DE2530532A1 - Thermobalance for heating furnace - has pair of auxiliary balances suspended on fulcra at tips of both arms - Google Patents

Abstract

A thermo balance comprising a main balance provided with fulcra respectively at the tips of both arms and a pair of auxiliary balances suspended respectively on the fulcra. Arms of the auxiliary balances extend near to a vertical line passing through the fulcrum of the main balance, and are fitted respectively with a sample container and standard sample container at the tips. Balancing means are provided respectively on the auxiliary balances. The sample container and standard sample container being placed parallel within a furnace. The balancing means is a link mechanism consisting of the arm of the main balance, the other arm of the auxiliary balance and a connecting rod of the same length as of the main balance and rotatably fitted to the end of the other arm of the auxiliary balance.

Description

Therinobalance The invention relates to a thermobalance.

with the proliferation of thermal balances, the demand is higher Sensitivity and high accuracy combined. However, if a specimen in a When the furnace is arranged, the apparent weight of the specimen changes with the Fluctuation of convection and the buoyancy of the gas. It also changes the error in sensing weight in such a complex way depending on the shapes and sizes of the specimens and their supporting parts, the temperature, the type of gas and the structure of the furnace, so that the speed the temperature change and the pressure are very difficult to correct.

The object of the invention is therefore to create a thermobalance, which does not generate any errors due to fluctuations in convection and buoyancy and which has high sensitivity and high accuracy and easy setting allowed by the scales.

In general, the invention consists in a thermobalance in which joints are arranged at the ends of both arms of a main scale, with IIilfswaagen respectively are hung by the joints and an arm of an auxiliary balance is near the, vertical line going through the hinge of the main balance is located, being at the ends of the respective arms, a specimen and a standard specimen are suspended and placed in are arranged in the same furnace.

The invention also includes a thermobalance in which a connecting rod of the same length as an arm of the main scale arranged parallel to the arm and rotatable at the intersection of a vertical line going through the joint of the main scale is rotatably mounted with the connecting rod, two vertically arranged Auxiliary scales at both ends of the arm of the main scale and at both ends the Connecting rod are attached to form a handlebar mechanism and the Auxiliary balances are bent, with a test piece and a sample piece at their ends are attached so that they are provided near the aforementioned vertical line and in the same Furnace are arranged.

Based on the drawing, which shows some exemplary embodiments The invention is described in more detail. It shows: FIG. 1 a schematic side view a first embodiment of the thermobalance according to the invention, FIG. 2 a similar one schematic side view like FIG. 1, but of a second embodiment, FIG. 3 is a view similar to FIG. 1, but of a third embodiment.

Fig. 1 shows the side view of a first embodiment of the invention, Articulation points 3 and 4 each being provided at the ends of both arms of a main scale 2 which is supported on a hinge 1. Auxiliary scales 5 and 6 are on the Joints 3 and 4 put on. The auxiliary scales 5 and 6 each point above the Main balance has 2 arms that extend close to a vertical line, which goes through the joint 1 of the main balance and the one sample container 7th and supporting a sample container 8 by means of respective supports 21 and 22, which are attached to the tips of the arms and that parallel to each other. The others Arms of the auxiliary scales 5 and 6 are threaded rods that are located below the main scales extend outwards and on which balance weights 9 and 10 are screwed. On the arm of the auxiliary balance 5, on which the sample container 7 is located, is a magnetic core 11 is fixed, which is inserted into a coil 12 of a differential converter (differential transformer) fits. There is also a magnet 13 on the one that supports the sample container Arm attached, which cooperates with a control coil 14. The output of the secondary coil said differential converter is amplified by means of an amplifier and fed to the control coil.

The specimen container 7 is loaded with a specimen that is his Weight changes with temperature as the sampling container 8 forms a pattern whose weight does not change with temperature. Both containers are located in an electric furnace 16.

In the case of the scales described above, the Milf scales 5 unit16 are designed in such a way that that their centers of gravity are each under the joints 3 and 4 and if the Weights 9 and 10 are set, are in the balanced state.

