CN208921023U - A kind of forging measuring device - Google Patents

Abstract

The utility model relates to forging equipment technical fields, specifically disclose a kind of forging measuring device comprising sleeve, further includes: lower detector, lower end surface are used to abut the first plane of forging to be detected；Upper detection components, including upper detector, the lower end surface of upper detector are used to abut the second plane of forging；Upper detector can along sleeve axial movement close to or far from lower detector；Length measuring instrument, instantly when the lower end surface of detector and the lower end surface of upper detector are the first preset value at a distance from the axial direction of sleeve, upper detection components can trigger length measuring instrument, and length measuring instrument is used to measure the displacement occurred after detector triggering length measuring instrument；Lower detector, upper detection components and length measuring instrument are all set on sleeve.Forging measuring device provided by the utility model need to only be assured that the spacing of two planes of forging by one-shot measurement, and measurement method is simple, and measurement efficiency is high.

Description

A kind of forging measuring device

Technical field

The utility model relates to forging equipment technical field more particularly to a kind of forging measuring devices.

Background technique

In order to which the forging that presses out warm forging die forging takes out and carries out dimensional measurement in due course, need to be equipped with special clamping and Measuring device.

The end face of 1 ' ring flange of forging as shown in Figure 1 is 21 ' of the first plane, and the bottom wall of blind hole is 22 ' of the second plane, forging 1 ' of part before forging the bottom wall of blind hole at a distance from the end face of ring flange be L, i.e. 22 ' of 21 ' of the first plane and the second plane away from From for L, need to guarantee after the completion of forging distance L still in the error range of permission, in the prior art, in order to measure away from From L whether in the error range of permission, 1 ' of forging is taken out first, then first measures end face and the first plane of 1 ' of forging The distance L1 of 21 ', the difference for then measuring the depth L2 of blind hole, distance L1 and depth L2 again is distance L.

Drawback of the prior art is that obtaining needs by measuring twice due to distance L, one can be generated twice by measuring Fixed error, to increase the error of distance L, and time-consuming for measurement process.

Utility model content

The purpose of this utility model is to provide one kind, to improve the accuracy of measurement efficiency and measured value.

For this purpose, the utility model uses following technical scheme:

A kind of forging measuring device, including sleeve, further includes:

Lower detector, lower end surface are used to abut the first plane of forging to be detected；

It is second flat to be used to abut the forging for upper detection components, including upper detector, the lower end surface of the upper detector Face；The upper detector can along the sleeve axial movement close to or far from the lower detector；

Length measuring instrument, when the lower detector lower end surface and the upper detector lower end surface along the sleeve axis To distance be the first preset value when, the upper detection components can trigger the length measuring instrument, and the length measuring instrument is used The displacement occurred after the length measuring instrument is triggered in measuring the upper detector；

The lower detector, the upper detection components and the length measuring instrument are all set on the sleeve.

Preferably, the lower end of the lower detector opens up the first groove, the lower end surface of the cell wall of first groove is used In abutting first plane, the lower detector is set in first groove.

Preferably, the upper detection components further include pressure table block for triggering the length measuring instrument and along described The detection bar of sleeve being axially arranged, the upper detector and the pressure table block are respectively arranged at the both ends of the detection bar.

Preferably, the length measuring instrument includes the dial gauge for being set to the sleeve.

Preferably, the forging measuring device further includes the gripper assembly being set on sleeve.

Preferably, the gripper assembly includes:

Two clamping jaws are rotatably dispose on the lower detector, for clamping or decontroling the forging；The clamping jaw Lower end surface is located at the upside of the lower end surface of the upper detector, the upper end of at least one clamping jaw and close to the one of another clamping jaw Side is provided with protrusion；

Push rod is set in the sleeve, and can be along the axial movement of the sleeve, so that the lower end of the push rod is inserted Enter or exit the protrusion between two clamping jaws, make the lower end of two clamping jaws close to or far from.

It is rotatably connected on the lower detector preferably, two clamping jaws pass through two pin shafts respectively, two institutes It states and is connected with the first elastic component between clamping jaw, first elastic component and the pin shaft are all set in the downside of the protrusion.

Preferably, the lower end of the lower detector opens up the first groove, on the side wall of the lower detector and along described The axial direction of sleeve is opened up there are two the second opposite groove, and two clamping jaws are separately positioned in two second grooves.

