CH684767A5 - Sealing device for transmitter. - Google Patents

Description

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description

The invention relates to a sealing device for sensors of the type mentioned in the preamble of claim 1.

Such sealing devices are suitable, for example, for securing probes in a sensor for a state-calibrated flow volume meter, which as a measuring instrument must be protected against unauthorized interference.

From EP 249 691 a flow volume meter for liquid media is known which measures the flow velocity of the medium by means of ultrasonic waves.

US Pat. No. 4,325,262 shows possible configurations of the sensor.

European patent application EP-93 120 935.7 describes a plate-shaped housing for an ultrasonic transducer. The ultrasonic transducer has a disk made of piezoceramic as an active part of the arrangement.

The German utility model G 8 802 130.0 shows the construction of an electronically evaluable temperature sensor.

Each sensor of such a flow volume meter has at least two ultrasonic transducers and at least one temperature sensor as probes, which are attached to the housing of the sensor by means of screws or nuts. Any unauthorized manipulation can affect the calibration of the flow volume meters.

The invention has for its object to provide a sealing device that inexpensively and safely prevents tampering with probes of a transmitter for a flow volume meter.

According to the invention, the stated object is achieved by the features of claim 1. Advantageous configurations result from the dependent claims.

Exemplary embodiments of the invention are explained in more detail below with reference to the drawings.

It shows:

1 shows a transmitter,

2 an ultrasonic transducer,

3 the transmitter with a measuring device,

4 a cover,

Fig. 5 an adapter and

Fig. 6 shows a connecting means.

In Fig. 1, 1 means a sensor, 2 a supply line and 3 a derivative of the sensor 1 for a pipe system with a medium, 4 and 5 ultrasonic transducers in their housing, 6 a temperature sensor, 7 an adapter and 8 a connecting means for connecting the sensor 1 with the adapter 7. The ultrasonic transducers 4, 5 and a temperature sensor 6 are probes of the sensor 1.

By way of example, the transmitter 1 consists of a tubular part with a central axis 9, which is sealed on both sides with the ultrasonic transducers 4, 5 or with their housing, with the disk-shaped housings 4, 5 being fastened with fastening means with end flanges 10, 11 of the transmitter 1 connect. The ultrasound transducers 4, 5 have an identical structure, are aligned concentrically with the central axis 9 and lie opposite one another on the central axis 9. The supply line 2 and the discharge line 3 are embedded in the wall of the sensor 1. From the pipe system not shown here, the medium flows through the feed line 2 into the measuring sensor 1 through a measuring pipe not shown here and leaves the measuring sensor 1 via the drain line 3 in order to flow back into the pipe system. The flow velocity of the gaseous or liquid medium in the measuring tube can be measured by means of ultrasonic waves.

The temperature sensor 6 is guided through the wall of the sensor and is sealed in a manner known per se by means of a screw connection 12. The screw-on nut of the screw connection 12 has a sealing device on the outer edge, for example a cord eye 13. As soon as the device is sealed, the screw connection 12 of the temperature sensor 6 can no longer be loosened without breaking the seal.

The adapter 7 comprises at least two cover elements 14, 15 which are rigidly connected to a web 16 at a predetermined distance. In the example shown, the cover elements 14, 15 are arranged parallel and perpendicular to the web 16. The cover elements 14, 15 are spaced such that they can be pushed precisely over the ultrasonic transducers 4, 5. In addition, the adapter 7 can be fastened on the sensor 1 to form the adapter 7 as a carrier for a measuring device. A central screw is shown here as the connecting means 8, which is screwed into a thread on the sensor 1.

The adapter 7 has a tab 17 with an eyelet 18 on at least one of the two long sides of the web 16. The tab 17 is arranged such that the eyelet 18 is in the vicinity of the cord eyelet 13 when the adapter 7 is placed on the sensor 1. If a sealing means 19, usually a cord or wire, is looped tightly through the two eyelets 13 and 18 and the loop of the sealing means 19 is secured by means of the seal, the adapter 7 can no longer be removed from the transmitter 1 without breaking the seal .

The sealing device has the advantage that the probes 4, 5, 6 are jointly protected against unauthorized manipulations which interfere with the calibration or functioning of the transmitter 1, and only one sealing means 19 needs to be monitored to monitor the integrity of the sealing.

In the alternative, a second tab 17 ′ with the eyelet 18 can be arranged on the opposite long side of the web 16 in order to guide the sealing means 19 around the sensor 1. The sealing means 19 secures the seat of the adapter 7 via the connection of the tabs 17 and 17 'and the cord eye 13, even if, as is customary in practice, the sealing means 19 is not very tight.

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is looping. In the drawing of FIG. 1, the sealing means 19 known per se is only drawn for the tab 17 'in order to clearly show the area surrounding the tab 17.

