a segmented body (11) connecting both ends. Through an axial bore (18) of the second end (13) runs an operating piston (19) with clearance, which bears at one tapered end (22) a ring magnet (23) which is displaceable with the operating piston (19) in a bore (21) in an insert (15) on the connection (5) and interacts with a microswitch (26). The annular gap (20) defined between the operating piston (19) and the second end (13), an annular duct (16) formed between the operating piston (19) and the insert (15) and a throughbore (17) in the crosspiece (1) form a bypass connecting the inlet (2) and the outlet (3) of the crosspiece (1). <IMAGE>

Description

Flow switch

The invention relates to a flow switch for installation in a Pipeline through which a medium flows, consisting of a pipe socket with a Inlet and an outlet from a housing connected to the pipe socket one arranged between inlet and outlet in a bypass with clearance and under the action of a pressure difference displaceable switching piston with a magnetically acting release element, from one in a stroke position of the switching piston from the triggering member actuatable, connected to the housing switch and off one bridged by the shunt, to adjust the pressure difference on the Switching piston adjustable through the pipe socket at different flow rates Passage valve, with the play in the bypass even in the closed position of the passage valve a minimum flow rate is determined.

In a known flow switch, one is in a pipeline built-in pipe socket with inlet and outlet arranged a gate valve, the is bridged by a bypass line, which is fixed in one with the Rohrstuten connected Housing is formed. In a m part of the shunt that is parallel to The pipe socket serlän £ t9 is a substantially cylindrical piston which is movable therein with play at the downstream end of the switching piston there is a spring-loaded magnet, and at the end of the stroke of the magnet a reed contact is arranged in the housing outside the bypass line. The game dees switching piston in the shunt line is dimensioned so that too a certain minimum flow rate when the gate valve is in the closed position of the medium is made possible through the connecting line adjusted depending on the flow rate so that the switching piston is adjusted will9 when the applied differential pressure overcomes the spring force. Included the magnet is also adjusted so that the reed contact is actuated and a switch is activated tsorgang is triggered 0 The switching process is on depending on the application Switch-on or switch-off process; for example, a flow switch will do this Art is used in a once-through heat generator to shut off the heat supply , if the water flow falls below a certain minimum value, or the Allow heat supply only above a certain minimum flow rate.

The known flow switch is by bridging the passage valve Shunt line not easy to manufacture and therefore expensive to manufacture The object of the invention is accordingly to provide a flow switch of the type mentioned to create that of the simplest possible parts with the least possible Effort can be manufactured This object is achieved according to the invention solved in that the shunt is formed in the gate valve and that Passage valve has a bore in which the switching piston is movable and which connects the inlet of the pipe socket to the outlet via a connecting channel.

Such a design of the shunt and arrangement of the switching piston enables a particularly inexpensive production, since the pipe socket is a cross piece can form, in which the gate valve and the switching piston perpendicular to the direction of flow can be used. All the flow switch forming parts can thereby as simple castings can be manufactured and assembled without being special Attachment of a housing with the shunt line is required.

Advantageous refinements and developments of the invention are characterized in subclaims. The interaction of the in the gate valve movable switching piston with the connecting channel is characterized in that the stroke position of the switching piston and thus also the release position of the release element is always clearly determined by the fact that an immediate Connection is established from the connecting channel to the inlet. This is where the hub takes place of the switching piston under the effect of the differential pressure applied to it up to a discharge point at which the medium passes through the bypass to the outlet flows away, whereby the differential pressure drops and no longer requires further adjustment sufficient.