Preferably, the gripper assembly further includes the second elastic component, the both ends of second elastic component are connected to The push rod and the sleeve.

Preferably, being provided with waist-shaped hole along its axial direction on the push rod, limited post, the limit are provided on the sleeve Position column is set in the waist-shaped hole, and can be moved up and down relative to the waist-shaped hole.

The utility model has the beneficial effects that upper and lower detector can along sleeve axially adjacent to or it is separate, to be connected to In the different plane of forging, the lower end surface of upper detector is that the first plane and second are flat at a distance from the lower end surface of lower detector The distance in face, therefore the spacing of two planes of forging need to be only assured that by one-shot measurement, measurement method is simple, measurement effect Rate is high.

Detailed description of the invention

Fig. 1 is the cross-sectional view of forging in the prior art；

Fig. 2 is the main view of the forging measuring device in the utility model；

Fig. 3 is the cross-sectional view of the forging measuring device in the utility model；

Structure when Fig. 4 is the not set sleeve of forging measuring device in the utility model, inner sleeve and lower detector is shown It is intended to；

Fig. 5 is the structural schematic diagram of the lower detector in the utility model.

In figure:

1 ', forging；21 ', the first plane；22 ', the second plane；

1, forging；

2, lower detector；21, the first groove；22, the second groove；23, pilot hole；

31, upper detector；32, detection bar；33, table block is pressed；

4, dial gauge；41, detector；5, sleeve；

61, clamping jaw；611, protrusion；62, push rod；621, waist-shaped hole；63, pin shaft；64, the first spring；65, second spring； 66, limited post；67, handle；

7, inner sleeve；8, suspension assembly；81, anchor ear；82, hanger bar.

Specific embodiment

Further illustrate the technical solution of the utility model below with reference to the accompanying drawings and specific embodiments.It can manage Solution, specific embodiment described herein are used only for explaining the utility model, rather than the restriction to the utility model.Separately It is outer it should also be noted that, illustrating only part relevant to the utility model for ease of description, in attached drawing and not all.

Some nouns of locality are defined in the utility model, in the case where not being specified to the contrary, the used noun of locality As "upper" "lower" refers to that forging measuring device provided by the utility model defines under normal usage, and with arrow in Fig. 2 Up and down direction shown in head " H " is consistent, and wherein arrow direction is "lower".These nouns of locality are to use in order to facilitate understanding , because of the limitation without constituting scope of protection of the utility model.

A kind of forging measuring device is present embodiments provided, mainly but is not limited to applied to forging 1 as shown in Figure 1 The bottom wall of blind hole is in the measurement of the end face distance L of ring flange, to improve the accuracy of measurement efficiency and measured value.

As shown in Figures 2 and 3, forging measuring device provided in this embodiment, including sleeve 5, lower detector 2, upper detection Component and length measuring instrument, upper detection components include upper detector 31, and lower detector 2, upper detection components and length measuring instrument are equal It is set to sleeve 5.

The lower end surface of lower detector 2 is used to abut the first plane of forging 1 to be detected；It uses the lower end surface of upper detector 31 In the second plane for abutting forging 1；Upper detector 31 can along sleeve 5 axial movement close to or far from lower detector 2；When When the lower end surface of lower detector 2 and the lower end surface of upper detector 31 are the first preset value at a distance from the axial direction of sleeve 5, upper inspection Length measuring instrument can be triggered by surveying component, and length measuring instrument is used to measure detector 31 and triggers the position occurred after length measuring instrument It moves.

Upper detector 31 and lower detector 2 can along sleeve 5 axially adjacent to or it is separate, so that it is different to be connected to forging 1 Plane on, the lower end surface of upper detector 31 is the first plane and the second plane at a distance from the lower end surface of lower detector 2 Distance, therefore the spacing of 1 two planes of forging need to be only assured that by one-shot measurement, measurement method is simple, measurement efficiency It is high.In the present embodiment, the first plane can be the end face of 1 flange of forging, and the second plane can be the slot bottom of blind hole, when forging 1 When for finished product, it is desirable that the spacing of the first plane and the second plane is L ± L0, and the first preset value is L+L0, when upper detector 31 When the spacing of lower end surface and the lower end surface of lower detector 2 is the first preset value, upper detection components can trigger length measuring instrument, on Detector 31 continues to move, and length measuring instrument measures upper detector 31 and continues generated displacement L1 after movement, as long as displacement L1 In the range of 2*L0, the size of forging 1 can be met the requirements.