2, the ultrasound transducer 4 is shown in section. Fastening means 20, 20 ', for example screws, connect the ultrasound transducer 4 tightly to the end flange 10. The plate-shaped ultrasound transducer 4 is oriented with its active part 4' set up for ultrasound conversion to the central axis 9 and has on its outer side 21 that of the end flange 10 facing away, a recess 22 in the area of at least one fastening means 20. The recess 22 accommodates the cover element 14 with a precise fit, so that only the scope necessary for pushing on the adapter 7 remains between the ultrasound transducer 4 and the cover element 14. The fastening means 20 can be covered by the cover element 14 in such a way that tampering with the ultrasonic transducer 4 is impossible without removing the adapter 7. With the corresponding reference numbers, this also applies to the second ultrasonic transducer 5 (FIG. 1).

3 shows the sensor 1 of FIG. 1 rotated by 90 ° in such a way that the temperature sensor 6 remains visible. The adapter 7 is firmly connected to a slug 23 on the wall of the sensor 1, for example with the screw screwed into a thread in the slug 23 as a connecting means 8 (FIG. 1). On the adapter 7, the measuring device 24 is placed and fastened on the web 16 with an intermediate piece 25 such that it can be rotated and tilted.

The measuring device 24 is connected by cable to the probes 4, 5, 6, which transmit measurement signals to an evaluation device in the measuring device 24. The housing of the measuring device 24 is, for example, in two parts with a. Upper and lower part 27 executed. The lower part 27 is connected in an articulated manner to the intermediate piece 25 via a joint 26, so that the measuring device 24 can be tilted away from the transmitter 1 by about 100 ° about a tilt axis 28. The intermediate piece 25 is connected to the adapter 7 so as to be rotatable about an axis of rotation 29. The cables to the probes 4, 5, 6 must therefore be chosen to be long enough not to hinder the rotation and tilting movement of the measuring device 24.

Instead of this complex turning and tilting device, the lower part 27 of the measuring device 24 can be firmly connected to the adapter 7 in order to obtain an inexpensive, robust design. The lower part 27 and the adapter 7 can advantageously form a single component in a material-saving manner, since preferably both parts, the adapter 7 and the lower part 27, are made of plastic.

4 shows the ultrasound transducer 4 in the sectional plane which is defined by the central axis 9 and the fastening means 20. The fastening means 20 connects the ultrasound transducer 4 to the end flange 10 and is inserted into the ultrasound transducer 4 flush with the surface of the recess 22.

In order to prevent tampering, an advantageous embodiment of the cover element 14 has a rib 30 which reinforces the cover element 14. In addition, the gradation of the recess 22 forms an additional resistance against the penetration of foreign bodies. With the corresponding reference numbers, this also applies to the second ultrasonic transducer 5 (FIG. 1).

5 shows a perspective illustration of an embodiment of the sealing device. The only tab 17 (FIG. 1) is located on the side of the adapter 7 that is not visible here. The cover elements 14, 15 have the shape of circular ring sections and are reinforced with the ribs 30. In the middle of the web 16 there is a bayonet socket 31 in the center of a ring gear 32 which has teeth 33 on its outside and which has two lugs 34 and 35 directed radially against the bayonet socket 31 on the inside which is smooth per se.

The bayonet socket 31 consists of a hollow, cylindrical base with a circular ring 36 as a cover. On the inside of the circular ring 36, three recesses 37 are cut out. The intermediate piece 25 (FIG. 3) has, on the side facing the web 16, a pin (not shown here) with radial ribs corresponding to the three cutouts 37 which have unequal widths. This pin is coaxial to the axis of rotation 29 (FIG. 3) and fits with its ribs in a single position into the circular ring 36 and into the recesses 37 and can only be inserted into the bayonet mount 31 in this position. When inserting the pin, the intermediate piece presses e.g. nose 34 down.

As soon as the intermediate piece 25 rests on shoulders 38 of the web 16 outside the ring gear 32, the ribs of the pin are below the circular ring 36, so that the intermediate piece 25 can be rotated about the axis of rotation 29. Rotation of the intermediate piece 25 about the axis of rotation 29 releases the depressed nose 34, which springs back into its rest position and now, together with the second nose 35, prevents the intermediate piece 25 from returning to the position necessary for removing the pin from the bayonet mount 31 can be turned back. The measuring device 24 (FIG. 3) connected to the intermediate piece 25 can be rotated between the two lugs 34, 35 by at least 270 ° about the axis of rotation 29 without the closure 31 ′ opening from the pin and the bayonet mount 31. The bayonet catch 31 'can only be opened if the intermediate piece 25 is turned back with great torque via the stop of the first nose 34. In order to avoid damage, the stop surface of the nose 34 is at an angle of approximately 10 ° to 25 ° to the plane of the axis of rotation 29, so that the intermediate piece 25 can press the nose 35 down when it is turned back.

The limitation to an angle of rotation of approximately 270 ° enables the cables between the probes 4, 5, 6 to be kept short and, for example, advantageously to be guided within the ring gear 32 so that the cables are protected during the rotation and tilting movement of the measuring device 24.

