DE202017104951U1 - switching valve - Google Patents

Abstract

A switching valve (1) having a first valve portion (10) switching a first fluid passage having a plurality of main ports (A1, P1, R1) and a second valve portion (30) having a second fluid passage having a plurality of auxiliary ports (A2, P1) are isolated from the first fluid passage, wherein the first valve portion (10) and the second valve portion (30) are provided at one end and the other end of a valve body (2), the first valve portion (10) having a main valve housing (12 ) communicating with the main ports (A1, P1, R1), a main valve element (13) accommodated in the main valve housing (12) and configured to switch connection states between the main ports (A1, P1, R1), and a valve driving section (20) driving the main valve element (13), the second valve section (30) having an auxiliary valve housing (32) communicating with auxiliary ports (A2, P2), and e auxiliary auxiliary valve element (33) accommodated in the auxiliary valve housing (32) and configured to switch connection states between the auxiliary ports (A2, P2), the main valve housing (12) and the auxiliary valve housing (32) and the main valve element (13 ) and the auxiliary valve element (33) are each coaxially aligned on an axis (L), and wherein the main valve element (13) and the auxiliary valve element (33) perform synchronized switching operations.

Description

Technical area

The present invention relates to a switching valve that switches the communication state between a plurality of ports communicating with a valve body by shifting a valve element accommodated in the valve body.

State of the art

There is known a switching valve that switches the connection state between a plurality of ports communicating with a valve housing by shifting a valve element accommodated in the valve housing. For example. describes Japanese Unexamined Patent Publication JP 2014-228081 A1 a switching valve having a valve housing formed in a valve body, a valve element housed in the valve element and a plurality of input and output ports communicating with the valve housing. The switching valve is configured to apply a piston drive control air (pilot air) to the pistons provided at both ends of the valve element to move the valve element in an axial direction of the valve housing. When the valve element moves, the communication state between a plurality of ports is switched to thereby supply and discharge compressed air to and from a fluid compressor connected to the output port.

This type of switching valve includes a switching valve having a position detecting mechanism for detecting a switching position of a valve element, as disclosed in Japanese Unexamined Patent Publication JP 2003-74742 A1 is described. This switching valve includes a piston connected to the valve member, a magnet embedded in the piston, a magnetic sensor disposed around a piston chamber, and a switching circuit integrated with the switching valve to convert a change of the resistance of the magnetic sensor into an electrical signal; is configured to detect the magnet, which moves together with the valve element, with the aid of the magnetic sensor and to detect a switching position of the valve element on the basis of the electrical signal converted by the switching circuit.

The position detection of the valve element by means of electricity, as in the in the JP 2003-74742 A1 described switching valve, but is disadvantageous in an environment that is unsuitable for electricity or static electricity. Accordingly, when the position detection of the valve element is to be performed in such an environment, air is preferably used. In this case, for example, air is sent to a display device, for example, an indicator, which is pneumatically operated, and the position detection of the valve element is performed on the basis of the display state of the display device. In addition, it is preferred if the air can be used not only for position detection of the valve element, but optionally also as a driving force for the actuator or the like, depending on the particular situation.

Summary of the invention

Accordingly, it is an object of the present invention to provide a switching valve that can optionally use compressed air not only for detecting the position of a valve element, but also as a driving force for a fluid compressor depending on the application situation.

This object is achieved with the invention essentially by the features of claim 1.

Advantageous embodiments of the invention will become apparent from the dependent claims.

In order to solve the above problem, a switching valve according to an embodiment of the present invention includes a first valve portion that switches a first fluid passage formed by a plurality of main ports isolated from the first fluid passage, and a second valve portion that transmits a second fluid passage a plurality of auxiliary ports is formed, wherein the first valve portion and the second valve portion are disposed at one end and the other end of a valve body, wherein the first valve portion, a main valve housing communicating with main ports, a main valve housing accommodated in the main valve housing, which is designed is to switch the connection state between the main ports, and a valve driving section which drives the main valve element, wherein the main valve portion, an auxiliary valve housing, which communicates with the auxiliary terminals, u and an auxiliary valve member accommodated in the auxiliary valve housing and configured to switch the connection state between the auxiliary ports, wherein the main valve housing and the auxiliary valve housing and the main valve element and the auxiliary valve element are arranged coaxially on an axis (aligned) and wherein the main valve element and the auxiliary valve element perform synchronized switching operations.

In the switching valve according to the above embodiment of the invention, the first valve portion is preferably a two-position valve in which the main valve element occupies a first shift position and a second shift position, and the second valve section is a two-position valve in which the auxiliary valve element assumes a first shift position and a second shift position , and a two-way valve with two ports, an auxiliary input port and an auxiliary output port.

