CN209477859U - A kind of setting system of disequilibrium regulating duplicate removal cutter - Google Patents

Abstract

A kind of setting system of disequilibrium regulating duplicate removal cutter, including duplicate removal means for correcting, duplicate removal cutting tool and knife examine sensing unit, it includes sensing top plate that knife, which examines sensing unit, sense bottom plate and force snesor, force snesor includes sequentially connected force side, variant part and support end, it is fixedly connected in the middle part of force side and the bottom surface of sensing top plate, it is fixedly connected in the middle part of support end and the top surface of sensing bottom plate, variant part is vacantly in sensing top plate, it senses between bottom plate, the stress-strain piece being arranged on variant part is connected with force signal line, sense top plate, sense bottom plate face setting up and down, the top surface of sensing top plate is fixedly connected with the bottom surface of duplicate removal means for correcting, the side of duplicate removal means for correcting is connected with the inner end of duplicate removal cutting tool.The design can not only can immediate reaction disequilibrium regulating efficiency is improved to knife-like condition, and the accuracy monitored is higher, application range is wider.

Description

A kind of setting system of disequilibrium regulating duplicate removal cutter

Technical field

The utility model relates to a kind of disequilibrium regulating device more particularly to a kind of disequilibrium regulating duplicate removal cutters to knife System, it is particularly applicable to energy immediate reactions to knife-like condition, application limitation be reduced, to improve disequilibrium regulating efficiency.

Background technique

Existing drilling correction duplicate removal cutter arrangement, to knife, all has following lack to knife and milling correction duplicate removal cutter arrangement Point: the physics of existing apparatus is definite value to knife distance H, when the surface roughness of part is poor, the end face of part and outer diameter are inclined When difference and bounce deviation, parts fixation inclination cause a deviation, piece surface and outer diameter deviation can be increased, it is practical to knife distance H can change at any time, this depth for resulting in disequilibrium regulating duplicate removal can also change, and existing setting system will not Follow change, still knife distance H operated using the physics of script, to reduce disequilibrium regulating efficiency, especially when Under the background that existing cutter revolving speed is increasingly accelerated, efficiency reduces defect and becomes apparent, serious or even can directly contribute cutter It scraps.

The information for disclosing the background technology part is merely intended to increase the understanding to the general background of present patent application, without It should be considered as recognizing or implying in any form that the information constitutes existing skill already known to those of ordinary skill in the art Art.

Summary of the invention

Immediate reaction is unable to knife-like condition, application limitation the purpose of the utility model is to overcome existing in the prior art Defect and problem larger, disequilibrium regulating efficiency is poor, provide it is a kind of can immediate reaction to knife-like condition, application limitation compared with Small, the higher disequilibrium regulating duplicate removal cutter of disequilibrium regulating efficiency setting system.

In order to achieve the above object, the technical solution of the utility model is: a kind of pair of disequilibrium regulating duplicate removal cutter Knife system, including duplicate removal means for correcting and duplicate removal cutting tool, inner end and the duplicate removal means for correcting of the duplicate removal cutting tool Side is connected；

The setting system further include knife inspection sensing unit, the knife examine sensing unit include sensing top plate, sensing bottom plate with Force snesor, the force snesor include sequentially connected force side, variant part and support end, the force side and sensing top plate Bottom surface in the middle part of be fixedly connected, support end and sense bottom plate top surface in the middle part of be fixedly connected, variant part vacantly sensing push up Between plate, sensing bottom plate, the stress-strain piece being arranged on variant part is connected with force signal line, above and below sensing top plate, sensing bottom plate Face setting, and the top surface for sensing top plate is fixedly connected with the bottom surface of duplicate removal means for correcting.

The deformation left side of the variant part, deformation are respectively connected with a stress-strain piece, the deformation of variant part on right side The bottom surface face of top surface and sensing top plate is arranged, and the deformation bottom surface of variant part and the top surface face for sensing bottom plate are arranged.

Offer through deformation cavity in the middle part of the variant part, the two sides and deformation left side of the deformation cavity, Deformation is folded with deformation interval area between right side.

