DE1089178B - Gravimeter - Google Patents

Description

Gravimeter Addendum to patent 1 070 835 The main patent contains a static Gravimeter with a stored in an equilibrium position by elastic means Gravimeter mass has been described in which - according to the proposal of the main patent -between the gravimeter mass and a stationary when moving the gravimeter mass remaining gravimeter component a known astatic trainable and provided with a reflector pendulum is arranged such that changes in position the gravimeter mass act as rotations and / or inclinations of the pendulum body, wherein the pendulum body is suspended from at least two flexible threads or bands and a light pointer is guided over the pendulum body, which is used to display the gravitational changes serves.

The present invention is concerned with further education and training such a gravimeter.

It has already been pointed out in the main patent that gravimeters Although this training an extremely large gravimetric measurement sensitivity have, but at the same time also sensitive to tilt to a considerable extent are. It has therefore already been used to remedy the circumstances resulting therefrom suggested that such inclination influences by a second pendulum of the one indicated above Kind of eliminating by choosing the pendulum suspension of this second pendulum becomes that with changes in the gravity of the earth opposing movements of the two pendulum bodies enter. It then shows that it is not just the display sensitivity of the instrument is doubled, but that this display is also completely independent this takes place as to whether the gravimeter system is inclined or not.

Although the gravimeter of this training proposed in the main patent works independently of the inclination of the instrument, it turns out that that the device is not free from "dynamic" influences of inclination In the practical one When using the gravemeter, consider the conditions that affect the installation of the device in the field. So it happens B. often before that the devices on sandy soil must be set up, with constant device relocations in shape have to be accepted by inclinations. With the »static Inclination-compensated gravimeters make such inclinations a constant Movement of both light pointers is noticeable, so that a measurement can be made despite the "inclination-independent" Operation of the gravimeter is not (or only poorly) feasible.

The aim of the invention was to eliminate these influences. It shows however, that the means according to the invention are not only applicable to such gravimeters are that are statically inclination-compensated in the above sense, rather they are in principle in turn suitable for any gravimeter with a corresponding to the main patent Pendulum indicator is equipped to provide a tilt-independent mode of operation.

According to the invention, a gravimeter is provided with an elastic means Gravimeter mass stored in an equilibrium position, in which between the gravimeter mass and a stationary remaining gravimeter component one or two known per se astatic trainable, hung on threads or ribbons and each with a reflector provided pendulums are arranged in such a way that changes in position of the gravimeter mass act as rotations and / or inclinations of the pendulum bodies, each with a light pointer is guided over the associated pendulum reflector, proposed according to patent 1 070 835, which is characterized in that the beam paths of the light pointer in such a way over which are present in the device or are routed via additionally arranged reflectors, that apart from the compensation of the non-horizontal installation of the gravimeter "static" inclination caused by z. B. occurring during the measurement Changes in inclination caused "dynamic" inclination can be compensated.

This formation of the Gravitneters not only eliminates the initially mentioned "dynamic" inclination influences, but also the "static", whereby it should be noted that the compensating reflector in the way opposite inclinations must be sensitive to the fact that its rotations reflect the displacements of the the Light pointer actually due to the inclinations of the gravimetric pendulum compensate. The invention will be explained in more detail with reference to the figures.

Fig. 1 shows schematically a statically compensated gravimeter according to the main patent. It denotes 24 the actual gravimeter housing, 50 the Base plate of the instrument on which essentially all components of the gravimeter are attached. This is firmly connected to the base plate 50 in the center of the gravimeter located tubular member 52. The gravimeter mass is through the annular Body 53, which is indicated in the figure in section, is formed.

The mass 53 is on the two springs 21 and 22 on the base plate 50 are attached, suspended so that the mass is under the influence of changes in gravity is movable in the direction of the spring axes.

With the mass 53 is firmly connected to the plate 56, which is about the rod-shaped Connections 57 and 58 with the ground 53 is in connection. 56 contributes to cushioning the gravimeter mass a conventional air damping device 23, 23 '.

Through the central opening of the component 52 is a soft return spring 32 out, which it by actuating the indicated with its adjustment means micrometer screw 33 allows the gravimeter mass to be returned to its original position after changes in position Position measurable. The rotation of the micrometer screw 33 can be done in the usual way Way can be read on a scale in the field of view of the reading microscope 34. the resources are required for this, as they are generally used with gravimeters are not shown.

The proof of the changes in position of the gravimeter mass 53 are used two pendulum suspended reflectors 25 and 26, which are attached to threads 25 ', 25 "and 26', 26 "on the gravimeter ground and on the one that remains stationary Gravimeter component 52 are attached. The attachment points 76, 77 resp.

78, 79 of the straps or threads are adjustable and can be adjusted pendulums 25 and 26 too. The adjustment means are in the case of the attachment points 78, 79 indicated by a screw 80 that controls the axial displacement of the carrier 81 of the fastening means 78, 79 for the straps 25 ", 26" allows.

The pendulum bodies 25 and 26 consist of two prisms on the Sockets 82 and 83 are stored.

The sockets also serve to attach the hanging threads.

