DE202006016186U1 - Holding device for a measuring device - Google Patents

Abstract

holder (1) for a measuring device (2), being the meter (2) between a measuring position, in which the measuring device (2) opposite to Holding device (1) is fixed and a release position, in which the gauge (2) from the holding device (1) removable and in the holding device (1) is reusable, by a rotation about an axis of rotation (D) is convertible, wherein the holding device (1) has at least one latching device (15, 16), in which a latching portion (21) of the measuring device (2) by transferring the meter (2) can be locked in the measuring position.

Description

The The invention relates to a holding device for a measuring device.

A known from the prior art holding device for a measuring device is in 1 displayed. The conventional measuring device 2 according to 1 includes two side wings 21 with through holes for screws and a connection 22 for connecting downstream components. The measuring device 2 is attached to the conventional holding device with screws, the screws in the corresponding screw openings of the side wings 21 of the meter 2 and the openings of the conventional holding device are used and screwed. The mounting of the measuring device 2 in the conventional holding device requires primarily a high amount of time due to the screwing of the screws in the associated screw openings of the holding device. In confined spaces, the assembly is also difficult because a fitter the meter 2 as well as hold the screw to be screwed with one hand in the intended position and hold and operate the corresponding screwing tool with the other hand. Measuring instruments of in 1 shown construction are preferably used in the automotive sector in significant numbers. The pressure to reduce the material and manufacturing costs of automotive components calls for a better solution.

The invention is based on the object, the conventional holding device according to 1 to improve that a simplified assembly of the measuring device 2 is possible with less time.

Around to solve the problem underlying the invention, the invention provides the Holding device for a measuring device according to claim 1 ready. In the holding device for a measuring device according to the invention that is gauge between a measuring position in which the measuring device is opposite to the Holding device is fixed, and a release position, in which the gauge is removable from the holding device, by a rotation around a rotation axis convertible, wherein the holding device has at least one latching device, in which a latching portion of the meter by transferring the meter in the Measuring position can be latched. By the holding device according to the invention is the well-known measuring device attachable to the fixture with a single handle and detachable from the holding device (for example in the case of a required replacement of the meter). A screwing work is completely eliminated. By the locking device, the meter is safe in the measuring position positioned and holds also strong vibrations was standing.

In a preferred embodiment The invention relates to the holding device on an outer wall a hollow body formed, preferably on the outer wall of a pipe segment, through which a fluid is passed through. This embodiment is particularly suitable for the mounting and mounting of measuring devices for the measurement of fluid properties or fluid parameters such as the pressure, the temperature, etc. of the fluid.

In a further preferred embodiment the invention is a measuring head of the measuring device in an opening of an outer wall of the hollow body or Can be used to insert into the interior of the hollow body or Stand out pipe segments. This allows an immediate Contact of the measuring head with the medium in the hollow body or a fluid flowing through the tube segment. The pipe segment Can be easily integrated into a piping system. So is an existing piping system by installing the outer circumference of the tube segment formed, retainer according to the invention can be retrofitted.

In a further preferred embodiment of the invention, the latching device has a retaining hook and a latching projection, wherein the latching section of the measuring device is fixed in the measuring position between the retaining hook and the latching projection, and wherein the latching projection engages in a recess of the latching section. In the conventional measuring device form the side wings 21 the locking portions and provided in the side wings bolt openings the recesses in the context of the invention. By this advantageous embodiment of the invention, the side wings or latching portions of the measuring device are held in a latched state and in a clamping fit between the retaining hook and locking projections. This latching in the press fit also withstands strong shocks.

In a further preferred embodiment the invention falls the center of the opening with the axis of rotation together. In this version, the meter is through Rotation about the axis of rotation between the measuring position and the release position can be transferred during the in the opening inserted measuring head protrudes into the interior of the pipe segment. this makes possible a particularly simple and convenient handling of the meter in the Assembly.

In a further preferred embodiment of the invention, the axis of rotation is aligned radially to the central axis of the pipe segment. It will the measuring head during insertion through the opening in the outer wall of the tube segment radially to the central axis of the tube segment led to take an ideal measuring position.

