DE2617750A1 - Display and measurement instrument with switching elements - has switch actuating mechanism adjustable over wide operating range - Google Patents

Abstract

A display measurement instrument, in partic, a thermometer, has a rotating indicator (4) mounted on a shaft (5) a scale, and a switch element and operating mechanism for switching an electrical circuit in or out when a defined indicator position is reached. The mechanism uses two micro-switches and is designed to be adjustable over a wider range than usual. The switching device (23, 24) operating elements (16, 17) are mounted on an actuating shaft (12) radially displaced wrt. the indicator shaft (5) and connected to it via a gear drive (9, 11). The elements are adjusted via an adjustment shaft (26, 34) and a toothed gear mechanism (21, 22, 25, 32) using an adjustment knob.

Description

Display meter

with adjustable contact device The invention relates to a display measuring instrument, in particular a thermometer with a pointer rotatable on a shaft above a scale and adjustable, by an actuator from releasable contact device for Switching electrical circuits on and / or off when a specific one is reached Pointer position.

In known measuring instruments of this type (DT-PS 1 194 613) this is Actuating member of the contact device directly on the one carrying the pointer Arranged shaft, which leads to the disadvantage that the contact device not always over the entire display area of the measuring instrument swept by the pointer can be adjusted.

It is the object of the invention to provide a measuring instrument with adjustable To propose contact device in which the contact device, in particular a Microswitch, can be set over a wider range than with previous ones Instruments.

The object is achieved according to the invention in that the actuating member the contact device on a radially offset relative to the pointer shaft, with this seated via a gear connected actuating shaft.

The following description of preferred embodiments of the invention serves for further explanation in connection with the accompanying drawing. Show it: Fig. 1 is a front view of a display measuring instrument, and Fig. 2 is a sectional view of the instrument as viewed in the direction of arrow A in FIG. 1.

In a housing 1 which is covered by a glass plate 2 and by means of screws 3 on a control panel or the like. can be attached, is a measuring and display unit of a remote thermometer. The movement includes a pointer 4, which is mounted on a conventionally mounted in the central longitudinal axis of the housing 1 Pointer shaft 5 is seated and is rotatable over a temperature scale 6. The drive the pointer shaft 5 and thus the pointer 4 also takes place in conventional Way via a Bourdon tube 7, which is connected to a temperature sensor Measuring line 8 is connected.

On the side of the pointer shaft 5 facing away from the pointer 4 there is a gear 9 fixedly arranged, which meshes with a gear 11. The gear 11 is stuck on an actuating shaft 12 which is mounted in plates 13 and 15 of the measuring mechanism. On the actuating shaft 12, two cams 16, 17 are arranged as actuating members, which are adjustable after loosening a grub screw 18. If the Pointer 4 are the actuating shaft via the gear formed by the gears 9, 11 12 and with it the cams 16, 17 rotated accordingly.

Two cranked levers 21 and 22 are rotatable on a plate 14 stored. Microswitches 23 and 24 are screwed onto these levers as contact devices. When the pointer shaft 5 and thus the actuating shaft 12 are rotated, the cams engage 16, 17 on the levers of the microswitches 23, 24 and solve them for the purpose of Switching electrical circuits on and / or off. The switching point is there of the angular position of the relevant microswitch 23, 24 relative to the cams 16, 17, i.e. the switches are triggered at these angular positions assigned temperature values indicated by pointer 4.

The cranked levers 21, 22 carrying the microswitches 23, 24 are on their side facing the actuating shaft 12 with one of these shafts provided with coaxial teeth.

The toothing of the lever 22 meshes with a gear 25 which is non-rotatable seated on an adjusting shaft 26 mounted in the plates 13, 14. The adjustment shaft 26 is passed through the glass plate 2 and carries an adjusting knob there 27. The adjustment knob 27 is connected to a pointer 28 which is above a scale 29 plays, the setting range of which corresponds to the measuring range of the scale 6. If you ask turn the knob 27 to set the pointer 28 to a certain temperature value, so is on the adjustment shaft 26, the gear 25 and the meshing with this toothing of the lever 22 of the microswitch 24 adjusted accordingly, so that when the Pointer 4 reaches the corresponding temperature value on the scale 6, which is above the Pointer shaft 5, the gears 9, 11 and the actuating shaft 12 driven cam 17 triggers the micro switch 24.

