CN208721034U - A kind of sliding block back hole site measuring device - Google Patents

Abstract

The utility model discloses a kind of sliding block back hole site measuring devices, including measuring mechanism, the measuring mechanism includes mounting base and the gauge head with the cooperation of back hole, it floats in the mounting base and is connected with propelled longitudinally device, gauge head is fixed on propelled longitudinally device and with its promotion and back hole；The mounting base, which slides laterally, is connected with lateral boss, is connected with spring between the transverse direction boss and mounting base；The transverse direction boss slides vertically with the propelled longitudinally device to be connect, and is connected with vertically arranged spring between lateral boss and propelled longitudinally device；There are two displacement sensors for setting in the mounting base, measure the transverse direction and vertically movable distance of propelled longitudinally device.When measuring, is cooperated by gauge head and back hole and directly felt relieved, avoid position error, simultaneously, back hole site is calculated in moving distance and gauge head initial position when being cooperated according to gauge head and back hole, and the structure detection method is convenient and simple, effectively improves back hole detection efficiency and precision.

Description

A kind of sliding block back hole site measuring device

Technical field

The utility model relates to a kind of Location measurement equipment.

Background technique

Currently, left and right ends especially as shown in Figure 7 are provided with the sliding block in back hole in sliding block in-process measurement field, It need to be the measurement of longitudinal height, the measurement of back hole site to the face B lateral distance, to examine to back hole site on sliding block to the face A Survey the position in back hole；Traditional measurement method is sliding block to be placed on measurement plate, using the positioning of platform table, uses lever thousand Point table measures back hole minimum point to the distance of respective face, along with back pore radius obtain each back hole to the face A, B distance Size, easily positioning difficulty is not allowed since hole location processes deviation in this method, and artificial influence factors are more, detects labor intensity Greatly, measurement efficiency is low, and the amesdial quantity needed is more；And measurement requires standard slider to table every time, entirely measures Journey is complicated and measurement error is big.

Utility model content

The utility model is intended to solve one of above-mentioned technical problem in the related technology at least to a certain extent.For this purpose, The utility model proposes a kind of sliding block back hole site measuring devices for effectively improving detection efficiency and detection accuracy.

The technical scheme adopted by the utility model to solve the technical problem is as follows:

A kind of sliding block back hole site measuring device, including measuring instrument, the measuring instrument include measuring mechanism, the measurement Mechanism includes mounting base and the gauge head with the cooperation of back hole, floats in the mounting base and is connected with propelled longitudinally device, the survey Head is fixed on propelled longitudinally device and with its promotion and back hole；The mounting base slide laterally be connected with laterally it is convex Platform is connected with the spring being laterally arranged between the transverse direction boss and mounting base, so as to reset when lateral boss transverse shifting；It is described Lateral boss slides vertically with the propelled longitudinally device and connect, and is connected between lateral boss and propelled longitudinally device and vertically sets The spring set；And setting is there are two displacement sensor in the mounting base, two institute's displacement sensors respectively laterally survey by setting Measure the lateral distance of propelled longitudinally device, the vertically movable distance of the vertically arranged propelled longitudinally device of measurement.I.e. using upper When stating the reversed hole site of structure measurement, is cooperated by gauge head and back hole and directly felt relieved, avoid position error, meanwhile, gauge head floats Back hole site is calculated in moving distance and gauge head initial position when dynamic installation cooperates according to gauge head and back hole, the structure Detection method is convenient and simple, effectively improves back hole detection efficiency and precision.

As an improvement of the above technical solution, lateral guide rod is fixed in the mounting base, the transverse direction boss is slidably It is sleeved on the lateral guide rod, the probe for the displacement sensor being laterally arranged is abutted with lateral plateau sidewall；The transverse direction is convex Sliding is fitted with vertical guide rod on platform, and the vertical guide rod both ends stretch out lateral boss and have been respectively fixedly connected with connecting plate and peace Loading board, the propelled longitudinally device are fixed on the mounting plate, and vertically arranged spring is connected to the lateral boss and peace Between loading board, and the probe of vertically arranged displacement sensor is abutted with the connecting plate upper surface；Vertical guide rod slide-and-guide, is erected To the spring balancing mounting plate entirety gravity of setting, and effectively push installation sheet reset.

As a further improvement of the above technical scheme, the propelled longitudinally device is set as two-way cylinder assembly, gas Cylinder is fixed with mounting plate, and cylinder boom end is fixedly connected with guide rod, and the guide rod is parallel with the cylinder rod；The mounting plate It is equipped with the longitudinal hole cooperated with guide rod, the gauge head is fixed on guide rod upper surface, pushes gauge head longitudinal by cylinder assembly It is mobile, i.e., it pushes gauge head to put in by cylinder assembly and cooperates positioning in back hole, after the completion of detection, cylinder drives gauge head to reset.