The sensing top plate, sensing bottom plate are L-type structure, and sense top plate and sensing bottom plate or more and overlap cooperation；

The sensing bottom plate includes bottom thin plate layer and base thickness plate layer, and the inner end of bottom thin plate layer is vertical with the inner end of base thickness plate layer Connection, nearly bottom thin plate layer on the middle part of the bottom thin plate layer, base thickness plate layer junction to be provided with the bottom being arranged successively thin at position Branch seat slot, the thin hanging groove in bottom, nearly bottom thin plate layer on the middle part of the base thickness plate layer, base thickness plate layer junction position be provided with according to The base thickness branch seat slot of secondary arrangement, base thickness hanging groove, base thickness branch seat slot, the thin mutual connection of branch seat slot in bottom are bottom branch seat slot, and base thickness is outstanding Empty slot, the mutual connection of the thin hanging groove in bottom are bottom hanging groove；

The sensing top plate includes top thickness plate layer and top thin plate layer, and top thickness plate layer and bottom thin plate layer face are arranged, and pushes up thin plate Layer is arranged with base thickness plate layer face, and the inner end of top thickness plate layer is vertical with the inner end of top thin plate layer to be connect, in the top thickness plate layer Nearly top thickness plate layer in portion, the position for pushing up thin plate layer junction are provided with top thickness stress slot, the top thickness hanging groove being arranged successively, described Push up nearly top thickness plate layer on the middle part of thin plate layer, the position of top thin plate layer junction is provided with the thin stress slot in the top being arranged successively, top Thin hanging groove pushes up thin stress slot, the mutual connection of top thickness stress slot as top stress slot, pushes up thin hanging groove, top thickness hanging groove mutually interconnects Lead to for top-hung empty slot；

The stress slot being connected with force side is provided on the side of the top thickness stress slot, the base thickness branch seat slot The support slot being connected with support end is provided on side, the top-hung empty slot is located at the surface of variant part, bottom hanging groove Positioned at the underface of variant part.

The bottom branch seat slot is narrower than the setting of bottom hanging groove, and the top stress slot is narrower than the setting of top-hung empty slot, and top-hung empty slot is wide It is arranged in bottom hanging groove, and is provided with the stress auxiliary tank communicated therewith in the side of bottom hanging groove, which opens up In the inside of base thickness plate layer.

The position of its nearly two corners is each provided with a base thickness clinch on the outer end of the base thickness plate layer, bottom thin plate layer it is outer The position of its nearly two corners is each provided with the thin clinch in bottom on end, and the position of its nearly two corners is each on the outer end of the top thin plate layer It is provided with the thin clinch in top, the position of its nearly two corners is each provided with a top thickness clinch on the outer end of top thickness plate layer；

The base thickness clinch includes the base thickness groove and base thickness convex block set gradually from the inside to the outside, the base thickness groove Top surface is arranged lower than the top surface of base thickness plate layer, and the bottom of base thickness groove is provided with base thickness counterbore, and the bottom surface of the base thickness convex block is low It is arranged in the top surface of base thickness groove, the top surface that the top of base thickness convex block is higher than base thickness plate layer is arranged；

The thin clinch in bottom includes the thin convex block in bottom and the thin groove in bottom set gradually from the inside to the outside, the thin convex block in bottom Bottom is connected with the top surface of bottom thin plate layer outer end, and the top surface that the top of the thin convex block in bottom is higher than base thickness plate layer is arranged, and the bottom is thin The top surface of groove be located at the top surface of bottom thin plate layer, base thickness plate layer top surface between, the bottom of the thin groove in bottom is provided with the thin counterbore in bottom；

The thin clinch in top includes the thin convex block in top set gradually from the inside to the outside and pushes up thin groove, the thin convex block in top Top is connected with the bottom surface of top thin plate layer outer end, and the bottom end for pushing up thin convex block is arranged lower than the bottom surface of top thickness plate layer, and the top is thin The bottom surface of groove is located between the bottom surface of the bottom surface, top thickness plate layer of pushing up thin plate layer, pushes up and is provided with the thin counterbore in top at the top of thin groove；