The auxiliary scales have an automatic return effect and since they are comparatively less sensitive, they essentially speak does not indicate a change in the apparent weight of the containers 7 and 8 due to the Change in the convection or the output within the furnace 16. However, since the main scale 2 is equipped with high sensitivity, it speaks easily to a change in weight of the test piece within the container 7. if If the main scale 2 inclines, the magnetic core 11, which is in the coil 12, moves of the differential converter is arranged and an output current flows from the secondary coil. As the amplifier 15 amplifies this outlet flow and feeds it to the control coil 14, where the relationship between the polarity of the S-current and the polarity of the magnet 13 is chosen correctly, the change in weight of the test piece is compensated, automatically received during the comparison of the main scale 2 and the auxiliary scale 5 and the change in weight of the test piece at the output of the amplifier 15 can be sensed is. Therefore, if in the case of a temperature change in the oven 16, the main scale 2 and the auxiliary scales 5 and 6 are balanced by adjusting the weights 9 and 10 and a countercurrent is added to the control coil 14, a weight change on the specimen is caused within the container 7 by a change in temperature, a The output current from the amplifier 15 comes from the main scale 2 and the auxiliary scale 5 automatically keep in the balanced state by the feedback loop described above.

When the density of the gas changes with the temperature change in the furnace 16 changes, the buoyancy acting on the containers 7 and 8 also changes and when the convection of the gas inside the furnace with the change in temperature fluctuates, the force applied to the container in the vertical direction also changes. However, when the containers 7 and 8 are parallel to each other in substantially the same Layers arranged within the furnace 16 are buoyant and caused by convection evoked force on them always essentially the same values regardless of fluctuation so that they have no effect on the inclination of the main scale 2 have. Furthermore, the auxiliary scales 5 and 6 have a comparatively low sensitivity, as already mentioned, so that the inclination due to the forces mentioned is very small with which the functioning of the balance is only slightly affected. Therefore only will the actual change in weight of the sample in the container 7 by the main scale 2 sensed with high sensitivity and there is no fluctuation error buoyancy and convection.

Fig. 2 shows a second embodiment of the invention.

The respective arms of the auxiliary scales 5 and 6, which point on the Ends of both arms of the main scale are suspended, reach close to the vertical line, which goes through the joint 1 of the main scale and extend below this Joint. The sample container 7 and the sample container 8 are at the ends these arms are attached and are located in one and the same electric furnace 16. It can be seen that the above-described operation and effect are maintained even then when the furnace 16 is below the main scale 2 in the arrangement described is provided. If still a displacement sensor through a differential converter as shown in Fig. 1 or by a photoelectric device and a control coil, which is the output current supplied to the photoelectric device after amplification is provided on an arm of the auxiliary balance 5 or 6, an automatic Adjustment function as described with reference to FIG. 1 can be obtained.

Fi, Cf. 3 is a side view of a third embodiment of the invention; a connecting rod 17 of the same length as that supported by the hinge 1 Arm of the main scale 2 is arranged parallel to the arm, with a joint 18 on the Point of intersection of the vertical line going through the joint 1 with the connecting rod 17 is arranged, wherein the connecting rod 17 in this hinge point 18 is pivotably mounted. Furthermore, two weighing scales 5 and 6 are vertical both sides of the main balance at joints 3 and 4 at the two ends of the arm of the Main scale 2 suspended and rotatable by means of pivot points 19 and 20 at both ends the connecting rod 17 connected. Therefore form the arm of the main scale 2, the Connecting rod 17 and the auxiliary scales 5 and 6 have a link mechanism, however are as in the first embodiment, the auxiliary scales 5 and 6 in their upper parts bent horizontally and have vertical supports 21 and 22 extending at their ends are located, with the sample container 7 and the sample container 8 at the top Ends of these supports are attached. It should be added that the containers 7 and 8 for the test piece or the sample piece are arranged close to the vertical line, which goes through the joint 1 of the main scale and that the containers in the same electrical Furnace 16 are arranged. Furthermore, a magnetic core 11 'and a magnet 12' are im Area of the support 21 of the sample container provided, wherein the magnetic core 11 ' on the support 21 and the solenoid 12 'of a differential converter on the other Support 22 are attached. The coil 13 sits on the support 21 and works with a Control coil 14 together, which is attached to the foundation. The output of the secondary coil the aforementioned differential converter is amplified in an amplifier 15 and the control coil 14 is supplied. Besides, can for practical execution the connecting rod 17 at the joint 18 can be divided into two parts and each part can be rotatably arranged at its end on this joint.

In the last-described embodiment, the weight of the auxiliary balance 5 and the sample container 7, the magnetic core 11 'and the magnetic coil 13 to the Joint 3 at the end of the arm of the main scale 2 added and the weight of the auxiliary scale 6 and the sampler 8 and the coil 12 'of the differential converter added to the other joint 4.

