RU2576549C1 - Head to monitor linear dimensions - Google Patents

Abstract

FIELD: instrumentation.

SUBSTANCE: device comprises a base shell, the first group of flexible rods, an inner shell fixed on them to the base shell, first and second brackets fixed on it with first and second converters installed in them accordingly, an information processing unit connected to their outlets. On the inner shell there is a flange fixed, and two flat springs, onto which accordingly the first and second levers are fixed. The device comprises also a thrust bushing fixed in the inner shell, two calibres with parallel axes. The device is equipped with the second group of flexible rods suspended on them to the base shell by an outer shell with an inner hole having a conical part. In the outer shell there is the second calibre, a clamp in the form of a bushing with a conical part, coupled with the conical part of the outer shell, and a conical spring interacting by its ends accordingly with the outer shell and the clamp. The clamp is installed with a gap to both calibres and capability of interaction during its axial movement with the arm of the second lever.

EFFECT: expansion of functional capabilities and increased reliability of operation.

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Description

The invention relates to means for controlling linear dimensions and can be used for simultaneous automatic control of the sizes of two independent surfaces in a part or assembly unit on assembly or control lines.

A known measuring device (Vorontsov L.N., Korndorf S.F., Truten V.A., Fedotov A.V. Theory and design of control automata. - M.: Higher school, 1980, p. 427), containing the housing installed in it two inductive plugs of various diameters, a drive for moving the plugs, two converters installed in the housing with the possibility of interaction in inductive plugs, a reference-command unit, a transporting device.

The disadvantage of this device is the narrow functionality, because it does not allow you to control several parameters at the same time, for example, the outer diameter of the product and the inner diameter of the hole in it, if there is a large tolerance for their relative position or controlled surfaces in the product (part or assembly unit) are not metrologically related .

It does not allow you to control holes with large tolerances for the location of the controlled holes, as well as holes in products that are not rigidly installed in the nests of satellites, since it requires accurate basing of the controlled holes relative to the traffic jams.

A device for controlling linear dimensions is known (ed. St. No. 1179093, MKI G01B 5/25, published September 15, 1985, bull. No. 34), containing a crosshead, a spring-loaded platform with torsion rods mounted on it, a carriage with parallel brackets at opposite ends, a base mounted on the carriage with brackets at opposite ends, mounted at an angle of 90 ° to the ends of the brackets on the carriage, a cross installed in the brackets, fixed to the base limit gauge, measuring transducer, to axial stop of the sleeve with the bracket fixing it on the basis of a spring parallelogram.

The disadvantage of this device is that it has narrow functionality, since it does not allow to control several different parameters at the same time, for example, the outer diameter of the product and the inner diameter of the hole in it, the dimensions of the independent surfaces in the part or assembly unit.

When assembling the products and subsequent force fixing of the parts (for example, corening or rolling) due to deformation of the parts and the gaps between them, some resizing and relative displacement of the assembled parts is possible, which leads to a relative displacement of the controlled geometric elements belonging to different parts, for example, an internal hole in one part and the outer diameter of another part. Therefore, after assembly, functionally significant parameters of the assembled product are monitored. During control, an additional bias appears on the assembly line due to the error in basing the satellite in which the product is located and basing the product in the satellite slot. Therefore, the use of tightly coupled calibers leads to low control reliability, and the use of a control head with one caliber does not allow controlling several parameters at one position, which leads to an increase in the size of the assembly or control line.

Solved technical problems are the expansion of functionality and increased reliability.

This problem is solved in that the head for controlling linear dimensions, containing the base clip, the first group of flexible rods, an inner clip suspended on them to the base clip, the first and second brackets mounted on it with the first and second converters installed in them, respectively, connected to their outputs, an information processing unit, a flange fixed on the inner sleeve and two flat springs, the first and second levers mounted on the flat springs, respectively, fixed in the inner sleeve a sleeve installed in it with the possibility of axial movement and interaction with one shoulder of the first lever, the first gauge, spring-loaded relative to the flange, the second gauge, while the first transducer is installed with the possibility of interaction with the other shoulder of the first lever, and the second transducer is installed with the possibility of interaction with one shoulder of the second of the lever, and the axis of the gauges are parallel, equipped with a second group of flexible rods suspended on them from the base ring by an outer ring with an internal hole having a conical the part installed in it with the possibility of relative movement along the axis of the conical part of the clamp in the form of a sleeve with a conical part, conjugated with the conical part of the outer casing, a conical spring interacting with the ends of the outer cage and the clamp, while the clamp is installed with a gap with both calibers and the possibility of interaction with its axial movement with the other shoulder of the second lever, and the second caliber is fixed in the outer cage.