In a further preferred embodiment the invention several locking devices are arranged around the axis of rotation, wherein in the measuring position in each latching device in each case a latching section of the meter is locked. As a result, the meter is particularly even in the Holding device held. In addition, a seal of the meter against the Edge of the opening, through which is the measuring head of the measuring device into the interior of the hollow body or pipe segment insertable is done.

In a further preferred embodiment are two locking devices on opposite sides of the axis of rotation arranged. As a result, the measuring device in the holding device is particularly safe positionable.

In a further preferred embodiment The invention is the measuring device a sensor for measuring a fluid characteristic value. Such a sensor is suitable especially for use in the holding device, on the outer circumference formed of the hollow body is. Since sensors are highly sensitive components and in case of failure need to be replaced quickly, the holding device according to the invention is suitable especially for holding a sensor for measuring a fluid characteristic value.

In a further preferred embodiment The invention is the measuring device a duo sensor for measuring different fluid characteristics.

The preferred embodiments The invention will be described below with reference to the attached Drawings described.

Brief description of the drawings:

1 shows a mounted by means of screws on a conventional holding device measuring device.

2 shows a trained on an outer circumference of a pipe segment inventive holding device without measuring device.

3 shows the holding device according to the invention 2 with inserted measuring device in release position.

4 shows the holding device according to the invention 2 with inserted measuring instrument in measuring position.

5 shows an enlarged sectional view through a locked in a locking device of the holding device latching portion of the measuring device.

6 shows a plan view of the holding device according to the invention 3 with inserted measuring device in release position.

7 shows a plan view of the holding device according to the invention according to 4 with inserted measuring instrument in measuring position.

8th shows a sectional view through a latched in the locking device of the holding device locking portion of the measuring device.

9 shows a side view of the holding device according to the invention from the 4 respectively. 7 with the measuring device inserted in it in the measuring position.

10 shows a front view of the holding device according to the invention according to the

4 respectively. 7 respectively. 9 with the measuring device inserted in it in the measuring position.

Detailed description of the preferred embodiment

1 shows a conventional holding device for a measuring device. The conventional retainer is formed on the outer circumference of a pipe segment as a thickened portion and includes two screw holes for fixing the gauge to the retainer with two screws, as in FIG 1 is shown. The gauge two comprises two lateral substantially semicircular wings 21 with central through hole for passing the screws and a connection 22 for connecting external components.

2 shows the holding device according to the invention 1 for a measuring device 2 , The measuring device 2 is in the fixture 1 between a measuring position ( 4 . 5 . 7 . 8th . 9 . 10 ), in which the meter 2 opposite the holding device 1 fixed and a release order ( 3 and 6 ), in which the meter 2 from the measuring device 1 is removable, by a rotation about a rotation axis D convertible. The holding device 1 has at least one locking device 15 . 16 on, in which a latching section 21 of the meter 2 can be latched by transferring into the measuring position.

The holding device 1 is on the outer circumference of a pipe segment 11 formed, wherein a fluid or the like through the pipe segment 1 through is conductive. The pipe segment 11 is easily integrated into a piping system.

The on the outer circumference of the pipe segment 11 trained holding device 1 includes a circular opening 13 whose central axis is perpendicular to the axis A of the tube segment, wherein the opening 13 is defined by a peripheral edge with a substantially cylindrical outer surface, the upper edge preferably terminates in a plane. Concentric around the opening 13 is the pipe segment from the wall 11 a border 12 with a top view ( 2 ) substantially oval outline, whose lateral surface is substantially parallel to the opening axis D of the wall of the pipe segment 11 extends, and its top edge together with the top edge of the opening 13 limited edge a rotationally symmetrical with respect to the opening axis D support surface for a bottom of the meter 2 Are defined. In the plan view ( 6 . 7 ) on the holding device 1 or the pipe segment 11 Ent along the opening axis D, is on an axis B, which is aligned transversely to the tube axis A in this plan view, on the outer circumference of the edge 12 , on both sides of the tube axis A, each one locking device 15 . 16 educated. The locking device according to the invention 15 . 16 includes one over the top edge of the edge 12 protruding hook portion with a back 14 and a retaining hook 15 , Under the retaining hook 15 there is a locking projection 16 slightly above the top edge of the edge 12 out. The two locking devices 15 . 16 the holding device according to the invention 1 stand in the views of the 6 and 7 mirror-symmetrical in the plan view to the axis A of the pipe segment or rotationally symmetrical about the opening axis D opposite, wherein the retaining hook 15 the hook sections 14 . 15 are aligned with the opening axis D.