Therefore, if the forces occurring at the aforementioned joints 3 and 4 are not in equilibrium, the scales will incline according to this Stabilizes imbalance. However, since the arm of the main scale 2, the connecting rod 17 and the auxiliary scales 5, 6 a link mechanism in the form of a parallelogram bllden, which is arranged on the foundation at joints 1 and 18, as described above If the main scale is inclined, the parts will move according to the dash-dotted lines Shift lines, whereby the auxiliary scales 5 and 6 always maintained a vertical position, i.e., even if the main scale is inclined, become small if the inclination is only small is, the containers 7 and 8 for the specimen and the pattern in the vertical direction displaced and the displacement component in the horizontal direction is negligible. If so, as in the first embodiment described above the magnetic core 11 'on the support 21 is moved upwards by the inclination of the main scale the spool 12 'is displaced downward on the other support 22, with that of Differential transformers formed by them reduce the inclination due to the output current of the secondary coil feels. Since this output current is amplified in the amplifier 15 and the control coil 14 is supplied, if the polarities of the coil current and the magnet 13 are selected correctly, compensates for the change in weight of the test piece that The main scale is automatically kept in a balanced state and the weight change the specimen can be taken from the output of the amplifier, i. if the containers 7 and 8 each with a test piece and a suitable sample piece are loaded, the latter no change in weight in the temperature measuring range experiences and the countercurrent of the control coil 14 is set, the main balance retains a state of equilibrium at, but in the case of a temperature change in Oven 16 in this state and a change in weight of the specimen in the container 7 an output current corresponding to this change in weight due to this change in temperature from the amplifier is present and the main balance automatically through the one described above * The feedback circuit is kept in a balanced state.

When the density of the gas increases with the temperature change in the furnace 16 changes, the buoyancy forces acting on the containers 7 and 8 also change and when the convection of the gas inside the furnace with the temperature change fluctuates, so does the vertical force acting on the container attacks. However, if the containers 7 and 8 are arranged in parallel and substantially are provided in the same positions inside the furnace, buoyancy and onection forces working on them always have essentially the same values independently of the fluctuation and thus no influence on the inclination of the arm of the main scale 2 have. Therefore, only the change in weight of that contained in the container 7 becomes Sample is sensed by the main scale and no error due to fluctuation of the Buoyancy and convection is generated.

As explained above with reference to the explanations, are auxiliary scales suspended at the ends of both arms of a main balance, which is very sensitive and a sample container and a sample container are at the ends, respectively of the arms of the auxiliary scales and placed close to a vertical line that goes through the joint of the main scale and is provided in the same oven.

However, a link mechanism can also be provided, the from the arm of the main scale and the auxiliary scales for the test piece and the sample piece and a connecting rod connecting both may be provided, the specimen and the sample, each arranged on the auxiliary saws and housed in the same furnace are. The buoyancy force due to a change in temperature of the furnace and the Force through convection cancel each other out and therefore have no influence on the display of the change in weight of the specimen, hence the heat weight can be analyzed with high sensitivity and high accuracy. Since the auxiliary scales are held in fixed positions by the weights or the handlebar mechanism, the main balance can be easily adjusted, and there the specimen and the sampling are contained in the same furnace, a differential thermal weight analysis can be performed by simultaneous sensing of the temperature difference between them can be achieved.

Claims (5)

Patent claims (DI thermobalance, characterized by a main balance (2) with joints (3, 4) at the ends of their two arms, a pair of auxiliary scales (5, 6) attached to them Joints (3, 4) are supported, provided on the auxiliary scales arms that extend up trek close to a vertical line that goes through the joint (1) of the main balance and which each have a sample container (7) or carry a nut piece container (8) at their ends and through a Compensation device which is arranged on the auxiliary scales (5, 6), wherein the sample container (7) and ir Mlusterstückbehiter (8) within the same furnace (16) are arranged in parallel. 2. Thermal balance according to claim 1, characterized in that the with The auxiliary balance (5) connected to the sample container (7) is an electrical balancing device having. 3. Thermobalance according to claim 1, characterized in that the L Compensating device has a screw, which is from another arm the auxiliary balance extends and that a weight (9) can be screwed onto the screw is stored. 4. Thermobalance according to claim 1, characterized in that the compensating device is a link mechanism that consists of the arm of the main scale (2), the other arm of the Auxiliary balance and a connecting rod (17) of the same length as the main balance the connecting rod with the end of the other arm of the auxiliary balance is rotatably connected. 5. Thermobalance according to claim 2, characterized in that the balancing device two sets of a pair of magnets and a coil of a differential transformer having the respective sets electrically connected to each other by an amplifier (15) are connected L e r s e i t e