The ring gear 32 has on the outside

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relatively flat teeth 33. A resilient finger of the intermediate piece 25, not shown here, engages in the teeth 33 so that the rotary movements about the axis of rotation 29 end in one of the latching positions. The measuring device 24 can therefore not move uncontrolled by gravity from a position that is advantageous for reading. The torque required to open the bayonet lock 31 'is a multiple of the torque which must be applied for a movement about the axis of rotation 29 which is inhibited by the detent.

As a connecting means, resilient hooks 39, 40 are arranged on the adapter 7, for example at the transition of the cover elements 14, 15 to the web 16. When the adapter 7 is pushed on, the hooks 39, 40 engage the measuring transducer 1 behind projections of the measuring transducer 1 when the adapter 7 with web 16 rests on sensor 1. The hooks 39, 40 ensure a firm fit of the adapter 7 on the sensor 1 with little effort. The vibration resistance of this connection is advantageous, since vibrations are unavoidable in the flowing medium, which vibrations are transmitted to the measuring sensor 1 via the pipe system.

For example, in FIG. 6 the hook 39 engages behind a bar 41 which is arranged on the side of the end flange 10 facing away from the ultrasonic transducer 4 when the adapter 7 is pressed down with the web 16 onto the predetermined position of the sensor 1, whereby the adapter 7 with the cover elements 14, 15 (FIG. 5) supports the recesses 22 (FIG. 4) of the ultrasonic transducers 4, 5 (FIG. 1). The connection is therefore rigid and secure due to the spring forces in the adapter 7 and the hook 39, 40. The connection can only be released if the intermediate piece 25 (FIG. 3) is not placed on the adapter 7 or removed again and the web 16 is exposed, so that the hook 39 is accessible for opening the connection.

Since the cover element 14 rests on the ultrasound transducer 4, a self-adhesive label 42 can also be used as an additional seal. The mark 42 is glued over the joint between the cover element 14 and the ultrasonic transducer 4. Any attempt to remove the mark 42 or to strain it destroys the mark 42. Such sealing agents are known per se.

Measuring transducers 1 are known from US Pat. No. 4,325,262 mentioned at the beginning, in which the two ultrasonic transducers are arranged on the same side. The adapter 7 can be easily adapted to these sensors 1.

Claims (8)

Claims 1. Sealing device for a transducer (1) of a flow volume counter for securing probes (4; 5; 6) against unauthorized manipulation, which are introduced into the transducer (1) and at least two ultrasonic transducers (4; 5) and a temperature sensor (6) comprising, characterized in that an adapter (7) two cover elements (14; 15) and at least one web (16) which are connected to one another such that each cover element (14 or 15) is let into a recess (22) on the outside of the two ultrasonic transducers (4; 5) and at least one fastening means (20; 20 ') of each ultrasonic transducer (4 ; 5) on the measuring sensor (1) covers that the adapter (7) is arranged along the measuring sensor (1) and has at least one tab (17; 17 ') with an eyelet (18), which together with a cord eyelet (13) the screw connection (12) of the temperature sensor (6) to the measuring value transmitter (1) is set up for looping through a common sealing means (19). 2. Sealing device according to claim 1, characterized in that the cover elements (14; 15) to secure against displacement of the adapter (7) on the sensor (1) have the shape of circular ring sections, which in correspondingly shaped recesses (2) of the ultrasonic transducer (4; 5) fit. 3. Sealing device according to claim 1 and 2, characterized in that the adapter (7) by means of connecting elements (8; 39, 41; 40, 41) is fixedly connected to the transmitter (1). 4. Sealing device according to claim 3, characterized in that a measuring device (24) for evaluating the measurement signals of the probes (4; 5; 6) is arranged on the adapter (7). 5. Sealing device according to claim 4, characterized in that the measuring device (24) for better reading is rotatable and tiltable on the adapter (7). 6. Sealing device according to claim 5, characterized in that an intermediate piece (25) of the measuring device (24) is rotatably connected to the adapter (7) on the web (16) by means of a bayonet catch (31 '). 7. Sealing device according to claim 6, characterized in that the bayonet catch (31 ') comprises a pin with ribs and a bayonet socket (31), the pin with its ribs in recesses (37) of a circular ring (36) of the bayonet socket (31) fits, and that after a first turning of the pin in the bayonet mount (31) the bayonet lock (31 ') is secured against opening with locking means (34; 35). 8. Sealing device according to one of claims 1 to 7, characterized in that for securing against removal of the adapter (7) a self-adhesive mark (42) on at least one of the joints between the one cover element (14) and the first ultrasonic transducer ( 4) or the other cover element (15) and the second ultrasonic transducer (5) are present, bridging is attached as a seal. 5 10th 15 20th 25th 30th 35 40 45 50 55 60 65 4th