The top thickness clinch includes the top thickness groove and top thickness convex block set gradually from the inside to the outside, the top thickness groove The bottom surface that bottom surface is higher than top thickness plate layer is arranged, and top thickness counterbore is provided at the top of top thickness groove, and the top of the top thickness convex block is high It is arranged in the bottom surface of top thickness groove, the bottom end of top thickness convex block is arranged lower than the bottom surface of top thickness plate layer；

Be connected after the thin convex block drawing-in base thickness groove in the top with base thickness counterbore, after the thin groove in base thickness convex block drawing-in top with top Thin counterbore is connected, and is connected after the thin convex block drawing-in top thickness groove in bottom with top thickness counterbore, after the thin groove in top thickness convex block drawing-in bottom with The thin counterbore in bottom is connected.

The thin connecting hole in top corresponding with base thickness counterbore is offered in the thin convex block in top, is offered and is pushed up in base thickness convex block Thin counterbore corresponding base thickness connecting hole offers the thin connecting hole in bottom corresponding with top thickness counterbore in the thin convex block in bottom, and top thickness is convex Top thickness connecting hole corresponding with the thin counterbore in bottom is offered in block.

The base thickness that perforation is offered on position on the base thickness clinch between base thickness groove, base thickness convex block is fixed Slot offers the thin fixing groove in bottom of perforation on the position on the thin clinch in bottom between the thin convex block in bottom, the thin groove in bottom Hole, it is described to push up the thin fixed slot in top for being located on thin clinch and pushing up and offering perforation on the position between thin convex block, the thin groove in top, The fixed slot of top thickness of perforation is offered on position on the top thickness clinch between top thickness groove, top thickness convex block；

The fixed slot of the base thickness is correspondingly connected with thin fixed slot is pushed up, and the thin fixed slot in bottom is fixed with top thickness Slot is correspondingly connected with.

Compared with prior art, the utility model has the following beneficial effects:

1, in a kind of setting system of disequilibrium regulating duplicate removal cutter of the utility model, the knife inspection sensing unit added includes Sensing top plate, sensing bottom plate and force snesor, sensor includes sequentially connected force side, variant part and support end, variant part The stress-strain piece of upper setting is connected with force signal line, wherein force side is connect with sensing top plate, and support end and sensing bottom plate connect It connects, in application, axial reaction force suffered by duplicate removal cutting tool is successively applied to power after duplicate removal means for correcting, sensing top plate Force side on sensor causes variant part to generate stress deformation, and the stress-strain piece on variant part will be answered in company with deformation together Power deformation is converted to voltage signal, then passes to external treatment system via force signal line, with at-once monitor duplicate removal cutting tool Work with test specimen, so that the operating status to duplicate removal cutting tool carries out at-once monitor, is not only avoided that test specimen into contact situation The adverse effect of contact surface and its remaining external environment expands the application of the design to adapt to the contact situation of various cutters, test specimen Range, and cutting error is reduced, accurate cutting is realized, disequilibrium regulating efficiency is greatly improved.Therefore, this is practical It is novel can not only immediate reaction disequilibrium regulating efficiency is improved to knife-like condition, and application limitation is smaller, application range compared with Extensively.

2, in a kind of setting system of disequilibrium regulating duplicate removal cutter of the utility model, variant part deformation left side, Deformation is respectively connected with a stress-strain piece on right side, and when placing force snesor, and the deformation top surface of variant part and sensing are pushed up The bottom surface face of plate is arranged, and the deformation bottom surface of variant part and the top surface face for sensing bottom plate are arranged, at this point, when force side receives axis To reaction force and when support end remains stationary, two stress-strain pieces positioned at side can more directly react variant part Stress deformation converts the accuracy of resulting voltage signal to improve stress deformation, to improve cutter operation immediate status Accuracy, when especially offering through deformation cavity in the middle part of variant part, better effect.Therefore, the utility model is supervised Depending on accuracy it is higher.