Barrel weights 29 and 30 are attached to sockets 82 and 83, respectively. which are arranged to be movable in the longitudinal direction on the guides 86 and 87. the Shifting the barrel weights causes a shift in the center of gravity of the pendulum and thus allows adjustment of the desired sensitivity of the measuring arrangement to. In order to dampen the indicator pendulums 25, 26, means are provided on the guides 86 and 87, respectively 88 or 89 provided for air damping of the pendulum movements. The damping chambers of the air damping device are arranged on the plate 90, which is connected to the component 52 is firmly connected. The plate 90 is pierced at 91 so that the return spring 32 can be attached to the plate 56. About the reflectors 25 and 26 are - as already according to the main patent - two light pointers 100 and 101 led. The imaging beam paths Both light pointers are symmetrical, but they deviate from the light pointer guide of the main patent. The light pointer 100 is reflected on the prism 102 and got Via the reflector 103 onto the gravimeter pendulum 26, there is again reflected and runs over the other gravimeter pendulum 25 to a counter mirror 104, which over a bracket is fixedly attached to the housing part 52. The screws 106 serve the adjustment of the reflector 104 and let the tilting of this mirror after three Directions to. The light pointer 100 is again reflected on the mirror 104 and reaches the field of view of the reading device via the reflectors 25, 26, 103 and 102 31, where he plays over a scale. The situation is correspondingly with the pointer 101, which also uses the gravimeter pendulum via corresponding fixed deflection elements 25, 26 and is reflected on a counter mirror 108 and back in the field of view of the reading device 31 arrives.

There the light pointer 101 also moves on the one provided there Scale along.

The function of the gravimeter described is as follows: At Displacements of the gravimeter mass 53 incline the reflectors 25, 26 and so that the two light pointers 100, 101 against their original position, whereby the two light pointers observable in the field of view of the reading microscope 31 from their Normal position are moved and move away from each other moving in opposite directions.

Now step in addition to the translational movement of 53 inclinations of the instrument as a whole, they stand out due to the equal sensitivity of both Pendulum the displacements of the two light pointers resulting from the inclinations so that the light pointer in the field of view of the reading device 31 is their instantaneous Maintain a position determined by the position of the gravimeter mass.

For clarification, FIG. 2 shows the gravimeter mass in a plan view 53, the reflectors 25 resp.

26, the associated suspension means 72, 73 or 74, 75 and dashed lines the two reflectors 108 and 104. The size of the two reflectors 25, 26 is like this dimensioned so that both light pointers are comfortably guided over the same reflector can.

Fig. 3 shows a further embodiment of the present Invention. It denotes 53 again the ring-shaped gravimeter mass on which the two Reflectors 114 and 115 are suspended from threads as in the gravimeter according to FIG. 1. Serves here to stabilize the light pointer beam path against inclinations however, a reflector provided separately in the imaging beam path of both light pointers 116, which is fixedly arranged on the threads 117 and 118 on the gravimeter. Furthermore the numbering of this figure corresponds to the numbering of the corresponding one Elements of FIG. 1.

Fig. 4 shows a further embodiment of the invention. It designates 120 the gravimeter mass suspended from the spring 121; 122 or 123 mark the gravimeter pendulum. The two light pointers 101 and 100, which are above the two pendularly mounted reflectors are guided with regard to the inclination dependence These reflectors are separated by their own stabilizing pendulum 124 or 125 stabilized. The two pendulums 124, 125 are here again stationary by means of threads attached to the gravimeter. 126, 127 denote two deflecting reflectors that are fixed are attached to the gravimeter, and 128, 129 that are used for autocollimation observation of the Light pointer serving counter mirror, which are also fixed in place.

Fig. 5 shows a further embodiment of the invention. It denotes 120 again the gravimeter mass, 123 the gravimeter pendulum, 126 an optical deflection element and 130 a compensation pendulum. The light pointer 131 generated by a projection system 135 containing a light source 134 is, runs over the reflector 123 and the compensation pendulum 130 and is of projected there directly onto a ground glass screen 136, for example, the ground glass screen contains a scale. Is the pendulum 130 sensitivity of sensitivity of the gravimeter pendulum 123, the arrangement according to FIG. 10 operates statically and dynamically independent of incline.

Regardless of the designs shown, it goes without saying other forms of tilt compensation are possible. A gravimeter according to the embodiment of Fig. 1 has the advantage that one can with a minimum of pendulums, be it gravimetrically effective or tilt-compensating pendulum. In addition, united this training of the gravimeter has a high inclination independence with a high Gravimetric measuring sensitivity, which is not only due to the special dimensioning the pendulum suspension itself, but also through the special light pointer guidance given is.

Claims (6)

PATENT CLAIMS: 1. Gravimeter with an elastic means Gravimeter mass stored in an equilibrium position, in which between the gravimeter mass and a stationary remaining gravimeter component one or two known per se astatic trainable, hung on threads or ribbons and each with a reflector provided pendulums are arranged in such a way that changes in position of the gravimeter mass act as rotations and / or inclinations of the pendulum bodies, each with a light pointer is guided over the associated pendulum reflector, according to patent 1 070 835, thereby characterized in that the beam paths of the light pointer in such a way over the existing in the device or are performed via additionally arranged reflectors that apart from the compensation the "static" caused by a non-horizontal installation of the gravimeter Inclination also Edie by z. B. inclination changes occurring during the measurement conditional "dynamic" inclination can be compensated. 2. Gravimeter according to claim 1, characterized in that the Use of two pendulum-mounted reflectors (26, 26) each of the one of the both for inclination compensation of the light pointer assigned to the other reflector serves. 3. Gravimeter according to claims 1 and 2, characterized in that that when using special compensation reflectors (116, 124, 125, 130) these are hung on threads or ribbons in the same way as the pendulum reflectors are. 4. Gravimeter according to claim 3, characterized in that the suspension means the additional reflectors (116, 124, 125, 130) fixed on the gravimetric housing are attached. 5. Gravimeter according to claims 1 to 4, characterized in that that each light pointer beam path has a separate reflector (124, 125) as a compensation element assigned. 6. Gravimeter according to claims 1 to 4, characterized in that that when using two pendulum bodies (114, 115) the two light pointer beam paths a single, separately provided compensation element is assigned.