As shown in figure 3, being provided with inner sleeve 7 between lower detector 2 and sleeve 5, the shape of detector 41 be can be set to It is cylindrical.The lower end of inner sleeve 7 is provided with flange, and lower detector 2 and sleeve 5 are separately positioned on the two sides of flange, inner sleeve 7 Body part is set in sleeve 5, and lower detector 2, inner sleeve 7 and sleeve 5 are connected by screw to.

The lower end of lower detector 2 opens up the first groove 21, and the lower end surface of the cell wall of the first groove 21 is flat for abutting first Face, upper detector 31 are set in the first groove 21.The part of the ring flange of forging 1 to the end of forging 1 may be at first In groove 21, upper detector 31 is set in the first groove 21, so as to extend into the blind hole of forging 1, when measurement, and first The lower end surface of the cell wall of groove 21 abuts the first plane, and the lower end surface of upper detector 31 is connected to the bottom wall of the groove of forging 1, the The spacing of the lower end surface of the cell wall of one groove 21 and the lower end surface of upper detector 31 is the spacing of the first plane and the second plane. In other embodiments, lower detector 2 is also possible to be arranged at intervals on sleeve 5 two plates, and the lower end surface of plate abuts Onto the first plane, upper detector 31 is arranged between two plates.

As shown in Figure 4 and Figure 5, upper detection components further include pressure table block 33 for triggering length measuring instrument and along sleeve 5 Axis setting detection bar 32, upper detector 31 and pressure table block 33 are respectively arranged at the both ends of detection bar 32.It specifically, can be with Open up pilot hole 23 on lower detector 2, detection bar 32 can be set in pilot hole 23, and can be along the axis of pilot hole 23 Sliding, pilot hole 23 are that the movement of detection bar 32 play the guiding role, and can make the movement of detection bar 32 and upper detector 31 more Stablize.In other embodiments, pilot hole can also be axially set along it on sleeve 5, will test bar 32 and is arranged in sleeve 5 In pilot hole.

As shown in figure 4, length measuring instrument includes the dial gauge 4 for being connected to sleeve 5.Dial gauge 4 is in the prior art hundred Divide table 4, the measurement accuracy of dial gauge 4 is high and at low cost comprising table body is connected to the measuring rod of table body and is connected to measurement The measuring head of boom end, the axial direction of measuring rod is axial consistent with sleeve 5, and measuring rod is located at the top of table body, measurement displacement When L1, pressure table block 33 is connected to the detector 41 of dial gauge 4, and the measuring head of dial gauge 4 moves downward.Dial gauge 4 can be shown The displacement L1 of pressure table block 33 after pressure table block 33 is connected on detector 41 out, since upper detector 31 and pressure table block 33 are separately connected At the both ends of detection bar 32, therefore press the displacement L1 of the as upper detector 31 of the displacement L1 of table block 33.

Forging measuring device further includes the gripper assembly being set on sleeve 5.After the size qualification of forging 1, clamping group Forging 1 is withdrawn from forging station by part, and the detection and clamping of forging 1 are completed at the same time, and saves forging process, improves working efficiency, and Forging measuring device occupies little space, and it is convenient to store and arrange.

As in Figure 3-5, gripper assembly includes two clamping jaws 61, push rod 62, the first elastic component and the second elastic component.

Two clamping jaws 61 are rotatably dispose on lower detector 2, for clamping or decontroling forging 1.The side wall of lower detector 2 Above and along its axial direction opening up there are two the second opposite groove 22, two clamping jaws 61 are separately positioned in two the second grooves 22, And first groove 21 be provided with not set cell wall at the position of the second groove 22.Two clamping jaws 61 can be transported in the second groove 22 It is dynamic, close to or far from the clamping and relieving of realization forging 1 under the premise of not influencing dimensional measurement.

The lower end surface of clamping jaw 61 is located at the upside of the lower end surface of upper detector 31, and clamping jaw 61 will not interfere lower detector 2 to support It is connected to the first plane, it can be while measuring 1 size of forging, clamping jaw 61 clamps or decontrols forging 1.The lower end of two clamping jaws 61 Side close to each other is arc structure, convenient for clamping cylindrical forging 1.The upper end of at least one clamping jaw 61 and close to another The side of one clamping jaw 61 is provided with protrusion 611, and in the present embodiment, two clamping jaws 61 side close to each other can be provided with protrusion 611。

Two clamping jaws 61 can be rotatably connected on lower detector 2 by two pin shafts 63 respectively, be connected between two clamping jaws 61 It is connected to the first elastic component, the first elastic component and pin shaft 63 are all set in the downside of protrusion 611.Specifically, the first elastic component can be with For the first spring 64.