Here, the main valve element and the auxiliary valve element may be driven by the valve driving portion as they move from the first shift position to the second shift position, and may be driven by a return spring when moving from the second shift position to the first shift position.

In addition, preferably, a valve rod extending in the axial direction is provided between the main valve element and the auxiliary valve element so that the main valve element and the auxiliary valve element are connected by the valve rod.

Here, preferably, the valve rod has a vent passage formed therein communicating with the auxiliary output port and an ambient vent port open to the outside.

As described above, the switching valve according to the embodiment of the present invention includes a first valve portion that switches a first fluid passage having a plurality of main ports, and a second valve portion that switches a second fluid passage having a plurality of auxiliary ports isolated from the first fluid passage. The valve elements of the first and second valve sections are synchronized to perform the switching of the flow passages. Accordingly, air discharged from the auxiliary port in the second valve portion can be used to detect a switching position of the main valve element of the first valve portion. In addition, the air can be used not only for the position detection of the main valve element but also as a driving force for actuators other than the main valve portion.

The air discharged from the second valve portion may be used as needed depending on the application situation.

Other objects, features and applications of the present invention will become apparent from the following description of an embodiment and the drawings. All described and / or illustrated features alone or in any combination form the subject matter of the invention, regardless of their combination in the claims or their dependency.

Brief description of the drawings

1 is a perspective view of an embodiment of a switching valve according to the present invention,

2 FIG. 15 is a side view showing a switching state when a valve driving portion is in an OFF state. FIG.

3 is a schematic partial section, the one in 2 indicated by a dash-dotted line area A,

4 FIG. 15 is a sectional view showing a switching state when a valve driving portion is in an ON state. FIG.

5 is a schematic partial section, the one in 4 indicated by a dotted line area B shows

6 is a schematic exploded perspective view of 1 ,

Description of embodiments

The 1 to 6 show an embodiment of a switching valve according to the present invention. As in 1 is shown, comprises a switching valve 1 according to the present invention, a first valve portion 10 which switches a first fluid passage for compressed air, and a second valve portion 30 which switches a second fluid passage for compressed air and is isolated from the first fluid passage. The first valve section 10 and the second valve portion 30 are at one and the other end of a valve body 2 arranged in the direction of an axis L.

As in the 2 or 4 is shown, the first valve portion comprises 10 a main valve section 3 and a valve drive section 20 , Like from the 1 . 2 or 6 can be seen, comprises the main valve portion 3 a housing 11 with a rectangular cross-section, a main valve body 12 with a circular opening or bore extending in the direction of the axis L in the housing L and one in the main valve housing 12 received valve element 13 , The main valve element 13 is coil-shaped and has a valve section 14 at a central position in the direction of the axis L. The valve section 14 of the main valve element 13 consists of one annular sealing material, such as synthetic rubber or plastic, and has a diameter which is larger than a shank diameter of the two ends 13a and 13b of the main valve element 13 , Also, at the two ends 13a and 13b of the main valve element 13 in each case an annular sealing element 15 appropriate. In 1 denotes the reference numeral 6 a mounting opening through which a fastener, for example. A bolt is used to the switching valve 1 to a fluid supply element, for example. A distributor base to install.

As in the 2 and 4 is shown, is the main valve body 12 with a main input port P1, a main output port A1, and a main drain port R1 communicating with an outer surface of the casing 11 to open. Of these main terminals, the main output terminal A1 is in the direction of the axis L substantially at the center of the housing 11 arranged. The main input port P1 and the main drain port R1 are provided at the respective ends in the direction of the axis L with the main output port A1 interposed therebetween. These three connection openings form the first fluid passage in the switching valve 1 the present embodiment.

As in 2 or 4 are shown in the main valve housing 12 side by side in the direction of the axis L first and second sleeves 16 and 17 , which have a tubular shape, arranged to be the main valve element 13 keep sliding.

From these pods 15 and 16 is the first sleeve 16 at an open end of the main valve body 12 (which is located near the main drain port R1), while the second sleeve 17 at the other open end of the main valve body 12 (which is located near the main input terminal P1). A sealing element 18 For example, an O-ring is on the outer peripheral surface of the sleeves 16 and 17 provided to the airtightness of the main valve body 12 to ensure. In this embodiment, both ends stand 13a and 13b the main valve element in sliding contact with the inner circumferential surface of the sleeves 16 and 17 ,

In addition, the sleeves point 16 and 17 Through openings 16a respectively. 17a on, which communicate with the respective interiors of these sleeves. The interior of the first sleeve 16 communicates with the main drain port R1 and the main output port A1 via the port 16a the sleeve 16 while the interior of the second sleeve 17 with the main supply port P1 and the main output port A1 via the through hole 17a the sleeve 17 communicated. At the ends of the sleeves 16 and 17 opposed to each other in the direction of the axis L are annular first and second main valve seats 16b respectively. 17b designed so that the valve section 14 of the main valve element 13 in contact with the first and second main valve seats 16b and 17b stands or is separated from them.

