DE1116454B - Temperature measuring unit with display and control device - Google Patents

Description

Temperature measuring unit with display and control device The invention refers to a temperature measuring unit with a Bourdon tube to which a an expansion medium acts on the sensor exposed to the temperature to be monitored, whose temperature-dependent changes in volume change the shape of the fixed at one end arranged Bourdon tube cause the free end of a display device attacks and actuates a control device with a lower gear ratio.

In the known devices of the type mentioned, the temperature display device as well as an electrical switching device of one at the free end of the Bourdon tube lying common point driven off. Either the outer end be firmly clamped in the Bourdon tube, with the inner free end of the spiral serves as a drive means, or the inner end of the spiral is firmly clamped, and its outer free end carries out the temperature-dependent movements.

It is with such a device that except for a temperature display device yet another valve controls, known, the control forces acting on the valve Interposition of a reduction lever to enlarge, the reduction lever and the means for operating the temperature display device on a common Attack the point at the free outer end of the spiral. There is initially the significant disadvantage that the free outer end of the Bourdon tube is heavily loaded is, whereby the effective displacement of the relevant end of the spiral is shortened will. This has a disadvantageous effect on the temperature display device, as their This also shortens the display area. There is another disadvantage in that the available shift travel is shortened accordingly by the reduction lever will.

The disadvantages mentioned can be eliminated and the overall structure simplified be when, according to the invention, the control device in front of the free end of the Bourdon tube, i.e. at one between the connection point for the temperature display means and attack the section of the Bourdon tube that is firmly clamped at the end leaves.

This ensures that the acting on the temperature display free end of the spiral is not burdened by additional control means and therefore can perform a relatively long switching path, so that a large adjustment range is available and an extremely accurate temperature display is achieved. At the point of the spiral away from the free end, where the transmission means Attack for other control devices, however, is a relatively large one Switching force available so that switching devices are also actuated directly that previously required relay controls. The one to control an additional switching device or the like. Required switching force or the each required switching path can be carried out in a simple manner and within wide limits Choice of the point of attack on the Bourdon tube changed and the respective purpose be adjusted.

Features of the invention are contained in the subclaims. In the following description, the illustrated embodiment is explained in more detail explained. 1 shows a longitudinal section through the device, FIG. 2 shows a Cross section along line II-II of Fig. 1. 3 shows a cross section along line III-111 FIGS. 1, 4 show a cross section along line IV-IV of FIG. 1, FIG. 5 shows a cross section according to line V -V of Fig.1. 6 - a side view of the device according to FIG. 5, seen in the direction of the arrow VI in Fig. 5, and Fig. 7 is a plan view of the The device shown in FIG. 6 is seen in the direction of arrow VII in FIG.

The measuring and control device is arranged according to FIG. 1 in a housing 1 on an intermediate floor 2, under which an electrical switch 3 is arranged, which has an axially displaceable switch button 4 . The upper cover plate 5 of the housing is designed on the outside as a dial and is provided with a graduation corresponding to the respective purpose. A manually adjustable preselection pointer 6 and a pointer 7 that is automatically controlled by the temperature to be measured can be rotated above the dial disk 5. The preselection pointer 6 is attached to the upper end of an axle 8, the lower end of which is rotatably supported in a socket 9 seated in the intermediate floor 2 and the upper end of which is rotatably supported in a socket 10. This socket 10 is rotatably seated and secured against axial displacement in a support plate 11 which is connected to the intermediate floor by supports 12. The connection points are indicated in the drawing by dash-dotted lines.

On the lower end of the axis 8, the collar-shaped projection 13 of a cam disk 14 (see especially FIGS. 5 and 7) is attached, which is rotatable with the axis and at the same time secures it against axial displacement. The cam disk 14 acts on a control segment 15 which is guided with three slots 16 (see FIG. 5) on pins 17 so that it can be longitudinally displaced in its surface plane. A spring 18 endeavors to press a guide track 19 of the control segment 15 against the end face of the cam disk 14. On the circumference of the cam disk 14 there is a stop 20 which can be rotated counterclockwise to its other end position on the left side of the guide track by adjusting the preselection pointer 6 from the one shown end position on the right side of the guide track 19. Here, the control segment 15 under the action of the spring 18 corresponding to the spiral receding end surface of the curve disc 14 from its Fig. 5 drawn one end position into its other end position shifted, the guide pins 17 abut on the other end of the slots 18.

The Bourdon tube consists of two spaced spirals 21 and 22, which are wound from a single continuous flat metal tube. The beginning of the spiral 21 lying at the bottom in FIG. 1 is fastened in a support 23 and is connected via a corresponding recess 24 in the support to a flexible tube 25 to which a metal container 26 serving as a sensor is connected. The sensor container 26, the connecting pipe 25 and the Bourdon tubes 21 and 22 are filled with an expansion liquid. The spiral 21 is wound from the outside inwards. The inner end of this spiral is bent up in the manner indicated by dashed lines 27 in FIG. 1, whereupon the upper spiral 22, which is wound from the inside to the outside, follows. At the outer end of the spiral 22, a support arm 28 is attached, which freely surrounds the bush 10 with a recess and is rotated about the longitudinal axis of the bush 10 during the adjustment movements of the spirals 21 and 22. At its end facing away from the connection point with the spiral 22, the support 28 is connected to the outer end of a helically wound bimetallic spring 29, the inner end of which is fastened in an outer longitudinal slot 30 of the socket 10.