Push rod 62 is set in sleeve 5, and can be along the axial movement of sleeve 5, so that the lower end of push rod 62 is inserted into or is moved back Protrusion 611 between two clamping jaws 61 out, make the lower end of two clamping jaws 61 close to or far from.

Specifically, the lower end of push rod 62 is arranged to conical structure, facilitates insertion between two protrusions 611, when push rod 62 When lower end is inserted between two convex blocks, two clamping jaws 61 are close to each other, and clamping jaw 61 is in clamped condition, and the first spring 64 is in Compressive state, when the lower end of push rod 62 is exited between two convex blocks, two clamping jaws 61 under the driving of the first spring 64, under End is located remotely from each other, and clamping jaw 61 opens.Protrusion 611 is inserted into or exited by push rod 62 to control the opening or folder of two clamping jaws 61 Tightly, space required for the length and clamping jaw 61 that can shorten clamping jaw 61 are opened or clamped, makes entire forging measuring device It occupies little space in by operating process.

Gripper assembly further includes the second elastic component, and the both ends of the second elastic component are connected to push rod 62 and sleeve 5.The Two elastic components can be second spring 65, and second spring 65 is set on push rod 62, and bulge loop, second spring are provided on push rod 62 65 one end is connected to bulge loop, and the other end is connected to sleeve 5 and is located at the upside of bulge loop.When the lower end of push rod 62 is located at two When between protrusion 611, second spring 65 is in compressive state, and 62 stress of push rod is downward, guarantees that the end of push rod 62 plugs always In the protrusion of two clamping jaws 61 611.The lower end of push rod 62 is arranged in inner sleeve 7, between push rod 62 and the inner wall of inner sleeve 7 Gap can be set smaller, on the one hand can guarantee that push rod 62 can move up and down, and another aspect inner sleeve 7 can be push rod 62 Movement play the guiding role.

Its axial direction is provided with waist-shaped hole 621 on push rod 62, limited post 66 is provided on sleeve 5, limited post 66 is set to In waist-shaped hole 621, and it can move up and down relative to waist-shaped hole 621.The length of waist-shaped hole 621 is what push rod 62 moved up and down Distance, waist-shaped hole 621 and limited post 66 define that the move distance of push rod 62, anti-throw-out lever 62 are detached from sleeve 5.

The upper end of push rod 62 is also connected with handle 67, moves up and down convenient for hand-held 67 driving push rod 62 of handle.

Forging measuring device further includes suspension assembly 8, and suspension assembly 8 includes anchor ear 81 and hanger bar 82, and anchor ear 81 connects On the outer wall of sleeve 5, hanger bar 82 is connected on anchor ear 81, forging measuring device can be made to be suspended on by suspension assembly 8 In other equipment, facilitate the use of forging measuring device.

Forging measuring device work process in the present embodiment is as follows:

1, forging measuring device is suspended in other equipment by suspension assembly 8, and 2 one end of lower detector is downward；

2, upward handle 67, leaves the conus portion of push rod 62 between the protrusion 611 of two clamping jaws 61, in the first spring Clamping jaw 61 is in open configuration under 64 driving effect；The lower end surface of lower detector 2 is set to be connected to the first plane of forging 1；Pine Handle 67 is opened, for push rod 62 under the driving of second spring 65, the conus portion of push rod 62 is inserted into the protrusion 611 of two clamping jaws 61, Clamping jaw 61 is in clamped condition；

3, detection bar 32 is pushed down on, if pressure table block 33 is connected to the detector 41 of dial gauge 4, dial gauge 4 is triggered just Into measuring state, continue to push down on push rod 62, detector 31 is made to be connected to the second plane of forging 1, reads dial gauge Whether 4 degree is greater than 2*L0 to the ratio degree of dial gauge 4, if more than 2*L0, then 1 off-dimension of forging；

Lower detector 2 is connected to the first plane of forging 1, when upper detector 31 is connected to the second plane of forging 1, if pressure Table block 33 can not still be connected to the detector 41 of dial gauge 4, then illustrate that the spacing of the first plane and the second plane is excessive, forging 1 Off-dimension；

4, after the completion of dimensional measurement, if product is qualified, proposing forging measuring device upwards makes forging 1 leave forging station；To Upper handle 67, leaves the conus portion of push rod 62 between the protrusion 611 of two clamping jaws 61, in the driving effect of the first spring 64 The lower end of lower two clamping jaws 61 is located remotely from each other, and clamping jaw 61 is in open configuration, and workpiece is fallen, complete a forging 1 carrying and Detection process.

