UA147054U - THICKNESS INDICATOR INTERNAL METER - Google Patents

Abstract

The thickness gauge indicator internal consists of a rail guide, from the first carriage together with a fixed sponge and with a fixed tip, from the second carriage together with a movable frame, with a movable sponge and with a movable tip, from a digital reading device, thus, according to the utility model the digital reading device consists of a housing, a rod and a remote display, the housing is also connected to a rail guide, the rod rests on a movable frame, a remote display is mounted on a rail guide, which also has a handle having a hinge on which the lever with fork rotates. which moves the finger together with the movable frame, a spring is installed between the handle and the lever.

Description

The useful model belongs to control and measuring instruments for measuring external dimensions in the depth of internal holes of body parts.

There is a significant number of geometric gauges for measuring external and internal dimensions (calipers, micrometers, indicators, internal gauges, thickness gauges, wall gauges and others)

PI, while the vast majority of traditional measuring equipment (MT) is designed to measure only one type of dimensions (external or internal measurements. Even a special meter with complex measuring surfaces (for example, calipers of the ShЦЦСВ and ShЦЦЦN types, lever internal gauges of the НШ and НЫ types, wall gauges levers of the NON and NRN types (1) provide exclusively only external or only internal measurements.

The only type of meter adapted today for combined measurements of external dimensions inside internal holes are lever indicator thickness gauges and wall gauges of the German company "Kgoeriip" (2) and the Japanese company "Reasosk" IZ), which have fundamental disadvantages:

Lever construction with variable projections of levers and indirect measurements of measuring devices with too large errors (400 µm on 725 mm (2) and 600 mm consoles

FROM).

The designs of the specified German and Japanese thickness gauges limit their use in internal holes due to the difficulty or impossibility of reading the indicators from the indicators inside the casing holes.

It should be noted that the presence of levers in the designs of most indicator thickness gauges

M, 2, Z| provides the possibility of remote forced movement of measuring tips, which is important when using them.

Modern industry requires a significant number of combined measurements (external precision dimensions inside holes with limited dimensions):

The possibility of manufacturing one-piece hollow shaped housings instead of connected housings with welding or threaded fastening from several component parts, which allows to significantly reduce the total labor intensity and total cost;

Exclusion of manual installation and time-consuming adjustment reduces the share of manual labor and the negative impact of the human factor many times over;

З Production of cases with a single base of a single case significantly improves the manufacturability and productivity of mechanical processing of case parts;

Measuring inside deep holes of a wide variety of external dimensions (flat, cylindrical, spherical, polyhedral, combined and others) expands the possibilities of designing and manufacturing advanced and complex cases.

In addition, it is desirable to provide for external measurements of internal ledges, which are coaxial with the opening, as well as offset relative to the axis of the opening of the housing, which complicates the process of measurements by traditional ATS due to their asymmetric placement.

In principle, external measurements in internal holes can be performed by ZO measurements, using ZO measuring hands or portal ZO KVM with extended probes (to the depth of the hole), while the cost of ZO measurements will be 10...100 times higher than the cost of measurements with a manual meter, with a corresponding difference in the cost of the meter itself.

The development and production of an actual hand-held combined meter for external and internal measurements has so far been hampered by the lack of a general concept, limited or lack of technical solutions for individual components of the specified meter.

The basis of the useful model is the task of creating a manual CVT for precision measurements with an error of 10 microns of external dimensions of 0...200 mm in internal holes of 80...350 mm at a depth of 500...1500 mm.

The patent analogue of the useful model "Thickness gauge indicator internal" is the American patent О5Мо 1259196 |4|, which proposes a traditional manual thickness gauge with a built-in indicator measuring device (TR type according to the modern classification |11).

The disadvantages of the analogue patent (41) in relation to our development are related to the impossibility of achieving any of the 3 parameters of the above-mentioned goal of our useful model.

A patent analogue of the useful model "Thickness gauge indicator internal" is the American patent Sh5Mo 3881256 151, in which the indicator measuring device is placed coaxially and combined with a pointed measuring rod-probe to determine the depth of the groove on a flat surface.

Disadvantages of patent analogue |5| associated with the impossibility of achieving any of the 3 parameters of the above-mentioned goal of our useful model.

The patent analogue of the useful model "Thickness gauge indicator internal" is the well-known American patent О5Мо 2581946 |6)І, in which the multifunctional thickness gauge provides external and internal measurements, as well as the measurement of the height of the ledges (similar to the ШР type rod gauge (11).

