DE1765961U - INDOOR MEASURING DEVICE. - Google Patents

Description

Internal precision measuring device The invention relates to an internal precision measuring device measuring head provided at one end of a tubular shaft. The known devices of this type have at least one fixed and one with a hand lever on the measuring head coupled, retractable probe on, with the retractable probe over a transmission rod in the shaft to a dial indicator at the other end of the shaft acts.

In the known precision measuring devices, the measuring sensors are designed in the shape of bolts, and a transmission roller is provided to transmit the movement of the retractable measuring sensor to the transmission rod, because these movements are perpendicular to one another. This roller is connected on the one hand to the measuring sensor and on the other hand to the transmission rod by intermeshing teeth. This connection via the roller ensures precise transmission of the movement of the probe on the transmission rod is practical not possible because in the production of the interlocking gripping teeth, even with extreme care, a certain tolerance cannot be avoided.

Another disadvantage of the known internal precision measuring devices with a Hand lever coupled, retractable probe is that when retracted of the measuring sensor by means of the hand lever the transmission rod during the whole Movement of the measuring probe acts on the dial gauge and is there as harmful Idling affects. Due to this idling when pulling in the probe, the Measuring accuracy of the dial indicator impaired.

The invention is based on the object of eliminating this impairment of the measuring accuracy in the known internal precision measuring devices. This object is achieved by the invention in that the retractable measuring sensor acts directly on the transmission rod and that a free-wheeling device is provided in the transmission rod which enables the measuring sensor to be retracted without actuating the dial gauge. As a result of the direct action of the measuring sensor on the transfer rod, the sources of error caused by the transfer roller in the known devices are eliminated. The free-wheeling device in the transmission rod enables the measuring sensor to be retracted completely by means of the hand lever without the dial gauge being actuated. k In a preferred embodiment of the invention, it is provided that the retractable measuring sensor has an outer surface formed by curved surface lines, by means of which it is mounted displaceably along the surface lines in a correspondingly designed bearing in the measuring head.

The surface lines can extend over a quarter of a circular line extend so that one end of the probe in an approximately perpendicular direction to Shaft arm protrudes from the measuring head, while the other on the transmission rod directly adjacent end in the direction of the longitudinal axis of the transmission rod extends. This design of the measuring sensor converts the to the longitudinal axis of the transmission rod vertical movement of the probe into a movement in Direction of this longitudinal axis achieved in a surprisingly simple manner. if thereby the mutually facing ends of the probe and the transmission rod are each designed as a cutting edge and a lapped surface, is a backlash-free transfer movement of the sensor onto the transmission rod is possible.

The ends of the measuring sensors protruding from the measuring head can be used as narrow, flat tongues formed and arranged so that they and the lower End of the measuring head are limited by a common contact plane. This training the measuring sensor enables the measuring sensor to be used directly in a manner known per se can be introduced to the bottom in a blind hole so that the diameter the hole and, if necessary, of the recesses provided at the bottom of the hole directly can be measured at the bottom.

The freewheel device according to the invention can be designed in the manner be that the transmission rod made of two against the force of one when actuated the dial gauge non-deformable spring in the axial direction collapsible parts exists and that for the upper part acting on the dial gauge its axial movement limiting stop is provided. Due to the axial movement of the upper part the limit stop of the transmission rod is achieved when it is pulled in of the sensor this part of the transmission rod only within a certain Path (stop) is moved. If the probe is retracted further, then the lower part of the transmission rod cooperating with the sensor against the force of the spring moves relative to the upper part, so that the probe can be fully retracted without damaging the dial indicator idling arises.

Further features of the invention emerge from the following description of an embodiment shown in the drawings.

1a and 1b show a longitudinal section of the lower and upper part of a device according to the invention, FIG. 2 shows a section along the line II-3I in FIG. ge, Fig. 3 is a partially shown in section Side view of the hand lever of the device directly 4 shows a broken away plan view of the parts shown in FIG. 3, FIG. 5 shows a view of the sleeve shown in FIG in S'ig. 1a, FIG. 7 shows a section along the line VII-VII in FIG. 6, shown broken away.