From the previous description and the drawing it can be seen that by the arrangement of the cam 17 on the opposite to the pointer shaft 5 radially offset Operating shaft 12 is gained considerably in space, which is used for setting the Microswitch 24 is available. As a result, the microswitch can indeed be set accordingly in the entire measuring range of the measuring instrument, which is at known instruments in which the actuators for the microswitches directly sitting on the pointer shaft was not possible. Another way of setting of the microswitch 24 to act results from the possibility of the transmission ratio of the gears 9, 11 to choose appropriately cheap. In the illustrated embodiment the diameter of the gear 9 is smaller than that of the gear 11, the The rotational movement of the actuating shaft 12 is therefore opposite to the rotational movement of the pointer shaft 5 stepped down, i.e. the range of rotation of the actuating shaft 12 and thus the cam 17 can be smaller than the range of rotation of the pointer 4.

As described, the adjusting shaft provided with the knob 27 is used the setting of the microswitch 24. Another button 31 (Fig. 1) is via a further actuating shaft 34 connected to a gear 32, which is connected to one on the lever 21 meshes provided toothing and the setting of the microswitch 23 is used. The setting of the microswitch 23 is therefore carried out in exactly the same way, as described in connection with the microswitch 24, also for the microswitch 23 an adjustment range that is just as large as that for microswitch 24 is available stands. The axial one behind the other, which can be seen in particular from FIG the pointer drive effected by the Bourdon tube 7 and the two cams 16, 17 with the associated switches 23 and 24 leads to a particularly space-saving Training of the meter.

It is of great advantage that with a relatively small instrument diameter at least four or more contact devices can be used. On the On the rear side of the circuit board 15, various terminals 33 are arranged for the wiring of the instrument and the electrical connection to circuits. The through the radial displacement of the actuating shaft 12 with respect to the pointer shaft 5 obtained Finally, space makes it possible, despite the use of relatively large, robust microswitches 23, 24 to give the instrument housing 1 a relatively small diameter.

Claims (8)

Claims: 1. Display measuring instrument, in particular thermometer, with pointer rotatable on a shaft over a scale and adjustable, through a Actuator made of a detachable contact device for switching electrical on and / or off Electric circuits when a certain pointer position is reached, characterized in that that the actuator (16, 17) of the contact device (23, 24) on one opposite the pointer shaft (5) radially offset, connected to this via a gear (9, 11) Actuating shaft (12) is seated. 2. Measuring instrument according to claim 1, characterized in that dd-ß pointer shaft (5) and actuating shaft (12) are connected to one another by two gear wheels (9, 11) are. 3. Measuring instrument according to claim 1 or 2, characterized in that the rotary movement of the actuating shaft (12) in relation to the rotary movement of the pointer shaft (5) is squat. 4. Measuring instrument according to claim 1, 2 or 3, characterized in that that on the actuating shaft (12) two actuators (members (16, 17) sit that the Triggering two separate contact devices (23, 24) are used. 5. Measuring instrument according to one of claims 1 to 4, characterized in that that the drive of the pointer shaft (5), in particular a Bourdon tube (7), and the two actuators (16, 17) with the respective associated contact devices (23, 24) are arranged axially one behind the other in a housing (1). 6. Measuring instrument according to one of the preceding claims, characterized characterized in that the contact devices, which are preferably designed as microswitches (23, 24) are attached to rotatable levers (21, 22). 7. Measuring instrument according to claim 6, characterized in that the Lever (21, 22) are rotatable about the actuating shaft (12). 8. Measuring instrument according to one of the preceding claims, characterized characterized in that the contact device (23, 24) via an adjusting shaft (26, 34) and a gear drive. (21, 22, 25, 32) is adjustable.