3, in a kind of setting system of disequilibrium regulating duplicate removal cutter of the utility model, sensing top plate, sensing bottom plate are L Type structure, sensing bottom plate include bottom thin plate layer interconnected, base thickness plate layer, and sensing top plate includes top thickness plate interconnected Layer, top thin plate layer, sense and offer top stress slot, top-hung empty slot on top plate, sense that bottom branch seat slot, bottom are offered on bottom plate is hanging Slot, in application, bottom thin plate layer is mutually overlapped with top thickness plate layer, base thickness plate layer is mutually overlapped with top thin plate layer, and force side is fixed on Push up stress slot side on, support end is fixed on the side of bottom branch seat slot, variant part vacantly top-hung empty slot, bottom hanging groove it Between, which is not only conducive to the stress deformation of variant part, with more preferably immediate reaction to knife-like condition, and be conducive to sensing top plate, Sense the manufacture of bottom plate and the assembly of force snesor.Therefore, the utility model can not only immediate reaction to knife-like condition, improve Disequilibrium regulating efficiency, and production and assembly efficiency are higher.

4, in a kind of setting system of disequilibrium regulating duplicate removal cutter of the utility model, base thickness plate layer, bottom thin plate layer it is outer Be respectively arranged with base thickness clinch and the thin clinch in bottom on end, top thin plate layer, top thickness plate layer outer end on to be respectively arranged with top thin Clinch and top thickness clinch, base thickness clinch, the thin clinch in bottom, the thin clinch in top, top thickness clinch all include groove, convex Block, and counterbore is offered on groove when assembly, is connected after the corresponding groove of convex block drawing-in with corresponding counterbore, thus will Sensing top plate, sensing bottom plate are connected as one, and during application, axial reaction force will lead to sensing top plate opposing sense Bottom plate is subjected to displacement, which not only results in variant part and generate stress deformation, and will lead to what convex block was connected with respect to it Counterbore, which generates, to be bent, once terminating correction, under the bounce effect of convex block, sensing top plate meeting opposing sense bottom plate generates reversed Displacement, to automatically reset, with to correction next time, and do not have to it is special reset, greatly improve work efficiency.Therefore, originally Utility model can automatically reset, and be conducive to improve correction efficiency.

5, in a kind of setting system of disequilibrium regulating duplicate removal cutter of the utility model, base thickness clinch, the thin clinch in bottom, It pushes up thin clinch, be all respectively arranged with a corresponding fixed slot on top thickness clinch, in application, the fixed slot of base thickness passes through Fastening connection piece (screw or bolt) is correspondingly connected with thin fixed slot is pushed up, and the thin fixed slot in bottom passes through fastening connection piece (screw or bolt) is correspondingly connected with the fixed slot of top thickness, which can not only be connected sensing top plate, sensing bottom plate, The firmness of connection is improved, and fastening connection piece also has certain stress deformation ability, it can be opposite in company with sensing top plate In sensing bottom plate displacement deformation occurs, can also automatically reset after correction.Therefore, the jail that the utility model not only connects Solidity is stronger, and can automatically reset, and is conducive to improve correction efficiency.

6, in a kind of setting system of disequilibrium regulating duplicate removal cutter of the utility model, suffered by duplicate removal cutting tool Axial reaction force (reaction force of the axial thrust load of reaction force, angular cutting force including axial cutting force) is monitoring pair As with the operating status of immediate reaction cutter, and the axial reaction force being converted to voltage signal by stress-strain piece, and pass through Force signal line transmits voltage signal outward to be monitored, be controlled, to improve disequilibrium regulating efficiency, moreover it is possible to cutter Abrasion, breakdown situation carry out instant alarming, improve job security.Therefore, the utility model can not only immediate reaction to knife-like Condition, and disequilibrium regulating efficiency can be improved, enhance operational safety.

Detailed description of the invention

Fig. 1 is the structural schematic diagram of the utility model.

Fig. 2 is the connection schematic diagram that thin plate layer, base thickness plate layer are pushed up in Fig. 1.

Fig. 3 is the connection schematic diagram of top thickness plate layer, bottom thin plate layer in Fig. 1.

Fig. 4 is the top view of Fig. 1.

Fig. 5 is the top view of force snesor in the utility model.

Fig. 6 is the structural schematic diagram that bottom plate is sensed in the utility model.

Fig. 7 is Fig. 6 in A --- the cross-sectional view in the direction A.

Fig. 8 is the bottom view of Fig. 6.