As in the 2 and 4 is shown, the valve drive section comprises 20 a cylinder body 22 with a cylinder bore 21 with ground leading to the main valve body 12 is open, a drive piston 23 , which is located in the cylinder bore 21 slidably moved and thereby the cylinder bore 21 in a first cylinder chamber 21a near the main valve body 12 is arranged, and a second cylinder chamber 21b opposite to the first cylinder chamber 21a is arranged, divided, and pilot connections 24 and 25 , which with the second cylinder chamber 21b communicate and supply a pilot or control fluid to drive the piston. As in the 1 and 6 is shown in this embodiment, the housing 11 and the cylinder body 22 over a bolt 7 integral with each other, thereby defining the first valve portion 10 to build.

As in the 2 and 4 is shown, is the drive piston 23 with the other end 13b of the main valve element 13 connected so that the main valve element 13 in the main valve body 12 moves when the drive piston 23 in the cylinder bore 21 emotional. There is also a lip seal 27 with a unidirectional seal on the outer peripheral surface of the drive piston 23 intended. The lip of the lip seal 27 is arranged in such an orientation as to block the flow of pilot or control air from the first cylinder chamber 21a to the first cylinder chamber 21b allows the flow of air from the second cylinder chamber 21b to the first cylinder chamber 21a but blocked.

Also allowed at the above pilot ports 24 and 25 a connection 24 the supply of an external pilot fluid into the second cylinder chamber 21b while the other connection 25 the supply of the branched from the supply port P1 air via a pilot valve, not shown in the drawing in the second cylinder chamber 21b allowed. When the pilot air through the pilot ports 24 and 25 the second cylinder chamber 21b is fed, the pilot air acts on a rear side (pressure receiving surface) of the drive piston 23 to cause the drive piston 23 from the first cylinder chamber 21a to the second cylinder chamber 21b emotional. Accordingly, the main valve element shifts 13 from the first shift position near the other end 13b of the main valve element 13 (in the 2 shown switching position) a second shift position near the one end 13a of the main valve element 13 (in the 4 shown switching position).

As in the 2 and 4 shown is at the two pilot ports 24 and 25 In the present embodiment, the second terminal 25 through a cap 26 locked.

As in the 2 and 4 is also a main return spring 19 next to the first end 13a of the main valve element 13 provided to the main valve element 13 constant to the second end 13b pretension. The main return spring 19 is formed by a coil spring and serves to the main valve element 13 due to the spring biasing force from the second switching position to the first switching position.

As described above, the first valve portion 10 designed as a two-position valve, which switches the connection state between the respective terminals when the main valve element 13 between the first shift position and the second shift position shifts.

Like from the 2 and 4 is apparent, the first fluid passage in the first valve portion 10 configured to the connection state described below by switching the position of the main valve element 13 manufacture.

If the main valve element 13 in the in 2 shown first switching position, this is the valve section 14 of the main valve element 13 at the second main valve seat 17b on the second sleeve 17 to thereby allow communication between the main output port A1 and the main drain port R1 and to block the fluid passage between the main supply port P1 and the main output port A1. In contrast, when the main valve element 13 at the in 4 shown second switching position, is the valve portion 14 of the main valve element 13 at the first main valve seat 16b on the first sleeve 16 to thereby permit communication between the main supply port P1 and the main output port A1 and to block the flow passage between the main output port A1 and the main discharge port R1.

Next, the second valve section 30 described.

As in the 1 . 2 or 4 and 6 is shown, the second valve section comprises 30 a housing 31 with a substantially cylindrical shape, an auxiliary valve housing 32 with ground leading to the first valve section 10 of the housing 31 (in 2 right side), and an auxiliary valve element 33 that in the auxiliary valve housing 32 is included. In this embodiment, the main valve housing 12 of the first valve section 10 and the auxiliary valve housing 32 of the second valve section 30 coaxially aligned (ie aligned with each other on the axis L) and the main valve element 13 that is in the main valve body 12 is received, and the auxiliary valve element 33 that in the auxiliary valve box 32 is taken, are aligned along the axis L. A special configuration of the second valve section 30 will now be described.

