DE3906721A1 - Pointer instrument - Google Patents

Abstract

A pointer instrument has a bearing sleeve (4) fixed to the housing, through which a pointer shaft (3) is led and on which a second pointer shaft (7), designed as a tubular body, is mounted. The outer pointer shaft (7) is driven via a gear mechanism (11) by a measuring mechanism (9), which is aligned axially parallel to a measuring mechanism (1) arranged coaxially to the inner pointer shaft (3). <IMAGE>

Description

The invention relates to a pointer instrument with min at least two each connected to a pointer Pointer shaft driving measuring mechanisms, preferably rotary magnetic quotient measuring units. Such pointer instruments are common in motor vehicles and half known.

In modern motor vehicles, the driver uses pointers instruments a lot of information signali siert. While you used to be at a speed indication is satisfied in today's motor vehicles usually a speed display, a temperature display and a level indicator for the fuel tank existing the. If you have a lot of pointer instruments in the motor vehicle provides, then space problems quickly arise, since one at least all important display instruments if possible in Want to arrange the driver's field of vision.

The invention has for its object a pointer instruments of the type mentioned at the beginning with at least two Design measuring units in such a way that it saves as much space as possible allows at least two different ads.

This object is achieved in that the pointer shaft of the second and each additional measuring mechanism formed as a tubular body and coaxial to the pointer shaft of the first measuring mechanism is mounted and that the time gerwelle from the respective measuring mechanism in each case via a Ge drives are driven.

Through this training taken like a pointer watch A pointer instrument has two coaxial mutually arranged, but of different measuring work independently driven pointers. This allows two different ones on one dial Scales are attached so that no space for one second clock face is required. Since the Rohrkör driven by a gearbox, the second Measuring device arranged in one place in the display instrument where there is enough space available. The the space necessary for the clock face anyway half optimally used.

The gearbox is particularly simple when it is from a first tooth arranged on the pointer shaft wheel and a second, on the measuring shaft of the assigned Neten measuring gear attached gear.

For a pointer driven by two gears the pointer necessarily moves in the opposite direction direction of rotation like the measuring mechanism that drives it. According to Er the drive of the two pointers in the same can be required Direction of rotation or in opposite directions consequences. This can be done in that the measured values in opposite or same direction of rotation can be controlled  are, or that between the gears another Gear is arranged to reverse the direction of rotation.

Another adaptation to different space problems is possible if the gearbox is an angular drive. Here This makes it possible to measure the measuring elements at right angles Arrange pointer shafts.

If you as a pointer shaft on a tubular body the other, then the driven one Tubular body the tendency to pass through the other tubular body To move frictional forces. It can be done in a simple way thereby preventing the display instrument has a housing-fixed bearing sleeve through which Pointer shaft of a measuring mechanism passed through and in of which it is stored and on which the tubular body formed pointer shaft of the other measuring mechanism stored is.

The measuring mechanism is particularly simple if it is with its measuring axis coaxial to that through the bearing sleeve guided pointer shaft is arranged.

The invention allows numerous embodiments. To further clarification of their basic principle is one of which is shown in the drawing and is shown below described. This shows a section through for the Invention essential parts of a ge according to the invention designed pointer instrument.

The drawing shows a first measuring mechanism 1 , which has a measuring mechanism shaft 2 , which is coupled to a pointer shaft 3 , which is arranged coaxially thereto. This pointer shaft 3 is guided by a bearing sleeve 4 fixed to the housing and carries a first pointer 5 at the free end. The pointer shaft 3 is mounted on a bearing surface 6 within the bearing sleeve 4 .

On the outer circumferential surface of the bearing sleeve 4 is a white tere, designed as a tubular body pointer shaft 7 gela. This pointer shaft 7 carries a further pointer 8 . The pointer shaft 7 is driven by a second measuring mechanism 9 , which is arranged parallel to the axis of the first measuring mechanism 1 and has a measuring mechanism shaft 10 . The Drehbe movement of the second measuring mechanism 9 is transmitted by means of a transmission bes 11 to the tubular pointer shaft 7 . In this exemplary embodiment, the transmission 11 consists of a gear 12 seated on the measuring shaft 10 and a gear 13 meshing therein which is provided on the pointer shaft 7 . If you want to avoid a direction of rotation reversal between the measuring shaft 10 and the impact of the pointer 8 , then you have to arrange another gear between the gears 12 , 13 . You can also align the measuring mechanism 9 at right angles to the measuring mechanism 1 if the gear 11 is formed as an angular drive.

Below the two pointers 5 and 8 , a two Zei like 5 , 8 common dial 14 is shown, which is to be illuminated in the usual way by a light guide 15 .

Claims (6)

1. Pointer instrument with at least two each connected to a pointer pointer shaft driving Meßwer ken, preferably rotary magnet quotient measuring, since characterized in that the pointer shaft ( 7 ) of the two and each further measuring mechanism ( 9 ) formed as a tubular body and coaxial with that Pointer shaft ( 3 ) of the first measuring mechanism ( 1 ) is mounted and that the pointer shafts ( 7 ) designed as tubular bodies are each driven by the respective measuring mechanism ( 9 ) via a gear ( 11 ). 2. pointer instrument according to claim 1, characterized in that the gear ( 11 ) from a on the pointer shaft ( 7 ) arranged, first gear ( 13 ) and a second, on the measuring axis ( 10 ) of the associated measuring mechanism ( 9 ) attached gear ( 12 ). 3. pointer instrument according to claims 1 and 2, characterized in that between the two gears ( 12 , 13 ) a further gear for reversing the direction of rotation is arranged. 4. Pointer instrument according to at least one of the preceding claims, characterized in that the gear ( 11 ) is an angular drive. 5. Pointer instrument according to at least one of the preceding claims, characterized in that it has a ge housing-fixed bearing sleeve ( 4 ) through which the pointer shaft ( 3 ) of a measuring mechanism ( 1 ) and in which it is mounted and on which the is stored as a tubular body from the pointer shaft ( 7 ) of the other measuring mechanism ( 9 ). 6. Pointer instrument according to at least one of the preceding claims, characterized in that a measuring mechanism ( 1 ) with its measuring mechanism shaft ( 2 ) is arranged coaxially with the pointer shaft ( 3 ) guided through the bearing sleeve.