The device shown in Fig. 1a and 1b consists of one.

Measuring head 1, which by means of a holding tube 2 with a handle 3 and a hand lever 4 carrying sleeve 5 is connected, towards which the holding tube 2 end remote from a holder 6 for a dial indicator 7 is provided. That in the head The tube 2 inserted in 1 is clamped there by means of a screw 1 ′.

The end of the measuring head that terminates with a flat surface 8 at the bottom 1 has a dovetail-shaped guide 9 for one in this guide slidable and lockable by a clamping screw 10 tongue-shaped fixed Sensor 11 is provided. The fixed measuring sensor 11 can be set to a desired measuring diameter.

A retractable measuring probe 13 is also arranged in the measuring head 1, which has an outer surface formed by curved surface lines 14, by means of which it is longitudinally in a correspondingly designed bearing 15 in the measuring head 1 the surface lines 14 is slidably mounted. The bearing 15 in the measuring head can also as shown in the drawing, eire formed from circularly curved surface lines Surface rope.

However, this is not absolutely necessary because it is used to store the measuring probe 13 at least two limited support surfaces are sufficient to level the through the can support circularly curved surface lines formed surface of the sensor. The end 13 ′ of the measuring sensor 13 protruding from the measuring head 1 is a flat tongue formed, the lower surface of which is the plane of contact the one with the forms the lower surface of the tongue 11 aligned end face 8 of the measuring head. Through this is achieved ? that the measurement by means of the device according to the invention is immediate can be made at the bottom of a blind hole.

The surface lines 14 extend approximately over a quarter of a circular line, so that the two ends of the probe 13, namely the end 131 and the other End 13 ", extending in mutually perpendicular directions. That extends in direction the longitudinal axis of the holding tube 2 extending end 13 ″ of the measuring sensor is as a cutting edge formed directly on a flat lapped end face 16 of a two parts 17 and 18 existing transmission rod rests.

The lower bolt-shaped part 17 is by means of special ball bearings 17 'mounted in the holding tube 2 and in the measuring head 1 so as to be axially displaceable. The upper part of the pole 18 consists of a sleeve 19 which is closed at its upper end by a screw 20 which has a pin 20 ′ which interacts with a sensor 21 of the dial gauge 7. The sleeve 19 is screwed together with the holding tube 2 by means of the thread 2 ′ Sleeve 5 slidably mounted. The axial movement of the sleeve 19 is at its lower end by a stop 22 and at its upper end by the sleeve-shaped, Dial gauge holder 6 screwed into the bore of the sleeve 5 is limited. That of the sleeve 19 facing end 6 'of the dial gauge holder 6 is tapered, and thereby between the sleeve 5 and the end 6 'resulting annular space is used to accommodate a one end to the holder 6 and the other end to the end face the spring 23g which supports the screw 20 and which presses the sleeve 19 against the stop 22. The distance between the face of the screw 20 and the face of the end 6'des Dial indicator holder 6 corresponds to the measuring range of the dial indicator. The sleeve 19 can so can only be moved axially within @ a certain path (stop) 56.

At the end of the lower rod part facing away from the measuring sensor 13 17 an eyelet 24 is provided. In the recess 24 'of the eyelet 24 engages a web-shaped Part 191 of the sleeve 19 which is open to one side at its lower end.

The indiz sleeve 19 engaging end of the eyelet 24 is cylindrical Approach 25 provided in which one end of the one with its other end to the Screw 20 supporting spring 26 engages. In the protruding into the sleeve 19 A ball 27 is mounted in part of the recess 24 ′.

This ball is now moved by the force of the spring 26 between the 19th Web 19 'of the sleeve / and the wall of the recess 24'der Eyelet 24 clamped. By lapping the ball bearing surfaces it is achieved that the mutual Position of the two transmission rod parts 17 and 18 through the ball 27 and the lapped contact surfaces is precisely defined. As long as the spring 26 is not compressed is, form the two transmission rod parts 17 and 18 in this way a rigid, for the transmission of the movement of the measuring sensor 13 to the measuring sensor 21 of the dial gauge 7 suitable body. For this reason, the spring 26 is chosen to be so strong that it by the force of the spring 23 and the restoring force of the dial indicator 7 when actuated of the measuring sensor 13 cannot be compressed during the measurement.