In FIG. 1 is a drawing of an axial section of a head for monitoring linear dimensions using an example of monitoring the internal and external diameters of an assembly unit.

The head for controlling linear dimensions contains a base ferrule 1, a first group of flexible rods 2, an inner ferrule 3 suspended on them to the base ferrule 1, the first 4 and second 5 brackets mounted on it, the first 6 and second 7 transducers installed in them, respectively, connected to their outputs, respectively, the first and second inputs of the block 8 information processing. The head for monitoring linear dimensions also contains a flange 9 fixed to the inner sleeve 3 with a spring 10 installed therein and two flat springs 11, 12, levers fixed to them, respectively, the first 13 and second 14, the thrust sleeve 15, the first 16 and second 17 gauges, the second group of flexible rods 18, an outer cage 19 suspended thereon, a sleeve 20, a conical spring 21, a clamping nut 22.

The information processing unit 8 has an indicator panel onto which information about the results of the control is displayed; when it is automatically sorted, it also has an output to the actuator (not shown in Fig. 1).

The thrust sleeve 15 is mounted on the inner sleeve 3, a gauge 16 is mounted in the sleeve 15 with the possibility of axial movement and interaction with one arm of the lever 13. The gauge 16 is spring loaded relative to the flange 9 by the spring 10. The transducer 6 is installed with the possibility of interaction with the other arm of the lever 13, and the transducer 7 - with the possibility of interaction with the shoulder of the lever 14.

Gauges 16, 17 have an input surface made along the radius on the initial part of the caliber, which performs the function of a catcher, and the axes of calibers 16, 17 are parallel.

The outer cage 19 has an inner hole having a conical portion. The sleeve 20 has a conical part mating with the conical part of the outer ring 19 and is mounted therein with the possibility of relative movement along the axis of the conical part.

The conical spring 21 interacts with the ends with the outer cage 19 and the sleeve 20, while the sleeve is installed with a gap with both calibers 16, 17 and the possibility of interaction with its axial movement with the other shoulder of the second lever 14.

The distance between the upper end of the sleeve 20 and the lever arm 14, with which it can interact, along the axis of the sleeve 20 is set taking into account the distance from the lower end of the clamping nut 22 to the inner end of the caliber 17.

The length of the gauge 16 is selected from the condition of its entry into the hole of the controlled product to a predetermined depth.

For operation, relative movement of the head is necessary to control the linear dimensions or the product being monitored along the axis of the calibers, which can be carried out by drive or manually. To do this, the head for monitoring linear dimensions is installed in the control position.

The control position includes a base 23, a rack 24 with a bracket fixed thereon, a fastening module 25, a basing module 26, a sensor 27, a reverse drive 28 (with automatic feeding), a control unit 29, the output of which is connected to the drive.

The mounting module 25 includes a rolling pin 30, a spring 31, a nut 32.

The head for controlling linear dimensions is mounted on a rolling pin 30, which is mounted in the bracket of the rack 24 with the possibility of axial movement, and is spring-loaded relative to it by a spring 31.

Module 26 based on the product is installed on the base 23 with the possibility of movement along the axis of calibers 16, 17 of the head to control the linear dimensions at a given distance. When automatically feeding, the base module 26 is connected to the drive 28 installed on the basis of 23.

The sensor 27 (for example, a limit switch) is installed with the possibility of information interaction with the module 26 basing in its upper position. The output of the sensor 27 is connected to the third input of the information processing unit 8 and the control unit 29. The control unit 29 has a power switch and an operation button (or an input for supplying a command signal when operating in automatic mode, not shown in FIG. 1).

The controlled product 33 is installed in the module 26 basing in an oriented position so that the axis of the controlled surfaces are close to the axes of the respective calibers 16, 17.

Converters 6, 7 are configured so that in the initial state the logic zero signals are input to block 8, and it gives a reject signal, and at a given movement of their rods, converters 6, 7 are triggered, and they give a logical unit to the input of information processing block 8 .

The head for controlling linear dimensions works as follows.

In the initial state, the base module 26 with the product 33 is in its lowest position. On the display panel of the information processing unit 8, a reject signal is installed.

When an external command is sent to the control unit 29 (for example, when the operator presses a button on it), the reversing drive 28 moves the base module 26 with the product 33 along the axis of the head gauges 16, 17 to control linear dimensions.