Preferably, the gauge head is conical gauge head, and basal diameter is greater than back bore dia to be measured, and gauge head bottom surface It is connected and fixed with propelled longitudinally device；I.e. gauge head puts in back hole and back hole linear contact, avoids gauge head shape to measurement essence The influence of degree, stability are high.

Further, the measuring mechanism is connected with positioning mechanism, and lateral driver device is arranged on the positioning mechanism and erects To driving device, respectively drives the measuring mechanism and be moved to back hole theoretical position.

Further, institute's displacement sensors and the lateral driver device and longitudinal driving device are electrically connected at control On device, mobile and calculate detection back hole site to control measuring mechanism, i.e. controller control measuring mechanism is moved to back Hole theoretical position, controller receives gauge head moving distance after gauge head detection, calculates back hole site, entire measurement process automation Degree is high, and labor intensity of workers is effectively reduced.

Further, horizontal raster ruler and longitudinal grating scale are provided on the positioning mechanism to detect measuring mechanism respectively Horizontal and vertical shift position, while horizontal raster ruler and longitudinal grating scale are electrically connected with the controller；It is described It is provided with optoelectronic switch on positioning mechanism to connect with the controller, to control the movement of positioning mechanism；It is i.e. practical new using this When type running fix, after controlling positioning mechanism movement by controller, control is fed back to by grating scale real-time measurement moving distance Device processed, and then controlled by controller；In addition the optoelectronic switch setting avoids the collision under maloperation.

Preferably, the measuring instrument is provided with two sets, is oppositely arranged on the same line, to measure sliding block both ends simultaneously Back hole, i.e. sliding block both ends back hole site measure effectively improve detection efficiency simultaneously.

Further, the measuring instrument include the fixation measuring instrument that is fixed on test desk and can longitudinal sliding motion be mounted on it is described Slide measure on test desk, the sliding block positioning seat fixed for sliding block positioning is provided between two sets of measuring instruments, and the sliding block is fixed The end face that position seats against fixation measuring instrument is that positioning reference plane can measure the sliding block of different dimensions in turn.

Further, the slide measure connects longitudinal driving device and is driven by it longitudinal movement, the zigzag tread patterns Device, lateral driver device and vertical drive are disposed as the gear and rack teeth mechanism being driven by motor, and longitudinal drive Dynamic device connection controller and the second optoelectronic switch, with the longitudinal movement of automatic control survey instrument.

The beneficial effects of the utility model are: a kind of sliding block back hole site measuring device of the utility model, including survey Measuring mechanism, the measuring mechanism include mounting base and the gauge head with the cooperation of back hole, float in the mounting base and are connected with longitudinal direction Pushing meanss, the gauge head are fixed on propelled longitudinally device and with its promotions and back hole；The mounting base is laterally sliding It is dynamic to be connected with lateral boss, it is connected with the spring being laterally arranged between the transverse direction boss and mounting base, so that lateral boss is lateral It is resetted when mobile；The transverse direction boss slides vertically with the propelled longitudinally device to be connect, and lateral boss and propelled longitudinally dress Vertically arranged spring is connected between setting；And there are two displacement sensor, two displacement sensings for setting in the mounting base The lateral distance for measuring propelled longitudinally device, the vertical shifting of the vertically arranged propelled longitudinally device of measurement is laterally arranged in device respectively Dynamic distance.When i.e. using above structure measurement back hole site, is cooperated by gauge head and back hole and directly felt relieved, positioning is avoided to miss Difference, meanwhile, moving distance and gauge head initial position when gauge head floating mount cooperates according to gauge head with back hole are calculated and return To hole site, the structure detection method is convenient and simple, effectively improves back hole detection efficiency and precision.

Detailed description of the invention

The present invention will be further described with reference to the accompanying drawings and examples.

Fig. 1 is the utility model mounting structure schematic diagram；

Fig. 2 is the utility model front view；

Fig. 3 is slide measure structural schematic diagram；

Fig. 4 is measuring mechanism structural schematic diagram；

Fig. 5 is the attachment structure schematic diagram of gauge head；

Fig. 6 is gauge head and back hole cooperation centering schematic diagram；

Fig. 7 is sliding block front view；

The face A and the face B are respectively to detect datum level.