In a particularly preferred embodiment of the invention, all sections or elements 11 . 12 . 13 . 14 . 15 . 16 the holding device according to the invention integrally formed or integrally formed. The preferred material is a plastic of the corresponding malleable and opposite to the through the pipe segment 11 is resistant to conductive fluids. The back 14 or the retaining hook 15 or alternatively or additionally, the latching projection 16 are due to their material properties slightly elastically deformable to a latching section 21 of the measuring device described below 2 between the retaining hook 15 and the locking projection 16 take. Instead of a plane, the upper edges of the edges 12 . 13 the holding device 1 also define a substantially funnel-shaped sliding surface, such as in 5 can be seen, taking the bottom of the meter 2 can slide on this rotationally symmetric sliding surface during rotation about the axis of rotation D.

The measuring device 2 , which is receivable in the holding device according to the invention, is a sensor for measuring a fluid characteristic, in particular a duo sensor for measuring different fluid characteristics such as a temperature value and a pressure value of the fluid. The body of the sensor includes a structure as shown in the 3 to 10 is shown. In particular, the meter includes 2 a substantially cuboid body and laterally projecting wings 21 or bulges with a central through hole or recess, wherein a cuboid connection 22 is provided for connecting other components, in the measuring position of the measuring device 2 slightly opposite to the axis A of the pipe segment 11 is inclined. As in 10 is shown, the meter has a through the opening 13 in the wall of the pipe segment 11 passing through the measuring head 23 on, the one or more fluid characteristics of a through the pipe segment 11 passed through fluid. The diameter of the opening 13 in the wall of the pipe segment 11 is preferably on the diameter of the measuring head 23 Voted. The measuring head 23 is over a neck with the outside of the wall of the pipe segment 11 lying part of the meter 2 connected. More specifically, the diameter of the opening 13 matched to the diameter of the neck, which is outside the wall of the pipe segment 11 lying part of the meter 2 with the measuring head 23 combines. In the in 10 the measuring position shown protrudes through the neck of the pipe segment 11 through, and the measuring head 23 stands in the interior of the pipe segment 11 out.

A preferred application of the holding device according to the invention is hereinafter with reference to the accompanying drawings.

The holding device according to the invention 1 attached to the wall of a pipe segment 11 is formed, is in a common manufacturing process, for. B. an injection molding process. The manufacturing process results in the holding device according to the invention 1 , in the 2 is shown.

The measuring device 2 is subsequently connected to the measuring head 23 ahead in the opening 13 in the wall of the pipe segment 11 inserted until the bottom of the meter 2 on the upper surface defining the sliding surface of the outer and inner edges 12 . 13 rests on ( 4 . 5 ). The state in which the meter 2 in the holding device 1 is completely inserted and in the release position is in 3 shown. In this state, there are the wings or latching sections 21 of the meter 2 not in engagement with the latching device or the retaining hook 15 and latching projections 16 the holding device according to the invention 1 ,

By rotation about the central axis D of the opening 13 , which simultaneously forms the axis of rotation D, becomes the measuring device 2 from the in 3 shown release position in the in 4 transferred measuring position shown. In this case, the wings or latching sections 21 of the meter 2 at the same time in the locking devices 15 . 16 the holding device 1 locked. In particular, each resting section 21 of the meter 2 in the space between a retaining hook 15 and the underlying latching projection 16 introduced, wherein the moving latching section 21 the flexible hook section 14 . 15 the Hal tevorrichtung 1 in the course of the rotational movement deflects and elastically deformed until the passage opening or recess of the locking portion 21 the locking projection 16 superimposed and the resting section 21 in the latching device 15 . 16 locks. The flexibility of the hook section 14 . 15 the holding device 1 is due to the flexibility of the material and the contour of the back 14 of the hook section 14 . 15 the holding device 1 accomplished. During the transfer of the in 3 shown release position in the in 4 shown measuring position snap the locking sections 21 of the meter 2 simultaneously in the respective locking devices 15 . 16 the holding device 1 one. Due to the symmetrical arrangement of the locking sections 21 of the meter 2 or the locking devices 15 . 16 the holding device 1 opposite the axis of rotation D is the meter 2 evenly on the holding device 1 attached. This will be the bottom of the meter 2 that points to the from the upper edges of the edges 12 . 13 defined sliding surface is matched firmly pressed against this sliding surface. Between the bottom of the meter 2 and the top of the opening 13 defining edge, a seal is provided to escape the fluid through the opening 13 to prevent if a fluid through the pipe segment 11 is passed through.