The second valve section 30 is formed by a two-way valve having an auxiliary supply port P2 and an auxiliary output port A2 connected to the auxiliary valve housing 32 keep in touch. Connection states between the respective auxiliary terminals are switched by the auxiliary valve element 33 on the in the auxiliary valve housing 32 provided auxiliary valve seat 34 touches or lifts off from this. As described above, the second fluid passage with the auxiliary supply port P2 and the auxiliary output port A2 is the one in the first valve portion 10 provided first fluid passage isolated.

As in the 3 and 5 are shown are first and second holders 35 and 36 having a tubular shape with a predetermined distance in the direction of the axis L in the auxiliary valve housing 32 arranged. From these holders 35 and 36 is the first holder 35 in the passage between the auxiliary input port P2 and the auxiliary output port A2 in the auxiliary valve housing 32 arranged, and an annular sealing element 37 is on an outer peripheral surface of the first holder 35 appropriate. On the other hand, the second holder 36 next to the opening of the auxiliary valve body 32 (adjacent to the first valve section 10 ), and the sealing element 37 is on an outer peripheral surface of the second holder 36 appropriate.

From these holders 35 and 36 owns the first holder 35 a lead 35a from a distal end (into the 3 and 5 on the left side) projects radially inwards. In addition, at the projection 35a the auxiliary valve seat 34 ring shaped so that it to a bottom wall 32a of the auxiliary valve housing 32 protrudes.

As in the 3 and 5 is shown, is the auxiliary valve element 33 a seat valve element and configured to extend in the direction of the axis L between the auxiliary valve seat 34 and the bottom wall 32a of the auxiliary valve housing 32 to move. An auxiliary return spring 38 is between the auxiliary valve element 33 and the bottom wall 32a arranged so that it is the auxiliary valve element 33 constant to that Auxiliary valve seat 34 biases. The auxiliary valve element 33 is caused by a biasing force of the auxiliary return spring 38 between the first switching position, in which the auxiliary valve element 33 on the auxiliary valve seat 34 seated (cf. 3 ), and the second switching position in which the auxiliary valve element 33 through a valve stem 40 , which will be described below, so that it is pushed from the auxiliary valve seat 34 takes off (cf. 5 ), postponed.

When the auxiliary valve element 33 is arranged at the first switching position, the auxiliary input terminal A2 is isolated from the auxiliary output terminal P2. When the auxiliary valve element 33 is arranged at the second switching position, the auxiliary input terminal A2 communicates with the auxiliary output terminal P2. Thus, also the second valve portion 30 similar to the first valve section 10 formed by a two-position valve.

In addition, in the auxiliary valve housing 32 a valve rod 40 provided, which extends rod-shaped in the direction of the axis L. The valve rod 40 is intended to be the main valve element 13 with the auxiliary valve element 33 connect to. If the main valve element 13 from the in 2 shown first switching position to the in 4 shown shifted second shift position, presses the main valve element 13 that on the auxiliary valve seat 34 seated auxiliary valve element 33 over the valve stem 40 , As a result, the auxiliary valve element 33 from the auxiliary valve seat 34 lifted and the auxiliary valve element 33 is from the in 3 shown first switching position to the in 5 shifted shown second shift position.

As in the 3 and 5 is shown is the valve stem 40 in an interior of the first holder 35 and the second holder 36 arranged and configured to move in the interior in the direction of the axis L. In addition, on the outer peripheral surface of the valve rod 40 an annular flange 41 formed, extending from the valve stem 40 extends radially outward. The annular flange 41 has a sealing element 42 on to the airtightness between the annular flange 41 and an inner wall surface of the second holder 36 to reach. The valve rod 40 is in sliding contact with the inner wall surface of the second holder 36 and is configured to move in the direction of the axis L, being supported by the inner wall surface.

The valve rod 40 includes a first end and a second end. A first end 40a is over an opening of the annular auxiliary valve seat 34 with the auxiliary valve element 33 connected. There is also a second end 40b the valve rod 40 through an opening 43a a lid member 43 at the opening of the auxiliary valve housing 32 attached (in 3 on the right side), in a middle connection opening 51 (second opening 52b ) of a middle connection section 50 which will be described later.

Also, at the first end 40a the valve rod 40 a rod return spring 44 provided to the valve stem 40 constantly to the second end 40b (ie the main valve element 13 ), which is the first end 40a is opposite, to harness. The rod return spring 44 is formed by a coil spring having one end through a rear surface of the projection 35a of the first owner 35 (an area opposite to the direction in which the auxiliary valve seat 34 projecting) is received and the other end by a spring receiving portion 45 is received, which on the outer circumference of the valve rod 40 is provided.