To retract the measuring sensor 13, it is used about an axis of rotation 30 an arm-like extension 5 'of the sleeve 5 pivotably mounted hand lever 4, the one Has part 31 comprising the sleeve 5 in the form of a fork. Both arms of the fork-shaped Part 31 engage in recesses 32 on a collar 33 of the sleeve 5 axially displaceable Sleeve 34 a. The wall of this sleeve 34 is thickened inwards at its lower end, so that a Sb. fe 35 is formed on which one end of a spring 36 is supported, the other end of which rests against the collar 33 of the sleeve 5. By cltse spring 36 the Sleeve 34 is pressed against a stop 3 ′ formed by the handle 3.

This position of the sleeve 34 inevitably corresponds to one of the Handle 3 lifted position of the hand lever 4, as shown in Fig. 1b.

At the lower end of the sleeve 34, an inner flange 37 is provided which with one provided in a transverse bore of the lower part 17 of the transmission rod Pin 38 cooperates so that when the hand lever 4 is pressed into the in and Fig. 1 b in dashed lines / in Fig. 3 solid position shown with the sleeve 34 through the flange 37 and the pin 38 also the lower part 17 of the transmission rod in Direction to the dial indicator 7 is shifted axially. So by an involuntary Touching the hand lever 4 does not affect the measurement result, is the stop 3 'arranged in such a position that when the sleeve 34 hits the stop is applied, the flange 37 is at a distance 39 from the pin 38. the Sleeve 34 also has a gap 40 into which a shoulder 41 for a screw 42 engages, which is used to attach the handle 3 to the sleeve 5.

Around the retractable probe 13 opposite the fixed probe 11 to align exactly about the central axis, a centering element 43 is used, which, as well like the measuring sensor 13, is designed in the shape of a segment of a ring and, as can be seen from FIG is, the probe 13 comprises from three sides. This centering organ 43 is not only used to center the measuring sensor 13, but also as a connecting element for pulling in the measuring sensor 13 by means of the hand lever 4. For this purpose it engages on the one hand, a bolt 44 fastened in the centering element with play in a recess 45 of the sensor 13.

The bolt 44 can be in the normal position of the measuring sensor 13 rest against the upper wall 45 ′ of the recess 45, so that when the Centering member 43 at the same time the sensor 13 is taken along, but that infdge of the play between the bolt 44 and the lower wall 45 "of the recess 45 the measuring sensor 13 can be moved independently of the centering element 43 during measurement. On the other hand, the centering member 43 is articulated by means of a tab 46 with a Sleeve 47 connected through which the lower part 17 of the transmission rod engages and which is mounted in the holding tube 2 so as to be axially displaceable. For connection with of the tab 46, the sleeve 47 has a slot 48 in the holding tube 2 extension 47 'extending therethrough, on which the tab 46 can be pivoted about an axis 46' is attached.

The other end of the tab 46 is also connected by a binding 46 ″ pivotally connected to the centering member 43. At its lower end, the sleeve 47 has an inner flange 49 on, on which one end of a spring 50 is supported, the other end of which rests against a stop 51 fastened in the holding tube 2. This spring 50 presses the sleeve 47 against a stop 52 in the measuring head 1. To now the Retraction movement of the hand lever 4, which is carried out by the sleeve 34 on the lower part 17 of the transmission rod is transmitted from this onto the sleeve 47 and thus via the centering element 3 To transmit to the sensor 13, a bolt 53 is provided in a transverse bore of the lower part 17 of the transmission rod. This bolt 53 serves on the one hand to support the transmission rod pushed down by the spring 23 on a bushing 54 screwed into the measuring head 1, which at the same time serves as a holder for the special ball bearing 17 'provided in the measuring head 1 for the lower part 17 of the transmission rod. On the other hand, the bolt 53 cooperates with the lower end of the sleeve 47 formed by the flange 49.