Obviously, the above embodiments of the present invention is used for the purpose of clearly illustrating examples for clearly illustrating the present invention, and It is not limitations of the embodiments of the present invention.For those of ordinary skill in the art, in above description On the basis of can also make other variations or changes in different ways.There is no need and unable to give all embodiments Exhaustion.Any modifications, equivalent replacements, and improvements made within the spirit and principle of the present invention etc., should be included in Within the protection scope of the utility model claims.

Claims (10)

1. a kind of forging measuring device, including sleeve (5), which is characterized in that further include:

Lower detector (2), lower end surface are used to abut the first plane of forging to be detected (1)；

Upper detection components, including upper detector (31), the lower end surface of the upper detector (31) is for abutting the forging (1) Second plane；The upper detector (31) can along the sleeve (5) axial movement close to or far from the lower detector (2)；

Length measuring instrument, when the lower end surface of the lower detector (2) and the lower end surface of the upper detector (31) are along the sleeve (5) when axial distance is the first preset value, the upper detection components can trigger the length measuring instrument, and the length is surveyed Amount instrument is used to measure the upper detector (31) and triggers the displacement occurred after the length measuring instrument；

The lower detector (2), the upper detection components and the length measuring instrument are all set on the sleeve (5).

2. forging measuring device according to claim 1, which is characterized in that the lower end of the lower detector (2) opens up One groove (21), the lower end surface of the cell wall of first groove (21) is for abutting first plane, the upper detector (31) it is set in first groove (21).

3. forging measuring device according to claim 1, which is characterized in that the upper detection components further include for triggering The pressure table block (33) of the length measuring instrument and the detection bar (32) being axially arranged along the sleeve (5), the upper detector (31) and pressure table block (33) is respectively arranged at the both ends of the detection bar (32).

4. forging measuring device according to claim 1, which is characterized in that the length measuring instrument is described including being set to The dial gauge (4) of sleeve (5).

5. forging measuring device according to claim 2, which is characterized in that the forging measuring device further includes being set to Gripper assembly on sleeve (5).

6. forging measuring device according to claim 5, which is characterized in that the gripper assembly includes:

Two clamping jaws (61) are rotatably dispose on the lower detector (2), for clamping or decontroling the forging (1)；It is described The lower end surface of clamping jaw (61) is located at the upside of the lower end surface of the upper detector (31), the upper end of at least one clamping jaw (61) And the side of another clamping jaw (61) is provided with protrusion (611)；

Push rod (62) is set in the sleeve (5), and can be along the axial movement of the sleeve (5), so that the push rod (62) lower end is inserted into or exits the protrusion (611) between two clamping jaws (61), and two clamping jaws (61) are made Lower end close to or far from.

7. forging measuring device according to claim 6, which is characterized in that two clamping jaws (61) pass through two respectively Pin shaft (63) is rotatably connected on the lower detector (2), is connected with the first elastic component between two clamping jaws (61), described First elastic component and the pin shaft (63) are all set in the downside of the protrusion (611).

8. forging measuring device according to claim 6, which is characterized in that on the side wall of the lower detector (2) and edge The axial direction of the sleeve (5) is opened up there are two opposite the second groove (22), and two clamping jaws (61) are separately positioned on two In second groove (22).

9. forging measuring device according to claim 6, which is characterized in that the gripper assembly further includes the second elasticity Part, the both ends of second elastic component are connected to the push rod (62) and the sleeve (5).

10. forging measuring device according to claim 6, which is characterized in that be axially arranged on the push rod (62) along it Have waist-shaped hole (621), be provided with limited post (66) on the sleeve (5), the limited post (66) is set to the waist-shaped hole (621) it in, and can move up and down relative to the waist-shaped hole (621).