Specific embodiment

Referring to figs. 1 to Fig. 6, a kind of sliding block back hole site measuring device of the utility model, including measuring instrument, the survey Measuring instrument includes measuring mechanism 1, and the measuring mechanism 1 includes mounting base described in mounting base 11 and the gauge head 12 cooperated with back hole It floats on 11 and is connected with propelled longitudinally device 13, the gauge head 12 is fixed on propelled longitudinally device 13 and is pushed and returned by it To Kong Peihe；Lateral guide rod 16 is fixed in the mounting base 11, the transverse direction boss 14 is slidably sleeved on the transverse direction and leads On bar 16, it is connected with the spring being laterally arranged between lateral boss 14 and mounting base 11, so that multiple when lateral 14 transverse shifting of boss Position, the probe for the displacement sensor 15 being laterally arranged are abutted with lateral 14 side wall of boss；Inserting is slided on the transverse direction boss 14 There is vertical guide rod 17, vertical 17 both ends of guide rod stretch out lateral boss 14 and have been respectively fixedly connected with connecting plate 18 and mounting plate 19, the propelled longitudinally device 13 is fixed on the mounting plate 19, and vertically arranged spring is connected to the lateral boss 14 Between mounting plate 19, and the probe of vertically arranged displacement sensor 15 is abutted with 18 upper surface of connecting plate；The longitudinal direction Pushing meanss 13 are set as two-way cylinder assembly, and cylinder and mounting plate 19 are fixed, and cylinder boom end is fixedly connected with guide rod 10, And the guide rod 10 is parallel with the cylinder rod；The mounting plate 19 is equipped with the longitudinal hole cooperated with guide rod 10, the survey First 12 are fixed on 10 upper surface of guide rod, push gauge head 12 to vertically move by cylinder assembly, i.e., push gauge head by cylinder assembly 12 put in cooperation positioning in back hole, and after the completion of detection, cylinder drives gauge head 12 to reset.

In the present embodiment, the gauge head 12 is conical gauge head, and basal diameter is greater than back bore dia to be measured, and surveys First 12 bottom surface is connected and fixed with propelled longitudinally device 13；I.e. gauge head 12 puts in back hole and back hole linear contact, avoids gauge head Influence of 12 shapes to measurement accuracy, stability are high.

To further increase Automatic survey degree and measurement accuracy, the measuring mechanism 1 is connected with positioning mechanism 2, institute It states and lateral driver device 21 and vertical drive 22 is set on positioning mechanism 2, institute's displacement sensors 15 and the laterally drive Dynamic device 21 and longitudinal driving device 8 are electrically connected on the controller, and the side head of controller control measuring mechanism 1 is moved to Back hole theoretical position is provided with horizontal raster ruler and longitudinal grating scale on the positioning mechanism 2 to detect measuring mechanism 1 respectively Horizontal and vertical shift position, while horizontal raster ruler and longitudinal grating scale are electrically connected with the controller；Institute It states and is provided with optoelectronic switch on positioning mechanism 2 and is connect with the controller, to control the movement of positioning mechanism 2；Utilize this reality When being positioned with Novel movable, after controlling the movement of positioning mechanism 2 by controller, passes through grating scale real-time measurement moving distance and feed back To controller, and then controlled by controller；In addition the optoelectronic switch setting avoids the collision under maloperation.

Preferably, the measuring instrument is provided with two sets, is oppositely arranged on the same line, is fixed on consolidating on test desk 3 Determine measuring instrument 5 and can longitudinal sliding motion be mounted on slide measure 6 on the test desk 3, be provided between two sets of measuring instruments for cunning The fixed sliding block positioning seat 7 of block positioning, the sliding block positioning seat 7 are positioning reference plane by the end face of fixation measuring instrument 5.The cunning Dynamic measuring instrument 6 connects longitudinal driving device 8 and is driven by it longitudinal movement, the longitudinal driving device 8, lateral driver device 21 The gear and rack teeth mechanism being driven by motor, and the connection control of the longitudinal driving device 8 are disposed as with vertical drive 22 Device and the second optoelectronic switch, with the longitudinal movement of automatic control survey instrument.

The above specific structure and dimension data are illustrated to the preferred embodiment of the utility model, but this reality It is not limited to the specific embodiments with novel creation, those skilled in the art are in the premise without prejudice to the spirit of the present invention Various equivalent deformation or replacement can be also made down, these equivalent deformations or replacement are all contained in the claim of this application and are limited In fixed range.