However, in order not to impair the measuring movement of the transmission rod, a game 55 is provided between the bolt 53 and the sleeve 47, which a movement of the lower part 17 of the transmission rod in the entire measuring range of the probe 13 allows without the sleeve 47 being carried along by the bolt 53.

For example, in order to measure the diameter of a puncture at the bottom of a basic bore, the fixed measuring sensor 11 is first set approximately to the diameter to be measured by means of the scale 12 and then the clamping screw 10 is tightened. In order to be able to insert the measuring head 1 into the bore, the hand lever 4 is pressed against the handle 3, whereby the sleeve 34 moves upwards against the force of the spring 23 and, after idling due to the play 39, moves the lower part 17 the transmission rod takes along by means of the bolt 38. In this case, the upper part 18 of the transmission rod is initially also pressed upwards until the screw 20 strikes the lower end 61 of the dial indicator holder 6. This movement of the upper part 18 of the transmission rod corresponds to the actual measuring-effective stop of the device. When the hand lever 4 is moved further, the lower part 17 of the transmission rod is now pressed against the force of the spring 26 into the sleeve 19 of the upper part 18 of the transmission rod. At the same time, the bolt 53, the sleeve 47 and thus the centering element 43 via the tab 46 and with it the measuring sensor 13 are pulled upwards. Since this movement of the sleeve 47 only takes place when the bolt 53 has gone through the play 55, and thereby the frontal surface 16 extends from the end provided with a cutting edge 13 " of the probe 13 has lifted, these two parts are located not on each other during the pull-in movement and are thus protected.

When the measuring head is inserted into the bore in this way, the hand lever becomes 4 released so that the parts coupled to the hand lever, namely the Sleeves 34 and 47, by the force of springs 36 and 50 in their starting positions move. Here, the lower part 17 of the transmission rod is removed from the flange 37 of the sleeve 34 released so that the spring 26 can stretch until the ball 27 rests on the web 19 'and thereby the transmission rod its original Reached length. Immediately after this occurs, the weaker one occurs Spring 23 in action and moves the entire transmission rod 17, 18 for so long down until the sensor end 13 'touches the wall of the groove to be measured. In In this position, the transmission rod stops so that the dial indicator 7 indicates the diameter to be measured. Since the lower surfaces of the sensors 11 and 13 together with the lower end face 8 of the measuring head 1 have a common plane touch, becomes the diameter of the puncture when the measuring head is down to the bottom the hole is inserted into this, measured directly at the bottom.

The invention is not limited to the exemplary embodiments shown in the drawing the specified constructional details are limited. So z. B. the probe 13 not to be formed in the shape of a ring segment. It is enough that he is a from having circularly curved surface lines formed outer surface, by means of which he in a correspondingly designed bearing in the measuring head along the surface lines is slidably mounted. Also the connection of the lower part 17 with the upper one Part 18 of the transmission rod can also be used in other ways using means known to those skilled in the art Way to be carried out. It just depends on the transmission rod consisting of two springs that cannot be deformed against the force of the dial when the dial gauge is actuated there is collapsible parts in the axial direction and that for the Dial gauge acting upper part provided a stop limiting its axial movement is.

In the illustrated embodiment, when the hand lever is operated 4 the dial indicator 7 operated within the normal measuring range. This construction has been chosen for the sake of simplicity. However, the invention enables the To carry out the retraction movement of the measuring sensor 13 completely without actuating the dial indicator 7. For this purpose it is only necessary that during the through idling 39 conditional movement of the sleeve 34 a bolt not shown in the drawing for the sleeve 19 is actuated, which prevents the sleeve 19 in the direction of Dial indicator 7 can be moved. Since the training of such Latch is easily feasible for any person skilled in the art, is one in this regard Figure has been disregarded.