When lifting the base module 26, the sleeve 20 through the clamping nut 22 under the influence of the conical spring 21 presses the controlled product 33 to the mounting module 26, which fixes it in this module. In this case, the conical surface of the sleeve 20 before contact of the calibers 16, 17 with the controlled surfaces of the product 33 comes out of contact with the conical surface of the outer cage 19 and releases the gauge 17, which can now move independently of the gauge 16 within the existing gaps perpendicular to the direction of movement and can be installed in a controlled surface of the product (due to the initial part with a radius).

Since the inner diameters of the sleeve 20 and the clamping nut 22 are larger than the outer diameter of the thrust sleeve 15 in which the first caliber 16 is installed, the latter also has the ability to be installed on a controlled surface regardless of caliber 17.

If, when the basing module 26 reaches its extreme upper position, the upper end of the sleeve 20 presses on the first arm of the lever 14, which rotates and moves the rod of the transducer 7 with the second arm, then the transducer 7 will operate and provide information about the movement (logical unit) to the information processing unit 8. If the first gauge 16 enters the controlled hole, then it will not move in the axial direction, the transducer 6 will not work, and there will be a logical zero at the corresponding input of the information processing unit.

When the basing module 26 reaches its extreme upper position, the sensor 28 outputs a signal in the form of a rectangular pulse to the information processing unit 8, along the leading edge of which the previous state of the information processing unit 8 is reset. According to this signal, the information processing unit 8 provides information on the validity of the monitored product to the display panel and at the same time to the executive device performing the sorting (with automatic sorting). At the same time, from the sensor 27, the command is sent to the control unit 29, which gives a control command to the drive 28. By this command, the drive 28 returns the base module to its original state and goes into standby mode.

If the first gauge 16 does not enter the controlled hole, with the product 33 it, compressing the spring 10, moves up along its axis, the lever 11 rotates, acts with its shoulder on the transducer 6, it will work and give a signal to the information processing unit 8 regardless of the state of the transducer 7. When a signal is received from the sensor 23 of the control command, the information processing unit 8 will provide information about the marriage to the display panel and at the same time to the executive device performing the sorting (with automatic sorting).

If the controlled outer diameter does not enter the caliber 17, then the spring 22 is compressed, the sleeve 20 does not reach the shoulder of the lever 14, and it does not act on the transducer 7, which does not work. At the input of the information processing unit 8 from the converter 7, a logical zero signal will remain. When a signal from the sensor 23 control commands

block 8 information processing will provide information about marriage regardless of the state of the Converter 6.

In this case, information about the results of the control is stored in the information processing unit 8 until the next control cycle.

After lowering the drive module 26 basing module 26 with the product 33 to its original position, the product 33 is removed from the module 26 basing and direct it to the drive corresponding to the control result. When automatically sorted by a signal from block 8 of the information processing to the executive device, it is prepared for the direction of the controlled product in the appropriate drive.

The technical result is as follows. The head for monitoring linear dimensions has wider functionality compared to peers, since it allows you to control several independent product parameters at one position.

In addition, since the sleeve with the clamping nut and conical spring fixes the product before control and the same sleeve transmits information about the control result through the lever to the converter, this reduces the accuracy requirements for the relative positioning of the second caliber and the controlled product and, in comparison with analogs, improves reliability work.

Claims (1)

A head for controlling linear dimensions, containing a base clip, a first group of flexible rods, an inner clip suspended on them to the base clip, first and second brackets mounted on it with first and second converters respectively installed, an information processing unit connected to their outputs, fixed on the inner cage, a flange and two flat springs mounted on flat springs, respectively, the first and second levers, a thrust sleeve fixed in the inner cage, installed in it with the axial movement and interaction with one shoulder of the first lever, the first gauge, spring-loaded relative to the flange, the second gauge, while the first transducer is installed with the ability to interact with the other shoulder of the first lever, the second transducer is installed with the ability to interact with one shoulder of the second lever, and the axis of the calibers are parallel, characterized in that it is provided with a second group of flexible rods suspended on them from the base ring by an outer ring with an inner hole having a conical part, a clamp made in it with the possibility of relative movement along the axis of the conical part in the form of a sleeve with a conical part conjugated to the conical part of the outer cage, a conical spring interacting with the ends of the outer cage and the clamp, the clamp is installed with a gap with both calibers and the possibility of interaction with its axial movement with the other shoulder of the second lever, and the second caliber is fixed in the outer cage.