A bearing piece is seated on the outer turn of the lower spiral 21 31 with two legs 32 which are spaced apart from one another and in which a pin 33 is attached. On this pin 33 is a transmission arm 34 with a longitudinal slot 35 slidably guided, one end of which is articulated to a lever 36 is. The lever 36 is rotatably mounted on a pin 37, which is in two legs 38 of the control segment 15 is attached. The one below the bearing pin 37 in FIG The end 39 of the lever 36 is at a short distance from the switching pin 4 of the Switch. This distance can be adjusted by moving the control segment 15, whereby the bearing pin 37 also shifts accordingly, can be changed.

To use the device, the sensor container 26 is the one to be measured or exposed to the temperature to be monitored and that located in the housing 1 Device corresponding to the length of the connecting pipe 25 to another suitable Place arranged. By setting the preselection pointer 6, which corresponds to the swivel range the cam 14 can be rotated by more than 300 °, the control segment and thus the lower end 39 of the lever 36 is set in the desired position. the The arrangement is made so that the preset pointer 6 indicates the temperature indicates at which the lever end 39 the switch button 4 of the electrical switch 3 actuated. This is done in the following way: When the on The temperature acting on the sensor 26 is wrapped in the Bourdon tube in a known manner, more or less, with the bearing piece 31 on its position an approximately circular path changed, namely the bearing piece 31 from the in Fig. 7 drawn position clockwise with increasing temperature and with decreasing Temperature adjusted in the opposite direction. As soon as the pin 33 is the Has reached the end of the slot 35, with further movement of the bearing piece 31 clockwise by moving the transfer arm 34 of the levers 36, 39 to pivoted its pivot pin 37, the lever end 39 in the direction against the switch button 4 is pivoted until the button is actuated and a circuit is or is turned off.

When the Bourdon tubes 21 and 22 are wound up as a result of increasing temperature, this rotary movement is transmitted to the socket 10 and thus to the pointer 7 via the support 28 and the bimetallic spring 29. The pointer 7 is adjusted clockwise, the individual effects being coordinated so that the switch button 4 is actuated by the lever end 39 as soon as the pointer 7 reaches the temperature set by the preselection pointer 6.

The bimetal spring 29 responds to the room temperature at the installation site of the device in such a way that it strives to support the support 28 either in the winding direction or to be adjusted in the opposite direction of rotation. This creates a certain amount of bias exerted on the Bourdon spiral 21 and 22, which is to be monitored by the Temperature-induced adjustment movement of the Bourdon tube adds or counteracts it, with the result that the fluctuations in room temperature are compensated for and therefore cannot influence or falsify the switching process of the device.

The device described can within the scope of the inventive concept also be designed differently than shown in the drawing, which is special on the shape of the Bourdon tube as well as on the design of the transmission means for actuating the electrical switching device and setting the preselection temperature relates. The Bourdon tube can, for example, also consist of a helical wound tube or just from a single spiral or just one turn exist. It can also be made from a single metal tube also more are wound as two superimposed coherent spirals, wherein the transmission means for setting the temperature pointer 7, for example the uppermost spiral and the transmission means for operating the electrical switch attack one of the spirals below. Otherwise, the spirals or only a single spiral or the like. Also in a different position than in the Drawing shown, and an inclined or horizontal axis can be arranged.

The transmission means shown in the drawing for actuation the electrical switching device 3 are designed so that an existing commercially available Switch 3 can be used. Depending on the switching force required to operate of the switch, the transmission means acting on this switch can be so be designed that they shorten the adjustment movement of the Bourdon tube or and thus the effective switching force on the switch by shortening the switching path increase or decrease by lengthening the switching path.

Claims (6)

PATENT CLAIMS: 1. Temperature measuring mechanism with a Bourdon tube on which an expansion medium via a sensor exposed to the temperature to be monitored acts, whose temperature-dependent volume changes shape changes to the one Cause end of fixed Bourdon tube, whose free end on a display device attacks and that actuates a control device with a lower translation, thereby characterized in that the control device (3) in front of the free end of the Bourdon tube, so at one between the junction for the temperature display means and hinged to the firmly clamped end section of the Bourdon tube (at 31) is. 2. Apparatus according to claim 1, characterized in that the Bourdon tube from at least two spaced one on top of the other, from a single contiguous Tube wound spirals (21, 22) and at the top spiral (22) the Display means and, on a spiral (21) below, the control means for actuation attack an electrical switching device (3). 3. Device according to claim 2, characterized in that the lowermost spiral (21) with the fixedly arranged The end of the Bourdon tube is wound from the outside to the inside, whereupon the inner end of the tube the spiral bent up and then the top spiral (22) from the inside is wound outwards, and that the means for actuating the electrical switching device (3) attack the outer turn of the lower spiral (21). 4. Device according to one of the preceding claims, characterized in that a lever (36) pivotable about an axis is provided in the transmission means for actuating the switch (3), one end (39) of which on a button (4) of the switch ( 3) is able to act and its pivot axis is adjustable in such a way that the distance between the switch lever (39) and the switch button (4) can be changed at will. 5. Device according to any one of the preceding claims, characterized in that by the arbitrary adjustable device for setting the switching temperature a cam (14) is rotatable, which is able to move a control segment (15) in its plane, on which the bearing axis (37) of the shift lever (36, 39) is arranged. 6. Device according to claim 5, characterized in that a spring (18) drives the cam disc (14) and holds the control segment (15) in motion-locked connection. Into consideration Printed publications: German Patent No. 633 776; U.S. Patent No. 1464 907.