DE202020100315U1 - Measuring coupling - Google Patents

Abstract

Measuring coupling with
- A base body (1) having
• an external screw thread (2) and
• an external connection thread (3),
- A passage (4) extending from a first end to a second end, the passage (4) having a first section (4.1) facing the first end and a second section (4.2) facing the second end and one between the first section (4.1) and the second section (4.2) arranged valve seat (5),
- In the first section (4.1) of the passage (4) arranged spring (6) and
- A valve cone (7) arranged in the passage (4), the valve cone (7) having a conical sealing surface and biased by the spring (6) from the first section (4.1) with the conical sealing surface in the direction of the valve seat (5) characterized in that the passage (4) is formed by the base body (1) and that a sealing ring (9) is arranged between the sealing surface of the valve cone (7) and the spring (6), the first section (4.1 ) and the valve seat (5) is formed a third section (4.3), the diameter of which is smaller than the diameter of the first section (4.1) and larger than the diameter of the second section (4.2).

Description

The present invention relates to a measuring coupling with a base body, having an external screw thread and a connecting external thread, a passage extending from a first end to a second end, the passage having a first section facing the first end and a second section facing the second end, and a formed between the first section and the second section, a spring arranged in the first section of the passage and a valve cone arranged in the passage, the valve cone having a conical sealing surface and of the spring from the first section with the conical sealing surface in the direction the valve seat is biased.

Such measurement couplings are used to make connections to pressure systems for control, measurement and testing purposes. As a rule, the measuring coupling with the screw-in external thread is connected to the pressure system, so that the medium under pressure is applied via the first end in the first section of the passage of the measuring coupling and presses the valve cone into its sealing position. To connect measuring or test instruments, for example, a connecting line with a nut is screwed onto the external connection thread, a pin being provided which displaces the valve cone against the spring preload, so that a fluidic connection between the first section and the second section and thus also one Connection between the printing system and the test or measuring instrument is established.

Such a measurement coupling is sold, for example, by the applicant's group of companies under the type designation EMA3. In this measuring coupling, the first section of the passage is formed directly by the base body, the spring and the valve cone being inserted into the base body from the end forming the external connection thread. An insert is also screwed into the base body from this side and forms the valve seat for the valve cone and the second section of the passage.

It has now been found that improper use poses a risk that the insert can come loose from the base body. Due to the high pressure in the pressure system, such a loose application and the valve cone would be accelerated to high speeds.

The object of the present invention is therefore to eliminate the disadvantages described with reference to the prior art and in particular to provide a measuring coupling in which the risk of malfunction is reduced.

The task is solved by a measuring coupling with the features of the independent claim. Advantageous further developments of the measuring coupling are specified in the subclaims and in the description, wherein individual features of the advantageous further developments can be combined with one another in a technically meaningful manner.

The object is achieved in particular by a measuring coupling with the features mentioned at the beginning, in which the passage is formed by the base body and in which a sealing ring is arranged between the sealing surface of the valve cone and the spring, with a third section between the first section and the valve seat is formed, the diameter of which is smaller than the diameter of the first section and larger than the diameter of the second section.

It is therefore provided that both the first section, the second section, the third section and the valve seat are formed by the base body. Thus, however, all forces generated by the pressurized fluid are absorbed directly by the base body. For this purpose, it is provided in particular that the base body has a bore which realizes the first section of the passage, which extends from the end having the screw-in external thread into the base body and is used for introducing the valve cone and the spring. The bore also forms the valve seat, against which the valve cone is tensioned by the spring.

The basic idea of the invention therefore provides that the valve cone is pressed from the side facing the pressure system (on the side of the screw-in external thread) against the (conical) valve seat formed by the basic body itself, so that due to the geometric configuration of the basic body and the valve cone It is prevented that the valve plug, when connected to the pressure system, cannot come out of the test coupling on the connection side even if it is operated improperly. It is therefore not possible for the valve cone to leave the base body on the side of the external connection thread, since the valve seat formed by the base body has a smaller diameter than the valve cone.

A third section is formed between the first section and the valve seat, the diameter of which is smaller than the diameter of the first section and larger than the diameter of the second section. The base body thus has the male screw thread starting from it end having a kind of stepped bore, which forms the valve seat, the third section adjoining the valve seat and the first section. Such a basic body is very easy to manufacture.

In order to increase the sealing properties of the measuring coupling, it is provided that the sealing ring is arranged in the axial direction between the sealing surface of the valve cone and the spring. Such a sealing ring is in particular dimensioned such that it lies against a wall of the passage in the radial direction, at least in the blocking position of the measuring coupling. In the blocking position, the first section is not only fluidically separated from the second section of the passage by the metallic sealing seat between the valve seat and the valve cone, but also by the additional sealing ring, which is preferably arranged directly adjacent to the sealing surface of the valve cone.

In particular, it is provided that the sealing ring is arranged in the third section in the closed state (blocking position) of the measuring coupling. The sealing ring thus lies in the locked position with its radially outwardly facing peripheral surface on the inside of the third section.

The length of the third section is preferably dimensioned such that the sealing ring is displaced into the first section by or with the valve cone when the measuring coupling is open. Since the first section has a larger diameter than the third section, the flow connection from the first section to the second section is released when the measuring coupling is open.