An embodiment of the invention is shown in the figures and is explained and described in detail below with reference to the reference symbols. Show it Figure 1 is a partially schematic sectional view of the flow switch according to the invention; Figure 2 shows a section through the flow switch according to Figure 1 along the section line in Figure 1; Figure 3 is an enlarged, partially Sectional view of a modified version of the cock plug in the flow switch according to Figure 1; FIG. 4 is an enlarged, partially sectioned view of a modified one Execution of the switching piston according to Figure 3 in the flow switch according to 19 and FIG. 5 show a plan view of the flow switch according to FIG The sectional view of Figure 1 shows a cross piece 1 with an inlet 2 and an outlet 3 and with transverse connections 4 and 5, the inlet 2 and the outlet 3 are threaded for installation in a pipeline between the Connections 4 and 5, a gate valve 6 is arranged, the Eahnkiren in opposite Guide parts of the cross piece 1 sealingly guided and rotatable about its longitudinal axis The cock plug has a first end 7 that extends through the connection 4 extends outward and outside of the connection 4 carries an adjusting ring 8, which can be tightened by a fixed-style screw 9 The cock plug is inside of the cross piece 1 in the area facing the inlet 2 with a cylindrical Recess 10 is provided, the diameter of which corresponds to the inlet-side inner diameter of the Cross piece 1 is the same and which is about the Middle of the cock plug extends beyond. This creates a segment body 11 with a section surface 12, whose diameter is the same as the inlet-side inner diameter of the cross piece 1 is (see. Figure 2). It can be seen from the illustration in Figure 2 that the outlet side The inner diameter of the cross piece 1 is smaller than the inlet-side inner diameter; the inside diameter on the outlet side corresponds to the center-to-center distance of the section surfaces 12 in the two fully open positions of the segment body 11. The cock plug has a second end 13 which extends into connector 5 and over the segment body 11 is connected to the first end 7. The second end 13 is tapered 14, which is directed outwards and ends at a distance from an insert 15, which is screwed sealingly into the connection 5 and further below in detail is described. An annular channel 16 is formed between the end 13 and the insert 15 determined by a through hole 17 in the associated guide part of the cross piece 1 is connected to the outlet 3. The second end 13 contains an axial bore 18, in which a switching piston 19 is adjustable.

The switching piston 19 is inserted into the axial bore 18 with play; the thereby determined annular gap 20 forms together with the annular channel 16 and the Through hole 17 a shunt, which also with the closed position of the cock plug connects inlet 2 to outlet 3.

The switching piston 19 is in its rest position in FIGS. 1 to 4 shown with the gate valve 6 closed. The switching piston 19 extends in this position through the axial bore 18 beyond the annular channel 16 up to a bore 21 in the insert 15 which is aligned with the axial bore 18. A tapered end 22 of the switching piston 19 extends into the bore 21 and wearing a ring magnet 23 which is received in the bore 21.

A spring 25 engages a spring plate 24 at the tapered end 23 at 9 which is supported at the opposite end of a spring housing 269 the in the insert 15 is formed.

The insert 15 extends into a housing 279 in which a microswitch 28, D its switching tongue 29 is arranged on the outside of the spring housing 26 is applied (see Figure 5) The flow switch described above works like follows: In the closed position of the passage valve shown in FIG 6 consists only of the secondary circuit from the annular gap 209 and the annular channel 16 the through hole 17 a connection between inlet 2 and outlet 59 so that only one low flow rate through the cross piece 1 is achieved.

As the flow rate increases, the pressure applied to the switching piston 19 decreases Differential pressure to and finally a value is reached 9 at which the force of the Spring 25 is overcome The switching piston 19 executes a stroke that ends, when the lower edge of the switching piston 19 releases the annular channel 16, this becomes in the secondary circuit a direct connection between the inlet 2 and the outlet 3 produced, and the differential pressure drops so far that another stroke of the Switching piston 19 no longer takes place. The stroke of the switching piston 19 is the Ring magnet 23 raised into a position in which there is an interaction with the switch tongue 29 enters and the microswitch 28 is actuated.

In this way, a switching process is initiated by the flow switch causes9 by which a certain other process is triggered9 when a certain flow rate in the cross piece 1 is exceeded or fallen below The passage valve 6 thereby allows the flow switch to be adapted a wide range of flow rates that with increasing flow rate the Gate valve 6 is increasingly opened. For example, in the case of a flow switch, this Kind in the closed position of the gate valve 6 on the switching piston 19 of the for its stroke required differential pressure of 1 bar at a flow rate of 5 l / h generated so that no stroke or switching process is triggered at all lower flow rates will; Flow rates of up to approx. 50 l / h can be achieved via the shunt. In in the fully open position of the 3 port valve 6 are the corresponding values 0.25 m3 / h, 1.4 bar and 2.5 m3 / h.