The measuring position of the measuring device 2 in the holding device according to the invention 1 is in the 4 . 5 . 7 . 8th . 9 and 10 shown. The release position of the meter 2 in the holding device according to the invention is in the 3 and 6 shown.

When transferring the meter 2 from the measuring position to the release position, the measuring device 2 is rotated about the rotation axis D either clockwise or counterclockwise to the latching between the latching sections 21 of the meter 2 and the locking devices 15 . 16 the holding device 1 to solve. To the transfer of the meter 2 From the measuring position to lock in the release position in one direction of rotation, a corresponding stop can be provided, which controls the rotation of the meter 2 blocked from the measuring position to the release position either clockwise or counterclockwise. In a similar way is the meter 2 thereby also in one direction of rotation from the release position in the measuring position can be transferred.

When transferring the meter 2 from the release position to the measuring position and vice versa no separate components and no separate tool are used.

With the holding device according to the invention 1 is the measuring device 2 easier and more comfortable to fix than with the in 1 shown conventional type of device.

Claims (10)

Holding device ( 1 ) for a measuring device ( 2 ), whereby the measuring device ( 2 ) between a measuring position in which the measuring device ( 2 ) relative to the holding device ( 1 ) and a release position in which the measuring device ( 2 ) from the holding device ( 1 ) and in the holding device ( 1 ) is reusable, by a rotation about a rotation axis (D) can be transferred, wherein the holding device ( 1 ) at least one latching device ( 15 . 16 ), in which a latching portion ( 21 ) of the measuring device ( 2 ) by transferring the measuring device ( 2 ) can be locked in the measuring position. Holding device ( 1 ) according to claim 1, wherein the holding device ( 1 ) on the outer wall of a hollow body ( 11 ) is formed, preferably on the outer wall of a pipe segment ( 11 ), through which a fluid is passed through. Holding device ( 1 ) according to claim 2, wherein a measuring head ( 23 ) of the measuring device ( 2 ) in an opening ( 13 ) of the outer wall of the hollow body ( 11 ) can be inserted into the interior of the hollow body ( 11 ) stand out. Holding device ( 1 ) according to one of the preceding claims, wherein the latching device ( 15 . 16 ) a holding hook ( 15 ) and a locking projection ( 16 ), wherein the latching portion ( 21 ) of the measuring device ( 2 ) in the measuring position between the retaining hook ( 15 ) and the locking projection ( 16 ), and wherein the latching projection ( 16 ) in a recess of the latching portion ( 21 ) intervenes. Holding device ( 1 ) according to one of claims 3 or 4, wherein the center of the opening ( 13 ) coincides with the axis of rotation (D). Holding device ( 1 ) according to one of claims 2 to 5, wherein the axis of rotation (D) radially to the central axis of the pipe segment ( 11 ) is aligned. Holding device ( 1 ) according to one of the preceding claims, wherein a plurality of latching devices ( 15 . 16 ) are arranged about the axis of rotation (D), in which in the measuring position in each case a latching section ( 21 ) of the measuring device ( 2 ) is locked. Holding device ( 1 ) according to claim 7, wherein two latching devices ( 15 . 16 ) are arranged on opposite sides with respect to the axis of rotation (D). Holding device ( 1 ) according to one of the preceding claims, wherein the measuring device ( 2 ) is a sensor for measuring a fluid characteristic value. Holding device ( 1 ) according to one of the preceding claims, wherein the measuring device is a duo-sensor for measuring different fluid characteristics.