Fig. 9 is the structural schematic diagram that top plate is sensed in the utility model.

Figure 10 is Fig. 9 in B --- the cross-sectional view in the direction B.

Figure 11 is the top view of Fig. 9.

In figure: knife examine sensing unit 1, sensing top plate 2, top thickness plate layer 21, top thickness stress slot 211, top thickness hanging groove 212, Stress slot 213, top thin plate layer 22, the thin stress slot 221 in top, the thin hanging groove 222 in top, top stress slot 23, top-hung empty slot 24, top are thin Clinch 25, the thin convex block 251 in top, the thin groove 252 in top, the thin counterbore 253 in top, the thin connecting hole 254 in top, the thin fixed slot 255 in top, top The fixed slot 265 of thick clinch 26, top thickness groove 261, top thickness convex block 262, top thickness counterbore 263, top thickness connecting hole 264, top thickness, Sense bottom plate 3, bottom thin plate layer 31, the thin branch seat slot 311 in bottom, the thin hanging groove 312 in bottom, base thickness plate layer 32, base thickness branch seat slot 321, bottom Thick hanging groove 322, support slot 323, bottom branch seat slot 33, bottom hanging groove 34, stress auxiliary tank 341, base thickness clinch 35, base thickness Groove 351, base thickness convex block 352, base thickness counterbore 353, base thickness connecting hole 354, base thickness fixed slot 355, the thin clinch 36 in bottom, bottom Thin convex block 361, the thin groove 362 in bottom, the thin counterbore 363 in bottom, the thin connecting hole 364 in bottom, the thin fixed slot 365 in bottom, force snesor 4, by Power end 41, variant part 42, deformation left side 421, deformation right side 422, deformation top surface 423, deformation cavity 425, deformation interval Area 426, support end 43, stress-strain piece 44, force signal line 45, signal wire slots 451, duplicate removal cutting tool 5, duplicate removal means for correcting 51, test specimen 52, slide unit 53, fastening connection piece 54, axial cutting force F, angular cutting force FC.

Specific embodiment

The utility model is described in further detail below in conjunction with Detailed description of the invention and specific embodiment.

Referring to Fig. 1 to Figure 11, a kind of setting system of disequilibrium regulating duplicate removal cutter, including duplicate removal means for correcting 51 with go The inner end of heavy cut cutter 5, the duplicate removal cutting tool 5 is connected with the side of duplicate removal means for correcting 51；

The setting system further includes knife inspection sensing unit 1, and it includes sensing top plate 2, sensing bottom plate which, which examines sensing unit 1, 3 include sequentially connected force side 41, variant part 42 and support end 43, the stress with force snesor 4, the force snesor 4 It is fixedly connected in the middle part of end 41 and the bottom surface of sensing top plate 2, is fixedly connected in the middle part of support end 43 and the top surface of sensing bottom plate 3, Variant part 42 is vacantly sensing between top plate 2, sensing bottom plate 3, the stress-strain piece 44 and force signal line 45 being arranged on variant part 42 It is connected, sensing top plate 2, sensing about 3 face of bottom plate setting, and sense the top surface of top plate 2 and the bottom of duplicate removal means for correcting 51 Face is fixedly connected.

The deformation left side 421 of the variant part 42, deformation are respectively connected with a stress-strain piece 44 on right side 422, become The top surface 423 that deforms in shape portion 42 deforms bottom surface and sensing bottom plate 3 with the bottom surface face setting of top plate 2, variant part 42 is sensed The setting of top surface face.

The middle part of the variant part 42 offers through deformation cavity 425, the two sides of the deformation cavity 425 and deformation Left side 421, deformation are folded with deformation interval area 426 between right side 422.