In the embodiment according to FIG. 3, the cock plug is at the second end 13 an annular groove 30 with radial channels 31 running at the level of the annular channel 16 provided which open into the annular channel 16. While in the execution according to figure 1 the outflow point is at the upper edge of the stopcock plug, it is during execution according to Figure 3 at the level of the annular channel 16 and accordingly the stroke of the Switching piston 19 limited.

In the embodiment shown in FIG. 4, the switching piston 19 is provided in the lower end face with an axial bore 32, which in a diametrical bore 33 opens.

The outflow point and thus the stroke of the switching piston 19 is hereby determines that the diametrical bore 33 communicates with the annular channel 16. This execution has the advantage that the passage of the medium through the axial bore 32 is the axial Setting of the switching piston 19 in the annular gap 20 is stabilized.

The spring 25 acting on the switching piston 19 can also be omitted will.

L e r s e i t e

Claims (1)

Claims 1. Flow switch for installation in one of the one Medium flowing through pipeline9 consisting of a pipe socket with an inlet and an outlet 9 from a housing connected to the pipe socket, from a between inlet and outlet in a secondary circuit arranged with play and under the action of a pressure difference serschiebbaren switching piston with a magnetic Acting release member9 from one in a stroke position of the switching piston of the Trigger member actuatable9 connected to the housing switch and from one of the secondary circuit bridged 9 to adjust the pressure difference on the switching piston through the pipe socket adjustable flow valve at different flow rates, whereby by the game in addition circuit even with the closed position of the gate valve a minimum flow rate is determined5 characterized in that the shunt is formed in the gate valve (6) and the gate valve (6) has a bore has9 in which the switching piston (19) is movable and which the inlet (2) of the The pipe socket connects 2 flow switches to the outlet (3) via a connecting channel according to claim 19, characterized in that the passage valve (6) in one of the Pipe socket containing cross piece (s) is arranged and contains a Rahnküken9 which is inserted into the crosspiece (1) so as to be rotatable about its axis in a sealing manner9 and that the bore is an axial bore (18 )0 3. Flow switch according to claim 2, characterized in that a first end (7) of the cock plug penetrates the associated connection (4) of the cross piece (1) and at this end with an actuator is provided and that a second end (13) of the cock plug together with a sealingly inserted into the associated connection (5) of the cross piece (1) Insert (15) determines the connecting channel. 4. flow switch according to claim 3, characterized in that the connecting channel consists of a between a taper (14) of the second end (13) of the cock plug and the inner end of the insert (15) formed annular channel (16) and a through hole (17) connecting the annular channel (16) to the outlet (3) consists. 5. Flow switch according to one of claims 2 to 4, characterized in that that the cock plug in the area facing the inlet (2) one-up over the Axial bore (18) also has extending recess (10) and in this area a segment body (11) with a section surface (12), the diameter of which the inlet-side inner diameter of the Ereuzstücks (1) is the same. 6. flow switch according to claim 5, characterized in that the outlet-side inside diameter of the cross piece (1) by the center-to-center distance of the Section surfaces (12) in both fully open positions of the segment body (11) is determined. 70 flow switch according to claim 5 or 6, characterized in that that the axial bore (18) is formed in the second end (13) of the cock plug is and the switching piston (19) through the recess (10) and the axial bore (18) extends therethrough and runs into a bore (21) of the insert (15), in which a ring magnet arranged at a tapered end (22) of the switching piston (19) (23) is guided, which forms the trigger member0 8. flow switch according to claim 7, characterized in that the second end (13) is level with the annular channel (16) has an annular groove (30) which is connected to the annular channel (16) by radial channels (31) is connected, 9c flow switch according to claim 7, characterized in that the switching piston (19) has an axial bore at the end facing away from the ring magnet (23) (32) which in a the switching piston (19) penetrating diametrical channel (33) opens. 10 flow switch according to one of claims 3 to 9, characterized in that that the insert (15) in its free end has a spring housing (26) for a switching piston (1g) has biasing spring (25).