As in 2 is shown engages the annular flange 41 the valve rod 40 then when the auxiliary valve element 33 is at the first switching position, at the peripheral edge of the opening 43a the lid element 43 on, causing the valve stem 40 , which is biased by a spring, is prevented from moving in a direction to the main valve element 13 to move. Here is the first end 40a the valve rod 40 by a predetermined distance from the auxiliary valve element 33 away.

In addition, the valve stem includes 40 a release or bleed passage 46 which connects the auxiliary output terminal A2 to an ambient vent port 44 which is described later and is open to the environment. As in the 3 and 5 shown, there is the ventilation passage 46 from a first opening 46a that at the first end 40a the valve rod 40 provided and open along the axis L, a second opening 46b at the second end 40b is provided and formed in the direction perpendicular to the axis L, and a central passage 46c moving in the direction of the axis L in the valve stem 40 extends and the first and second openings 46a and 46b connects with each other. In addition, there is the second opening 46b with the second passage opening 42b of the middle connection section 50 while the annular flange at an opening edge 43a the lid element 43 attacks (cf. 2 and 3 ).

As in 3 shown is the first end 40a the valve rod 40 and the auxiliary valve element 33 separated as described above when the auxiliary valve element 33 is at the first switching position. Thus, the first opening port is 46a the valve rod 40 open and the ventilation passage 46 communicates with the auxiliary output terminal A2 of the auxiliary terminals. As through the arrow in 2 is indicated, accordingly discharge air flows from the auxiliary output port A2 through the interior of the first holder 35 in the first opening 46a in the valve stem 40 , flows through the intermediate passage 46c and the second opening 46b and goes through the ambient vent port 55 drained into the environment.

In contrast, when the auxiliary valve element 33 stands at the second switching position, as it is in 5 is shown, the auxiliary output terminal does not stand with the bleeding passage 46 in connection, because the first opening 46a the valve rod 40 through an end surface of the auxiliary valve element 33 is closed. As in the 1 and 6 In addition, in this embodiment, the middle connecting portion is shown 50 between the first valve section 10 and the second valve portion 30 arranged.

As in the 2 and 4 is shown, the middle connecting portion comprises 50 an elongated block 41 with a rectangular outer shape, one in the block 41 trained passage opening 52 which passes in the direction of the axis L with a circular cross section, and one in the through hole 52 recorded push rod 53 , The passage opening 52 is coaxial with the main valve body 12 of the first valve section 10 and the auxiliary valve housing 32 of the second valve section 30 aligned (ie aligned along the axis L), and the main valve body 12 and the auxiliary valve housing 32 be with each other via the passage opening 52 connected. In addition, the through hole has 52 a first opening 52a connected to the main valve body 12 communicates, and a second opening 52b connected to the auxiliary valve body 32 communicates. An opening diameter of the second opening 52b is smaller than an opening diameter of the first opening 52a , Accordingly, at an interface between the first opening 52a and the second opening 52b a stepped section 54 educated. The stepped section 54 serves as a spring seat for the main return spring 16 , Also, at the second opening 52b the passage opening 52 the ambient ventilation port 55 educated.

As in 6 is shown is a thin, plate-shaped seal 70 between the case 11 of the first valve section 10 and the block 51 of the middle connection section 50 arranged so that the main valve body 12 over an opening 71 which the seal 70 in the thickness direction, with the through hole 52 communicates.

As in the 2 to 4 shown has the push rod 53 a substantially cylindrical shape extending in the direction of the axis L, and a first end surface 53a at one end in the direction of the axis L is at a second end 40b the valve rod 50 connected. The second endface 53b at the other end in the direction of the axis L is at one end 13a of the main valve element 13 connected. In other words, the push rod is 53 designed to the main valve element 13 indirectly with the auxiliary valve element 33 connect to.

There is also a depression 56 having a circular shape in plan view on a substantially central axis (on the axis L) of the first end surface 53a the push rod 53 educated. The depression 56 take the second end 40b the valve rod 40 on. In addition, the main return spring 19 so on the outer circumference of the push rod 53 attached so that it surrounds the outer circumference.

Because the push rod 53 between the main valve element 13 and the auxiliary valve element 33 is provided, the second end 40b the valve rod 40 through the peripheral wall of the recess 56 held when not in contact with the bottom of the well 56a the depression 56 the push rod 53 is when the main valve element 13 of the first valve section 10 is at the first switching position. If the main valve element 13 Therefore, no force acts in the direction to the auxiliary valve element 33 (in 2 left side) on the valve element 40 and the auxiliary valve element 33 is held at the first switching position.