In order to hold the valve cone and the spring captively in the base body and to provide a support for the spring, a support element held by the base body is introduced in the first section of the passage. The spring is supported on the support element. This support element can be formed, for example, by a (sleeve-shaped) bush, which is pressed from the end having the screw-in external thread into the passage formed by the base body (in particular, in the first section of the passage). This support element, which is preferably non-positively fastened in the passage, only has to absorb the spring force.

It can also be provided that the valve cone has a guide extension which extends from the sealing surface into the second section of the passage and guides the valve cone during its relative movement to the base body in the second section. The guide extension, which is in particular formed in one piece with the valve cone, therefore has, in particular in sections, a diameter which approximately corresponds to the diameter of the second section of the passage. This prevents the valve plug from tilting too much during a linear movement in the passage if the valve plug is actuated by the connection of the measuring instrument.

The invention and the technical environment are explained below by way of example with reference to the figure.

The figure shows a sectional view through a measuring coupling according to the invention. The measuring coupling comprises a basic body 1 , at its first end (in the figure below) an external screw thread 2nd for connection to a pressure system and at its second end (in the figure above) an external connection thread 3rd is designed for connection to a measuring instrument.

In the main body 1 is a through the entire body 1 extending passage 4th educated. The passage 4th has a first section 4.1 , a subsequent third section 4.3 as well as a second section 4.2 on. Between the third section 4.3 and the second section 4.2 the base body forms a conical valve seat 5 out.

The diameter of the different sections of the culvert 4th are dimensioned so that a valve cone 7 from the end of the male thread 2nd forth into the culvert 4th can be used. The valve cone 7 comes with its conical sealing surface with the valve seat 5 in contact so that a metallic sealing seat is formed. The valve cone 7 can therefore not continue through the culvert 4th be moved. The valve cone 7 also has an extension 8th on that in the assembled state in the second section 4.2 of the culvert 4th is arranged. The leadership process 8th has a head, the diameter of which is approximately the diameter of the second section 4.2 corresponds so that the valve cone 7 during a relative movement to the base body 1 through the guide extension 8th is guided, a fluidic connection along the guide extension 8th but is given.

Below the sealing surface of the valve cone 7 is also a sealing ring 9 arranged in the 1 shown locking position in the third section 4.3 of the culvert 4th is arranged and the passage 4th seals in the radial direction.

The valve cone 7 is by means of one in the first section 4.1 arranged spring 6 towards the valve seat 5 biased.

The feather 6 is supported by a socket 10th starting after inserting the valve cone 5 and the feather 6 in the culvert 4th is non-positively pressed.

In 1 the measuring coupling is shown in a locked position, in which the sealing surface of the valve cone 7 against the valve seat 5 is pressed, whereby a metallic sealing seat is formed. In addition, there is a seal through the sealing ring 9 . Because the valve seat 5 in one piece on the base body 1 trained, the valve cone can also be operated improperly 7 not in the direction of the connection-side end from the passage 4th stepping out.

When a measuring instrument is connected to the measuring coupling, the valve cone becomes 7 moved against the spring force by a pin-shaped extension of the connection, so that a fluid connection between the first section 4.1 and the second section 4.2 of the culvert 4th will be produced.

Reference list

1

Basic body

2nd

Male thread

3rd

External thread

4th

passage

4.1

first section

4.2

second part

4.3

third section

5

Valve seat

6

feather

7

Valve cone

8th

Leadership extension

9

Sealing ring

10th

Rifle

Claims (5)

Measuring coupling with - a base body (1), comprising • an external screw thread (2) and • an external connection thread (3), - a passage (4) extending from a first end to a second end, the passage (4) being one of the first The first section (4.1) facing the end and a second section (4.2) facing the second end and a valve seat (5) arranged between the first section (4.1) and the second section (4.2), - one in the first section (4.1) of the passage (4) arranged spring (6) and - a valve cone (7) arranged in the passage (4), the valve cone (7) having a conical sealing surface and of the spring (6) from the first section (4.1) the conical sealing surface is prestressed in the direction of the valve seat (5), characterized in that the passage (4) is formed by the base body (1) and that between the sealing surface of the valve cone (7) and the spring (6) a sealing ring (9) is arranged, a third section (4.3) being formed between the first section (4.1) and the valve seat (5), the diameter of which is smaller than the diameter of the first section (4.1) and larger than the diameter of the second section (4.2). Measuring coupling after Claim 1 , wherein the sealing ring (9) is arranged in the closed state in the third section (4.3). Measuring coupling after Claim 1 or 2nd The third section (4.3) has a length such that the sealing ring (9) is displaced by the valve cone (7) in the first section (4.1) in the open state. Measuring coupling according to one of the preceding claims, wherein the valve cone (7) has a guide extension (8) which extends from the sealing surface into the second section (4.2) of the passage (4) and which extends the valve cone (7) during a relative movement to the base body ( 1) leads in the second section (4.2). Measuring coupling according to one of the preceding claims, wherein the spring (6) is supported on the side opposite the valve cone (7) on a bush (10) which is non-positively pressed into the passage (4).

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