RU42103U1 - ELECTROMECHANICAL MOVEMENT INDICATOR - Google Patents

Abstract

1. Electromechanical indicator of movements, comprising a housing with holes in the diametrical direction, in which sleeves are fixed, a spring-loaded measuring rod with a tip mounted in sleeves with the possibility of movement and kinematically connected with an arrow on the front side of the indicator, characterized in that it further comprises an electromechanical attachment , the casing of which is made of solid electrical insulating material, for example of ebonite, and has the form of a ring rigidly fixed to the reverse side e of the indicator case, and inside the set-top box case perpendicular to the measuring rod there is a metal plate with glued strain gauges, one end of which is soldered to the set-top box, and the measuring rod is equipped with a lever rigidly mounted on the opposite tip of the rod end perpendicular to the last and connected to the free end of the metal plate by means of a rod passing through an opening in the set-top box housing, in addition, openings for the terminals of strain gauges are made in the housing. 2. The prefix according to claim 1, characterized in that a spring-loaded holder for a metal plate is mounted inside its body parallel to the measuring rod. The indicator according to claim 2, characterized in that the holder is fixed in the console body by means of an adjusting screw.

Description

The utility model relates to the field of construction and is designed to measure displacements when testing building structures, as well as during technical inspections of buildings and structures.

An analogue of the claimed device is an indicator according to the patent of the Russian Federation No. 2187069, IPC 7 G 0 1 B 3/22, bulletin No. 22, published on 10.08.2002. The indicator contains a housing, a measuring rod kinematically connected with the arrow, a scale and a mechanism for the largest movement of the measuring rod, which is made in the form of a gear ring, similar to a ratchet. This allows for more tight contact with the arrow of the indicator during the measurement.

An indicator of the watch type has been adopted as a prototype (The design of the device is presented in the book by NP Fakeev, N. Guide to laboratory and practical work on testing building structures and structures. Tomsk University Press, 1977, 10-13 pp.). The watch type indicator case is made in the form of a ring, in which there are holes in the diametrical direction for two sleeves. A measuring rod is installed in the sleeves. The sleeves act as guides for moving the measuring rod, which is held in a low position by a spring. The measuring rod is kinematically connected with the arrow on the front of the indicator. The contact of the measuring rod of the device with the design is carried out through the tip, made in the form of a sphere or plane.

Sentinel indicators are widespread. However, these devices (patent 2187069 and prototype) have several

significant drawbacks: their use does not allow to automate the collection of information when testing the structure with its subsequent processing on a personal computer, and in some cases, when taking readings, the necessary safety is not provided when testing building structures, since the indicator assumes taking indicators in the immediate vicinity of it. In addition, the disadvantage is that the use of the above devices is impossible in places that are difficult to access for visual observation.

The objective of the utility model is to eliminate the above disadvantages, namely: expand the scope of the indicator, using it in hard-to-reach places when testing building structures, provide the ability to automate the collection of information and improve safety.

The problem is solved as follows. The electromechanical indicator of displacements, like the dial-type indicator, contains a case with holes in the diametrical direction in which the sleeves are fixed, a spring-loaded measuring rod with a tip mounted in the sleeves with the possibility of movement and kinematically connected with the arrow on the front side of the indicator. But unlike the known indicator of the watch type, it additionally contains an electromechanical prefix, the case of which is made of solid electrical insulation material, for example, ebonite, and has the form of a ring. The console case is rigidly fixed to the back of the indicator housing. A metal plate with glued strain gauges is mounted perpendicularly to the measuring rod inside the set-top box housing. One end of the plate is soldered to the console. The measuring rod of the indicator is equipped with a lever rigidly mounted on the opposite end of the rod.

The lever is connected to the free end of the metal plate by means of a rod passing through an opening in the console body. The difference is also that the holes are made in the housing for the terminals of the strain gauges. A spring-loaded plate holder is mounted inside the set-top box parallel to the measuring rod. The holder is fixed in the box by means of an adjusting screw, with which the indicator is adjusted. Through the terminals of the strain gauges, the device is connected to a strain gauge installation outside the test area of the building structure.

Thus, thanks to the remote control system, the presence of load cells, the connection of the metal plate on which the load cells are located, with the measuring rod, the use of an electromechanical displacement indicator allows you to automate the collection of information when testing building structures with subsequent processing on a computer, and also allows you to measure movements in hard-to-reach for visual observation of places of models and full-scale samples of building structures, which increases the safety of wire experimental experiments.

The utility model is illustrated in the drawing.

The housing of the electromechanical set-top box 1 is made of ebonite. It can also be made from another solid electrical insulating material. A metal plate 2 is soldered into the prefix housing 1 on which load cells 3 are glued. The rigidity of the plate 2 is selected from the linearity conditions of the calibration motion diagrams. Plate 2 with strain gauges 3 is a transducer of mechanical movements in the readings of strain gauge installations. Limitation of the bending of the plate 2 is carried out through a spring-loaded holder 4. For the same type of readings and the return of the plate 2 to the original

position in the attachment, an adjustment screw 5 is provided, which in turn is connected to the spring-loaded holder 4. The operation of the mechanical indicator and the attachment is done by connecting the measuring rod 6 of the indicator through a metal rod 7 and a nozzle in the form of a lever 8 with a metal plate 2 on which load cells 3 are located The rod 7 passes through an opening 9 made in the housing 1. The device is connected to the strain gauge installation through the terminals of the strain gauge 10. The attachment of the attachment to the housing in the speaker is carried out by fixing screws 11. The measuring rod 5 is mounted in the sleeves 12 with the ability to move.

The operation of the indicator is as follows: the indicator is mounted and fixed using a universal tripod 13. The tip 14 of the measuring rod 6 through the gasket is installed on the building structure 15, the movement of which is measured. When moving the measuring rod 6 during the test, the metal plate 2 bends. In this connection, the value of the active resistance of the strain gauges 3 glued to it also changes. The readings of the latter are taken using a strain gauge system, which is located far from the electromechanical indicator and with which the terminals of the strain gauges 3 are connected. Thus, the automation of the test process is achieved.

Claims (3)

1. Electromechanical indicator of movements, comprising a housing with holes in the diametrical direction, in which sleeves are fixed, a spring-loaded measuring rod with a tip mounted in sleeves with the possibility of movement and kinematically connected with an arrow on the front side of the indicator, characterized in that it further comprises an electromechanical attachment , the casing of which is made of solid electrical insulating material, for example of ebonite, and has the form of a ring rigidly fixed to the reverse side e of the indicator case, and inside the set-top box case perpendicular to the measuring rod there is a metal plate with glued strain gauges, one end of which is soldered to the set-top box, and the measuring rod is equipped with a lever rigidly mounted on the opposite tip of the rod end perpendicular to the last and connected to the free end of the metal plate by means of a rod passing through the hole in the console, in addition to this, holes are made in the housing for the terminals of the strain gauges. 2. The prefix according to claim 1, characterized in that a spring-loaded holder for a metal plate is mounted inside its housing parallel to the measuring rod. 3. The indicator according to claim 2, characterized in that the holder is fixed in the console body by means of an adjusting screw.