In contrast, when the main valve element 13 is switched from the first shift position to the second shift position, the push rod moves 53 together with the main valve element 13 in the direction to the auxiliary valve element 33 , Accordingly, the second end lies 40b the valve rod 40 at the bottom of the well 46a the push rod 53 on and the valve stem 40 becomes the auxiliary valve element 33 pressed. As a result, the auxiliary valve element 33 on the auxiliary valve seat 34 in the auxiliary valve housing 32 seated by the arranged on the opposite side first end 40a the valve rod 40 pressed, the auxiliary valve element 33 is from the auxiliary valve seat 34 raised, and the auxiliary valve element 33 is switched to the second switching position.

As in the 1 and 6 is shown is on the switching valve 1 In the present embodiment, a pair of brackets 60 . 60 at one end of the valve body 2 (left side in 3 ) using several first and second mounting screws 65 and 66 appropriate. As in the 1 and 6 shown is the bracket 60 provided to the first valve section 10 integral with the second valve section 30 and is formed of a hard material, for example a metal plate or a plastic plate, into a substantially L-shaped configuration. In addition, the bracket includes 60 first connection plates 61 at the block 51 of the middle connection section 50 on an end face 51a that the second valve section 30 opposite, are fixed, and second connection plates 62 on both walls of the case 31 of the second valve section 30 which are arranged in a direction perpendicular to the axis L, are fixed.

As in the 1 and 6 shown has the first connection plate 61 an elongate plate shape having a length substantially equal to that of the end surface 51a of the block 51 in the longitudinal direction (vertical direction in 1 ). It also has the first connection plate 61 first mounting holes 63 . 63 which is the first connection plate 61 in a thickness direction at positions at both ends in the longitudinal direction. On the other hand, the second connection plate 62 a plate piece projecting substantially perpendicularly from the edge extending in the longitudinal direction of the first connection plate 61 extends. A pair of second mounting holes 64 . 64 is formed at the distal end in the angled direction (axis L direction). As in 6 is shown is also a pair of Schraubeneinsetzlöchern 39 . 39 on both walls of the housing 31 of the second valve section 30 designed so that the first mounting holes 64 the screw insertion holes 39 . 39 be assigned.

If the clip 60 is used to the first valve section 10 with the second valve section 30 To connect, both walls of the housing 31 of the second valve section 30 through the second connection plates 62 the bracket 60 compressed, leaving the second mounting holes 64 . 64 that in the second connection plates 62 are formed, to the Schraubeneinsetzlöchern 39 . 39 of the housing 31 be aligned. In this state, the first mounting screws 65 from the outside in one of the clips 60 used. Then the brackets 60 through nuts 69 over slices 67 on the outside of the other of the clips 60 attached, thereby forming a pair of brackets 60 and the case 31 of the second valve section 30 connect to.

Then, a plate surface of the first connection plate 61 the bracket 60 in contact with the endface 51a of the block 51 of the middle connection section 50 brought. Then the first mounting holes 63 the first connection plate 61 , Screw insertion holes 57 that are in corners of the block 51 are formed, and Schraubeneinsetzlöcher 72 the seal 70 aligned with each other, and the first mounting screws 65 be in the holes 63 . 57 and 72 used. Then external threads (not shown in the drawing), which are at the distal end of the first fastening screw 65 are formed in threaded holes 5 of the housing 11 of the first valve section 10 screwed. This will be the first valve section 10 and the second valve portion 30 integrally connected with each other. In the above example, first, the second connection plate 62 and the case 31 of the second valve section 30 connected. But it can also first the first connection plate 61 and the first valve portion 10 be connected to each other.

If at the switching valve 1 with the above structure of the second cylinder chamber 21b the valve drive section 20 no pilot or control air is supplied (OFF state), then the main valve element 13 that is in the main valve body 12 of the first valve section 10 is received, by a biasing force of the main return spring 19 to the other end 13b of the main valve element 13 biased as it is in the 2 and 3 is shown. Accordingly, the main valve portion 14 of the main valve element 13 arranged at the first switching position, where it at the second valve seat 17b is applied. In this state, the connection between the main supply port P1 of the first valve portion 10 and the main output port A1, while the flow passages between the main output port A1 and the main drain port R1 communicate with each other, so that compressed air from the main output port A1, ie, exhaust air from the actuator, is discharged into the environment through the main drain port R1.