Disadvantages of patent analogue |b| associated with the impossibility of achieving the parameters of the above-mentioned goal of our useful model when measuring at the depth of the casing hole.

A patent analogue of the useful model "Thickness gauge indicator internal" is the American patent Sh5Meo 3075290 |7I, in which the measuring device in the form of an indicator slides along a tubular frame with a longitudinal hole.

Disadvantages of patent analogue I/| associated with the impossibility of providing the above-mentioned goal of a useful model.

The patent analogue of the useful model "Thickness gauge indicator internal" is the Ukrainian patent OAMo 127111 |8), in which the specialists of the Kharkiv enterprise "MICROTECH" proposed a sliding caliper with rail guides on a reinforcing beam, along which two groups of rolling carriages with two measuring devices in consisting of two movable frames, on which two remote consoles with two measuring jaws are fixed, which allowed to significantly increase the range of measurements relative to the overall dimensions of the caliper in the folded position.

The disadvantages of the analog patent (8) are related to the impossibility of locating the micrometer at the depth in the measured hole of a limited diameter with remote movement of the roller carriage.

The patent analogue of the useful model "Thickness gauge indicator internal" is the Ukrainian patent SHAMO 131773 "Calibration stand" (9|), in which the experts of the Kharkiv enterprise "MICROTECH" proposed to install two sliding carriages with a precision micrometric head and a calibration indicator on one rail guide. The use of rolling carriages made it possible to expand the metrological capabilities of indicator calibration several times.

Disadvantages of the patent-analog IZ9| associated with limitations and impossibility of measurements at depth inside a hole of limited diameter.

The patent analogue of the useful model "Thickness gauge indicator internal" is the Ukrainian patent OAMe 132139 "Stangen radius gauge" (10Y), in which experts of the Kharkiv enterprise

"MICROTECH" offered a rod radius gauge with a horizontal rail guide and a sliding carriage together with a counting device, which made it possible to measure chords and calculate indicators of extra large radii.

The disadvantage of the analog patent (10) is the impossibility of external measurements at a significant depth inside the hole of limited diameter and the impossibility of remote movement of the roller carriage.

Ukrainian patent SHAMO 111603 "Vernier calliper with large jaws" (11) was selected as the closest analogue, in which the specialists of the Kharkiv enterprise "MICROTECH" proposed a vernier caliper with rail guides on reinforcing beams, with two sliding carriages as part of two moving frames with two counting devices, two jaws, with two tared tips.

Disadvantages of the closest analogue |11| associated with the impossibility of measuring the external dimensions at a significant depth inside the hole of limited diameter and the impossibility of remote control of the movement of the roller carriages.

In all corresponding patents-analogues |8, 9, 10| and in the closest analogue (11| the rail guides are fixed exclusively on the rods or on the support plane, while the self-sufficient use of the rail guides in any thickness is not provided for.

None of the analogue patents (4...11|) provide for the possibility of reading information outside the measurement zone.

A useful model of the indicator internal thickness gauge consists of a rail guide 1, the first rolling carriage 2 together with the fixed jaw З and the fixed tip 4, the second rolling carriage 2 together with the movable frame 5, the movable jaw 6 and the movable tip 7, from the digital counting device 8, while it differs from the nearest analogue in that the digital counting device 8 consists of a housing 9, a rod 10 and a remote display 11, the housing 9 is also attached to the rail guide 1, the rod 10 rests on a moving frame 5, a remote display 11 fixed on the rail guide 1, on which the handle 12 is also fixed, which has a hinge 13, on which the lever 14 turns with a fork 15, which moves the finger 16 together with the movable frame 5, and a spring 17 is installed between the handle 12 and the lever 14.

The essence of the useful model "Thickness gauge indicator internal" consists in the use of a rail guide 1 in the form of a multifunctional design of the ZVT, see on the drawing:

as a guide for the installation movement and locking of the first rolling carriage 2 together with the stationary sponge 3 and the stationary tip 4; as a guide for the working movement of the second roller carriage 2 together with the movable frame 5, with the movable jaw 6 and the movable tip 7;

For fixing the case 9 and attaching the handle 12.