Claims (10)

1. a kind of sliding block back hole site measuring device, it is characterised in that: including measuring instrument, the measuring instrument includes measuring mechanism (1), the measuring mechanism (1) includes mounting base (11) and the gauge head (12) with the cooperation of back hole, and the mounting base (11) is floated Dynamic to be connected with propelled longitudinally device (13), the gauge head (12) is fixed on propelled longitudinally device (13) and by its promotion and back Hole cooperation；The mounting base (11), which slides laterally, to be connected with lateral boss (14), the transverse direction boss (14) and mounting base (11) Between be connected with the spring being laterally arranged, so as to be resetted when lateral boss (14) transverse shifting；It is described transverse direction boss (14) with it is described Propelled longitudinally device (13) slides vertically connection, and is connected between lateral boss (14) and propelled longitudinally device (13) vertically arranged Spring；And there are two displacement sensor (15) for setting in the mounting base (11), two institute's displacement sensors (15) are respectively Laterally setting measures the lateral distance of propelled longitudinally device (13), vertically arranged to measure the vertical of propelled longitudinally device (13) Moving distance.

2. a kind of sliding block back hole site according to claim 1 measuring device, it is characterised in that: the mounting base (11) On be fixed with lateral guide rod (16), the transverse direction boss (14) is slidably sleeved on the lateral guide rod (16), is laterally arranged The probe of displacement sensor (15) abutted with lateral boss (14) side wall；Sliding is fitted with vertical on the transverse direction boss (14) Guide rod (17), vertical guide rod (17) both ends stretch out lateral boss (14) and have been respectively fixedly connected with connecting plate (18) and installation Plate (19), the propelled longitudinally device (13) are fixed on the mounting plate (19), and vertically arranged spring is connected to the cross To between boss (14) and mounting plate (19), and table on the probe of vertically arranged displacement sensor (15) and the connecting plate (18) Face abuts.

3. a kind of sliding block back hole site according to claim 2 measuring device, it is characterised in that: the propelled longitudinally dress The cylinder assembly that (13) are set as two-way is set, cylinder and mounting plate (19) are fixed, and cylinder boom end is fixedly connected with guide rod (10), And the guide rod (10) is parallel with the cylinder rod；The mounting plate (19) is equipped with the longitudinal hole cooperated with guide rod (10), The gauge head (12) is fixed on guide rod (10) upper surface, pushes gauge head (12) longitudinal movement by cylinder assembly.

4. a kind of sliding block back hole site according to claim 1 measuring device, it is characterised in that: the gauge head (12) is Conical gauge head, basal diameter is greater than back bore dia to be measured, and gauge head (12) bottom surface and propelled longitudinally device (13) are even Connect fixation.

5. a kind of sliding block back hole site according to claim 1 measuring device, it is characterised in that: the measuring mechanism (1) it is connected with positioning mechanism (2), is provided with lateral driver device (21) and vertical drive on the positioning mechanism (2) (22), it is mobile to respectively drive the measuring mechanism (1).

6. a kind of sliding block back hole site according to claim 5 measuring device, it is characterised in that: institute's displacement sensors (15) it is electrically connected on the controller with the lateral driver device (21) and longitudinal driving device (8), to control measuring machine Structure (1) is mobile.

7. a kind of sliding block back hole site according to claim 6 measuring device, it is characterised in that: the positioning mechanism (2) horizontal raster ruler and longitudinal grating scale are provided on to detect the horizontal and vertical shift position of measuring mechanism (1) respectively, together When horizontal raster ruler and longitudinal grating scale be electrically connected with the controller.

8. a kind of sliding block back hole site according to claim 5 measuring device, it is characterised in that: the measuring instrument setting There are two sets, is oppositely arranged on the same line, to measure the back hole at sliding block both ends simultaneously.

9. a kind of sliding block back hole site according to claim 8 measuring device, it is characterised in that: the measuring instrument includes The fixation measuring instrument (5) that is fixed on test desk (3) and can longitudinal sliding motion be mounted on the slide measure on the test desk (3) (6), the sliding block positioning seat (7) fixed for sliding block positioning is provided between two sets of measuring instruments, the sliding block positioning seat (7) is close to fixed The end face of measuring instrument (5) is positioning reference plane.

10. a kind of sliding block back hole site according to claim 9 measuring device, it is characterised in that: the sliding measurement Instrument (6) connection longitudinal driving device (8) is simultaneously driven by it longitudinal movement, the longitudinal driving device (8), lateral driver device (21) and vertical drive (22) is disposed as the gear and rack teeth mechanism being driven by motor, and the longitudinal driving device (8) Controller and the second optoelectronic switch are connected, with the longitudinal movement of automatic control survey instrument.