If the main valve element 13 is at the first switching position, is the first end face 53a the push rod 53 (the well bottom 56a the depression 56 ) connected to the main valve element 13 connected, not in contact with the second end 40b the valve rod 40 in the second valve element 30 as it is in 3 is shown. Accordingly, the valve stem 40 by a biasing force of the rod return spring 44 to the main valve element 13 biased, and the first end 40a the valve rod 40 and the auxiliary valve element 33 are separated from each other by a specified distance. As a result, the auxiliary valve element 33 arranged at the first switching position, in which it by the biasing force of the auxiliary return spring 38 on the auxiliary valve seat 34 in the auxiliary valve housing 32 seated. When the auxiliary valve element 33 is at the first switching position, the flow passages between the auxiliary input port P2 of the second valve portion 30 and the auxiliary output terminal A2 blocked. As indicated by the arrow in 2 and 3 is shown, then discharge air flows from the auxiliary output port A2 through the bleeding passage 46 passing through the first opening 46a , the intermediate passage 46c and the second opening 46b in the valve stem 40 is formed, in the second opening 52b of the middle connection section 50 and goes through the ambient vent port 55 drained into the environment.

If in this state no pilot or control air into the second cylinder chamber 21b the valve drive section 20 is introduced (ON state), the drive piston 23 to the first cylinder chamber 21a driven. Demensprechend moves with the piston 23 connected main valve element 13 against a biasing force of the main return spring 19 to a position near one end 13a (to the auxiliary valve element 33 ) and the valve section 14 of the main valve element 13 is shifted to the second shift position in which it is at the first main valve seat 16b is present (cf. 4 ). If the main valve element 13 is at the second shift position, the main supply port P1 and the main output port A1 communicate with each other, and the main output port A1 and the main discharge port R1 are disconnected from each other.

When the push rod 53 together with the main valve element 13 to the auxiliary valve element 33 moves, lies here the well bottom 56a the depression 56 the push rod 53 at the second end 40b the valve rod 40 on (cf. 5 ). If in this condition the valve stem 40 against a biasing force of the rod return spring 44 to the auxiliary valve element 33 is moved, takes a distance between the first end 40a the valve rod 40 and the auxiliary valve element 33 from.

If the distance between the first end 40a the valve rod 40 and the auxiliary valve element 33 it will be zero on the auxiliary valve seat 34 seated auxiliary valve element 33 through the first end 40a the valve rod 40 against a biasing force of the auxiliary return spring 38 pressed. As a result, the auxiliary valve element 33 arranged at the second switching position, in which it from the auxiliary valve seat 34 is lifted off, and the flow passages between the auxiliary input port P2 and the auxiliary output port A2 communicate with each other. As indicated by the arrow in 4 is indicated, compressed air supplied from the auxiliary input port P2 is output through the auxiliary output port A2.

As described above, the main valve element 13 from the first shift position to the second shift position, the auxiliary valve element synchronized with the shift moves from the first shift position to the second shift position. When the auxiliary valve element 33 is at the second switching position, also becomes the first opening 46a that is the first end 40a opens, closed, because the first end 40a the valve rod 40 on the auxiliary valve element 33 is applied. Accordingly, the vent passage stand 46 in the valve stem 40 and the auxiliary output terminal A2 not in communication with each other.

When in this state, the supply of pilot air into the second cylinder chamber 21b the valve drive section 20 is interrupted (OFF state) and pilot air from the second cylinder chamber 21b is discharged, the main valve element returns 13 of the first valve section 10 by a biasing force of the main return spring 19 from the in 4 shown second switching position to the in 2 shown back first switching position.

Accordingly, the moves with the main valve element 13 connected push rod 53 together with the main valve element 13 in the direction to the main valve element 13 (in 2 to the right), and the valve stem 40 is due to a biasing force of the rod return spring 44 to the main valve element 13 biased, causing the pressing force of the valve stem 40 on the auxiliary valve element 33 is released. This engages the annular flange 41 the valve rod 40 at the peripheral edge of the opening 47a the lid element 47 on, causing the movement to the main valve element 13 is limited. The auxiliary valve element 33 is configured by a biasing force of the auxiliary return spring 38 to the first switching position in which it is on the auxiliary valve seat 34 sits down to return.

As described above, the auxiliary valve element returns 33 , which is synchronized with this movement, by a spring biasing force of the auxiliary return spring 38 from the second shift position to the first shift position when the main valve element 13 through the main return spring 19 is moved from the second shift position to the first shift position.