The sensing top plate 2, sensing bottom plate 3 are L-type structure, and sense top plate 2 and match with sensing about 3 bottom plate overlap joint It closes；

The sensing bottom plate 3 includes bottom thin plate layer 31 and base thickness plate layer 32, inner end and the base thickness plate layer 32 of bottom thin plate layer 31 Inner end vertically connect, the position setting of nearly bottom thin plate layer 31 on the middle part of the bottom thin plate layer 31,32 junction of base thickness plate layer There are the thin branch seat slot 311 in the bottom being arranged successively, the thin hanging groove 312 in bottom, nearly bottom thin plate layer 31, bottom on the middle part of the base thickness plate layer 32 The position of 32 junction of slab layer is provided with the base thickness branch seat slot 321 being arranged successively, base thickness hanging groove 322, base thickness branch seat slot 321, the bottom mutual connection of thin branch seat slot 311 is bottom branch seat slot 33, and base thickness hanging groove 322, the bottom mutual connection of thin hanging groove 312 are bottom Hanging groove 34；

The sensing top plate 2 includes top thickness plate layer 21 and top thin plate layer 22, and top thickness plate layer 21 is set with 31 face of bottom thin plate layer It sets, top thin plate layer 22 and 32 face of base thickness plate layer are arranged, and the inner end of top thickness plate layer 21 is vertical with the inner end of top thin plate layer 22 to be connect, Nearly top thickness plate layer 21 on the middle part of the top thickness plate layer 21, the position for pushing up 22 junction of thin plate layer are provided with the top thickness being arranged successively Stress slot 211, top thickness hanging groove 212, nearly top thickness plate layer 21, top 22 junction of thin plate layer on the middle part of the top thin plate layer 22 Position is provided with the thin stress slot 221 in the top being arranged successively, the thin hanging groove 222 in top, pushes up thin stress slot 221,211 phase of top thickness stress slot Mutual connection is top stress slot 23, pushes up thin hanging groove 222, the mutual connection of top thickness hanging groove 212 is top-hung empty slot 24；

The stress slot 213 being connected with force side 41, the base thickness are provided on the side of the top thickness stress slot 211 The support slot 323 being connected with support end 43 is provided on the side of branch seat slot 321, the top-hung empty slot 24 is located at variant part 42 surface, bottom hanging groove 34 are located at the underface of variant part 42.

The bottom branch seat slot 33 is narrower than the setting of bottom hanging groove 34, and the top stress slot 23 is narrower than the setting of top-hung empty slot 24, top Hanging groove 24 is wider than the setting of bottom hanging groove 34, and the stress auxiliary tank 341 communicated therewith is provided in the side of bottom hanging groove 34, The stress auxiliary tank 341 is opened in the inside of base thickness plate layer 32.

The position of its nearly two corners is each provided with a base thickness clinch 35, bottom thin plate layer on the outer end of the base thickness plate layer 32 The position of its nearly two corners is each provided with the thin clinch 36 in a bottom on 31 outer end, on the outer end of the top thin plate layer 22 it is close its two The position at angle is each provided with the thin clinch 25 in top, and the position of its nearly two corners is each provided with one on the outer end of top thickness plate layer 21 Top thickness clinch 26；

The base thickness clinch 35 includes the base thickness groove 351 and base thickness convex block 352 set gradually from the inside to the outside, the bottom The top surface of thick groove 351 is arranged lower than the top surface of base thickness plate layer 32, and the bottom of base thickness groove 351 is provided with base thickness counterbore 353, institute The bottom surface for stating base thickness convex block 352 is arranged lower than the top surface of base thickness groove 351, and the top of base thickness convex block 352 is higher than base thickness plate layer 32 Top surface setting；

The thin clinch 36 in bottom includes the thin convex block 361 in bottom set gradually from the inside to the outside and the thin groove 362 in bottom, the bottom The bottom of thin convex block 361 is connected with the top surface of 31 outer end of bottom thin plate layer, and the top of the thin convex block 361 in bottom is higher than base thickness plate layer 32 Top surface setting, the top surface of the thin groove 362 in bottom be located at the top surface of bottom thin plate layer 31, base thickness plate layer 32 top surface between, bottom is thin The bottom of groove 362 is provided with the thin counterbore 363 in bottom；

The thin clinch 25 in top includes the thin convex block 251 in top set gradually from the inside to the outside and the thin groove 252 in top, the top The top of thin convex block 251 is connected with the bottom surface of top 22 outer end of thin plate layer, pushes up the bottom end of thin convex block 251 lower than top thickness plate layer 21 The bottom surface of bottom surface setting, the thin groove 252 in top is located between the bottom surface of the bottom surface, top thickness plate layer 21 of pushing up thin plate layer 22, pushes up thin The top of groove 252 is provided with the thin counterbore 253 in top；