Claims (20)

S c hut z ans p r ü c h e 1. Internal micrometer with at one end a tubular shaft provided measuring head with at least one fixed each and one retractable probe, coupled with a hand lever, the retractable one Measuring sensor via a transmission rod in the shaft to a dial indicator at the other end of the shaft acts, characterized in that the retractable measuring sensor (13) acts directly on the transmission rod (17, 18) in a manner known per se and that a freewheel device (19,24,26) is provided in the transmission rod that allows the probe to be retracted without operating the dial indicator (7). 2. Apparatus according to claim 1, characterized in that the retractable Measuring sensor (13) an outer surface formed by curved surface lines (14) has, by means of which it is in a correspondingly designed bearing (15) in the measuring head (1) is mounted displaceably along the surface lines (14). 3. Apparatus according to claim 2, characterized in that the surface lines (14) about a quarter of a circular line extend so that one collar (13 ') of the measuring sensor (13) in an approximately perpendicular direction to the shaft axis protrudes from the measuring head (1), while xx the other on the transmission rod (17, 18) directly adjacent ends (13 ") extend in the direction of the longitudinal axis of the transmission rod extends. 4. Apparatus according to claim 2 or 3, characterized in that the retractable sensor (13) is formed in the shape of a segment of a ring. 5. Apparatus according to claims 1 to 4, characterized in that the facing ends of the probe and the transmission rod each as a cutting edge (13 ") and lapped surface (16) are formed. 6. Apparatus according to claims 1 to 5, characterized in that the from the measuring head (1) protruding ends of the measuring sensors (11, 13) into narrow, flat ones Tongues from-Grundlauf, which in narrow grooves a / bore or continuous Bore can be introduced. 7. Apparatus according to claim 6, characterized in that the measuring tongues (11, 13) and the lower end (8) of the measuring head (1) from a common Contact plane are limited. 80 device according to claims 1 to 7, characterized in that a the measuring sensor (13) is provided on three sides encompassing a centering member (43), which is coupled to the handle (4) to retract the probe. 9. Apparatus according to claim 8, characterized in that for the retraction movement of the measuring sensor (13) between the measuring sensor and the centering element (43) a game (45) is provided that the measuring movement of the sensor (13) without actuating the Centering member (43) allows. 10. Apparatus according to claims 8 and 9, characterized in that the Centering member (43, is formed in the shape of a ring segment. 11. Apparatus according to claims 8 to 10, characterized in that that the handle (4) with the centering member (43) over the transmission rod (17) is coupled, wherein in the connection between the centering element (43) and the Transmission rod (17) a game (55) is provided, so that when pulling in the probe (13) by means of the Handle (4) the transmission rod (17) is first lifted from the sensor (13). 12. Apparatus according to claim 11, characterized in that between the transmission rod (17) and the hand lever (4) a game (39) is provided. 13. Apparatus according to claims 1 to 12, characterized in that the Transmission rod made of two against the force of one when the dial indicator is actuated (7) non-deformable spring (26) axially collapsible parts (17 and 18). 14. Apparatus according to claim 13, characterized in that the Dial gauge (7) acting on the upper part (18) of the transmission rod as a cylinder (19) is formed, in which one end (24) of the measuring sensor (13) facing 2nd The lower part (17) of the transmission rod engages T and engages one in the cylinder arranged compression spring (26) is supported. 15. Apparatus according to claim 14, characterized in that in the lower part (17) of the transmission rod support parts (24, 27) are provided, which the force of the Transfer the spring (26) to the corresponding parts (19 ') of the cylinder (19). 16. Apparatus according to claim 15, characterized in that the support parts (24,19 ') are lapped and are supported on one another via a ball (27). 17. Apparatus according to claims 14 to 16, characterized in that the end (24) of the lower rod part (17) engaging in the cylinder (19) is like an eyelet is designed that in the recess (241) of this eyelet a web (19 ') on its engages the lower end to one side open sleeve (19) and that the one hand The ball (27) resting against the web (191) is mounted in the wall of the recess (24 ') is. 180 Device according to claim 13, characterized in that for the upper part acting on the dial gauge (7) (18) a stop (6t) limiting its axial movement is provided. 19. Apparatus according to claim 13, characterized by one of the hand lever (4) during its idle movement actuated bolt, which directly on the Dial gauge (7) acting part (18) of the transmission rod during retraction of the sensor (13) 20. Device according to claims 1 to 19, characterized in that the tongue-shaped, fixed measuring sensor (11) in a dovetail-shaped Guide (9) at the lower end (8) of the measuring head (1) displaceable and through a clamping screw (10) can be clamped.