Rail guide 1 and both rolling carriages 2 must be manufactured in accordance with the recommendations of the closest analogue |11| taking into account the features of our useful model: the length of the rail guide 1 depends on the cross section of the inner hole, in which the outer size is measured; the first sliding carriage 2 provides a setting movement and locking to adjust the position of the fixed jaw C together with the fixed tip 4 according to the placement of the measured size (symmetrically or with an offset relative to the axis of the inner hole); the second sliding carriage 2 provides operational movement within the range of measurements (when pressing the lever 14 with the movement of the finger 16) for the movable frame 5 with the movable jaw 6 and the movable tip 7.

Rail guides 1 with two sliding carriages 2 with a cross-section of 15 mm are optimal in terms of nominal values, nominal cross-sections of 7...30 mm or others are also possible, depending on the needs of the user.

Thanks to the first sliding carriage 2, the possibilities of deep external measurements in internal holes limited in size have been significantly expanded.

In the production process, it is possible to adjust the measurement ranges and placement of both tips (4 and 7) relative to the external measured size as follows:

Change the place of attachment on the first sliding carriage 2 and the shape of the fixed sponge C with a fixed tip 4;

Change the place of fastening on the second roller carriage 2 and the shape of the movable frame 5 together with the movable sponge 6 and the movable tip 7.

It is advisable to provide maximum movements of both carriages 2 on the limited length of the rail guide 1 to expand the measurement ranges and options for placing external measured dimensions inside the internal opening of limited size.

The movable frame 5, installed on the second roller carriage 2, is made of sheet metal and is multifunctional: it holds the movable jaw 6 together with the movable tip 7; constantly in contact with rod 10; holds the finger 16, in which the fork 15 rests at the end of the lever 14.

The fixed jaw Z and the movable jaw b are made of metal sheet (similar to the jaws of traditional calipers or flat clamps of micrometers and thickness gauges.

The fixed tip 4 and the movable tip 7 can be made flat, spherical, cylindrical, conical, knife-shaped, combined or other shapes, according to the measurement conditions.

The digital measuring device 8 has the following differences: it must have an indicator or a measuring bar, since only the specified readings ensure the free movement of the rod 10 (as opposed to forced rotation during micrometric reading); the body 9 with the rod 10 is placed directly in the depth of the hole, separately from the remote display 11; housing 9 has an electrophysical converter of linear movements into an electrical information signal (inductive, capacitive, photoelectric or other); the remote display 11 can be connected to the housing 9 by wire or wireless connection

GP

It is expedient to make the remote display 11 as follows: in the form of a wireless "autonomous tablet" according to the well-known Ukrainian patent ShSHAMo 202004098 "Computer bar tool with adjustable "Tariei" 12) with installation on the desktop, indoors, on the user's clothes, on the handle 12 of the useful model or otherwise; in the form of a wired connection with a remote display 11 in the form of a wristwatch or with a useful model fixed on the handle 12 according to the known technology of a computer wired indicator type TMYGK of the Kharkiv enterprise "MICROTECH" G11; in the form of wireless communication from the computer indicator, manufactured according to the "Tariei" and "IpieiiPdepi" technologies according to the well-known Ukrainian patent OAMe 99686 "Computer indicator"

19) and OAMo 131637 "Indicator "IPieiidepi 4.0" (14) with the transmission of information to external displays 11 in ordinary smartphones, tablets, tablets, PCs, servers and other devices.

The handle 12 is made of a profile pipe (aluminum, steel, carbon or other material) and has a length not less than the depth of the measurements. The handle 12 holds the useful model in the depth of the inner hole, along with the outer measured dimension.

The hinge 13 is fixed on the handle 12 to ensure sufficient movement and optimal pressing of the fork 15 on the finger 16 on the movable frame 5.

The lever 14 is made of a profiled rod or pipe of the appropriate section (made of metal or non-metal) and divided by a hinge 13 into two arms of the lever 14.

Between the handle 12 and the lever 14, a spring 17 is placed, which provides a constant pressing force by the fixed tip 4 and the movable tip on the surface gauge of the corresponding external size.

The fork 15 can be made directly at the end of the lever 14 or in the form of an independent structure with a slot in which the finger 16 is placed.

Finger 16 is made in the form of a lumbar rod fixed on a movable frame 5.

Spring 17 provides regulated tare pressure and is installed between handle 12 and lever 14 as follows: pressure spring - when installed in the gap between hinge 13 and the free ends of handle 12 and lever 14; tension spring when installed in the gap between the hinge 13 and the rail guide.