As described above, in the switching valve 1 according to the present invention, the main valve element 13 and the auxiliary valve element 33 designed so that they move in mutual synchronization. For example. in the detection of the switching position of the main valve element 13 in the first valve section 10 Accordingly, the switching position of the main valve element 13 be detected by compressed air from the Auxiliary output port A2 in the second valve portion 30 is output to a suitable display device, for example a pneumatic indicator. In addition, compressed air coming from the auxiliary output port A2 in the second valve portion 30 is output as a driving force for actuators other than the first valve portion 10 be used. Accordingly, that of the second valve portion 30 Issued used air depending on the situation selectively. Since the first valve section 10 and the second valve portion 30 Also, two different fluid passages through a single switching valve 1 be switched.

The switching valve according to the present invention has been described above. However, the present application is not limited to this embodiment, and various modifications can be made without departing from the scope of the appended claims.

For example, in the illustrated example, the first valve portion 10 formed as a three-way valve, and the second valve portion 30 is designed as a two-way valve. However, the number of terminals is not limited to this. In addition, the middle connection section 50 between the first valve section 10 and the second valve portion 30 arranged so that the main valve element 13 over the push rod 53 of the middle connection section 50 indirectly with the auxiliary valve element 33 communicates. As long as the main valve element 13 and the auxiliary valve element 33 can move synchronized, the main valve element 13 but also directly with the auxiliary valve element 33 be connected without the push rod 53 to use.

LIST OF REFERENCE NUMBERS

1

 switching valve

2

 valve body

10

 first valve section

12

 Main valve housing

19

 Main return spring

20

 Valve drive section

30

 second valve section

32

 Auxiliary valve housing

38

 Auxiliary return spring

40

 valve rod

46

 Vent passage

55

 Environment exhaust port

A1

 Main output port

A2

 Auxiliary output port

P1

 Main supply port

P2

 Auxiliary supply port

R1

 Main drain port

QUOTES INCLUDE IN THE DESCRIPTION

This list of the documents listed by the applicant has been generated automatically and is included solely for the better information of the reader. The list is not part of the German patent or utility model application. The DPMA assumes no liability for any errors or omissions.

Cited patent literature

• JP 2014-228081 A1 [0002]
• JP 2003-74742 A1 [0003, 0004]

Claims (5)

Switching valve ( 1 ) with a first valve section ( 10 ), which connects a first fluid passage with a plurality of main ports (A1, P1, R1), and a second valve section (FIG. 30 ) switching a second fluid passage having a plurality of auxiliary ports (A2, P1) isolated from the first fluid passage, the first valve portion (16) 10 ) and the second valve section ( 30 ) at one end or the other end of a valve body ( 2 ) are provided, wherein the first valve section ( 10 ) a main valve housing ( 12 ), which communicates with the main ports (A1, P1, R1), a main valve element ( 13 ) located in the main valve body ( 12 ) and configured to switch connection states between the main ports (A1, P1, R1), and a valve driving section ( 20 ), the main valve element ( 13 ), wherein the second valve section ( 30 ) an auxiliary valve housing ( 32 ) communicating with auxiliary ports (A2, P2) and an auxiliary valve element ( 33 ), which in the auxiliary valve housing ( 32 ) and is adapted to switch connection states between the auxiliary connections (A2, P2), wherein the main valve housing ( 12 ) and the auxiliary valve housing ( 32 ) and the main valve element ( 13 ) and the auxiliary valve element ( 33 ) are each aligned coaxially on an axis (L), and wherein the main valve element ( 13 ) and the auxiliary valve element ( 33 ) perform synchronized switching operations. Switching valve ( 1 ) according to claim 1, characterized in that the first valve section ( 10 ) is a two-position valve, wherein the main valve element ( 13 ) has a first switching position and a second switching position, and that the second valve portion ( 30 ) a two-position valve, wherein the auxiliary valve element ( 33 ) has a first switching position and a second switching position, and is a two-port valve having two ports, an auxiliary input port (P2) and an auxiliary output port (A2). Switching valve ( 1 ) according to claim 1 or 2, characterized in that the main valve element ( 13 ) and the auxiliary valve element ( 33 ) through the valve drive section ( 20 ) are driven when moving from the first shift position to the second shift position, and by a return spring ( 19 . 38 ) are driven as they move from the second shift position to the first shift position. Switching valve ( 1 ) according to one of claims 1 to 3, characterized in that a valve rod ( 40 ) extending in the direction of the axis (L), between the main valve element (FIG. 13 ) and the auxiliary valve element ( 33 ) is provided, so that the main valve element ( 13 ) and the auxiliary valve valve element ( 33 ) through the valve stem ( 40 ). Switching valve according to claim 4, characterized in that the valve rod ( 40 ) a vent passage formed therein ( 46 ), and that the vent passage ( 46 ) to the auxiliary output port (P2) and an ambient exhaust port ( 55 ), which is open to the environment, communicates.

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