The useful model "Indicator internal thickness gauge" is inserted into the hole with the help of handle 12 and brought closer to the measured external size.

Depending on the location and the size of the measured external dimension, the first sliding carriage 2 together with the fixed sponge C and the fixed tip 4 are moved and locked on the rail guide 1 in an appropriate manner for carrying out measurements.

When pressing on the free end of the lever 14, the lever 14 turns around the hinge 13, the fork 15 moves the finger 16 together with the movable frame 5 and moves the sliding carriage 2, which allows you to clamp the measured size between the fixed tip 4 and the movable

With tip 7.

The useful model "Thickness gauge indicator internal" is used as follows (the option of installing the remote display 11 on the handle 12): 1) include the housing 9 and the remote display 11 of the digital measuring device 8; 2) move and stop the first carriage 2 together with the stationary sponge З and the stationary tip 4 in accordance with the conditions of external measurements; 3) perform the initial calibration of the useful model by clamping the corresponding CMD (if direct contact between the fixed tip 4 and the movable tip 7 is possible, there is no need to use the CMD); 4) hold the useful model by the handle 12 and by pressing the lever 14 select a slightly larger (by 3...6 mm) than the expected distance between both tips (4 and 7) when measuring the external size; 5) insert the useful model into the inner hole to the measurement depth, holding the handle 12, while pressing and holding the lever 14; 6) the fixed tip 4 and the movable tip 7 of the measured external size (in the inner hole) are brought to the outside; 7) hold the useful model by the handle 12 and touch the measured size with both tips (4 and 7) by releasing the pressure on the lever 14, while the remote display 11 displays the current value of the measured size; 8) by shaking the handle 12, determine the minimum value on the remote display 11, which corresponds to the actual value of the measured size; 9) repeat the transitions of paragraphs 4....7 with repeated measurements of the same size; 10) repeat the transitions of paragraphs 3...8 when measuring other sizes; 11) turn off the housing 9 and remote display 11 of the digital counter 8 manually or automatically (in the absence of measurements for 20...60 minutes); 12) repeat the transitions of paragraphs 1...10 with new series of measurements.

The useful model "Thickness gauge indicator internal" does not require personal knowledge from the user and is used in the usual way.

A comparative analysis of the useful model "Thickness gauge indicator internal" was carried out with the deepest among the world's best lever indicator thickness gauges from the German company 60 "Ktoeriip" (21, see Table 1.

Table 1 internal indicator internal" of the company "Ktoeriip" (Germany) /2/ measurements, mm

The minimum possible opening of the case with external 350 450 measurements 200 mm, mm measurements, mm

The conducted analysis confirmed the possibility and expediency of manufacturing a useful model "Thickness gauge indicator internal", which expands the possibilities of manufacturing and control of complex cases.

The useful model "Thickness gauge indicator internal" provides previously unavailable technical and economic possibilities of precise external measurements in deep holes. 1. Catalog "MICROTECH-2020" No. 570OA 2. Saiaiod "Ktoeriip"

Z. Saiaiod "Reasosk" 4. Raiepi O5Mo 1259196 "Ipaisaiipd-saiireg!" 5. Raiepi O5Me 3881256 "TpisKpe55 datsde" 6. OAMo patent 2581946 "Ipzide apa oshivide ..." 7. Raiepi O5Mo 3075290 "Opimegza! dade" 8. OAKMo patent 127111 "Caliper extended" 9. OAMe patent 131773" "Calibration stand 10. OAMo patent 132139 "Barbell radius gauge" 11. OAMo patent 111603 "Clip caliper with large jaws" 12. OAMo patent 202004098 "Computer rod tool with adjustable "Tariei" 13. OAMo patent 99686 "Computer indicator" 14. OAMo patent 202004098 "Indicator "IPIEIDEPI 4.0"

Claims (1)

UTILITY MODEL FORMULA 25 Thickness gauge indicator internal, which consists of a rail guide, from the first sliding carriage together with a fixed sponge and with a fixed tip, from the second sliding carriage together with a movable frame, with a movable sponge and with a movable tip, from a digital counting device, which differs in that the digital counter consists of a housing, a rod and a remote display, the housing is also attached to a rail guide, the rod rests on a movable frame, the remote display is fixed on a rail guide, on which a handle is also fixed, which has a hinge on which a lever with a fork is turned, which moves the finger together with a moving frame, and a spring is installed between the handle and the lever.