The top thickness clinch 26 includes the top thickness groove 261 and top thickness convex block 262 set gradually from the inside to the outside, the top The bottom surface that the bottom surface of thick groove 261 is higher than top thickness plate layer 21 is arranged, and the top of top thickness groove 261 is provided with top thickness counterbore 263, institute The top for stating top thickness convex block 262 is higher than the bottom surface setting of top thickness groove 261, and the bottom end of top thickness convex block 262 is lower than top thickness plate layer 21 Bottom surface setting；

It is connected after the thin 251 drawing-in base thickness groove 351 of convex block in top with base thickness counterbore 353,352 drawing-in top of base thickness convex block It is connected after thin groove 252 with the thin counterbore 253 in top, is connected after the thin 361 drawing-in top thickness groove 261 of convex block in bottom with top thickness counterbore 263 It connects, is connected after the thin groove 362 in 262 drawing-in bottom of top thickness convex block with the thin counterbore 363 in bottom.

The thin connecting hole 254 in top corresponding with base thickness counterbore 353, base thickness convex block 352 are offered in the thin convex block 251 in top Base thickness connecting hole 354 corresponding with thin counterbore 253 is pushed up inside is offered, is offered and 263 phase of top thickness counterbore in the thin convex block 361 in bottom The corresponding thin connecting hole 364 in bottom offers top thickness connecting hole 264 corresponding with the thin counterbore 363 in bottom in top thickness convex block 262.

Perforation is offered on position on the base thickness clinch 35 between base thickness groove 351, base thickness convex block 352 Base thickness fixes slot 355, opens up on the position on the thin clinch 36 in bottom between the thin convex block 361 in bottom, the thin groove 362 in bottom There is the thin fixed slot 365 in the bottom of perforation, is located at the portion pushed up between thin convex block 251, the thin groove 252 in top on the thin clinch 25 in top The thin fixed slot 255 in top of perforation is offered on position, is located at top thickness groove 261, top thickness convex block 262 on the top thickness clinch 26 Between position on offer the fixed slot 265 of top thickness of perforation；

The fixed slot 355 of the base thickness is correspondingly connected with thin fixed slot 255 is pushed up, the thin fixed slot 365 in bottom It is correspondingly connected with the fixed slot 265 of top thickness.

A kind of application method of the setting system of above-mentioned disequilibrium regulating duplicate removal cutter, the application method includes following step Rapid: when the outer end of duplicate removal cutting tool 5 is in contact with the surface of test specimen 52, duplicate removal means for correcting 51 drives duplicate removal cutting tool 5 works into so that duplicate removal cutting tool 5 to test specimen 52 generate axial cutting force F, angular cutting force FC, at this point, axial cutting force F, Angular cutting force FC can react on duplicate removal cutting tool 5, can apply axial reaction force to duplicate removal cutting tool 5 axial, The axial reaction force include the reaction force of axial cutting force F, angular cutting force FC axial thrust load reaction force, it is described Axial reaction force is successively applied on force snesor 4 after duplicate removal cutting tool 5, duplicate removal means for correcting 51, sensing top plate 2 Force side 41, at this point, support end 43 is remained stationary because being fixed by sensing bottom plate 3, the axial anti-work being transferred on force side 41 Variant part 42 can be firmly set to generate stress deformation, which can be such that the stress-strain piece 44 being arranged on variant part 42 generates on an equal basis Stress deformation, which is converted to voltage signal by stress-strain piece 44, and is transmitted outward via force signal line 45.

The deformation left side 421 of the variant part 42, deformation are respectively connected with a stress-strain piece 44 on right side 422, become The top surface 423 that deforms in shape portion 42 deforms bottom surface and sensing bottom plate 3 with the bottom surface face setting of top plate 2, variant part 42 is sensed The setting of top surface face；

The axial reaction force being transferred on force side 41 can be such that the generation stress deformation of variant part 42 refers to: be transferred to Axial reaction force on force side 41 can be such that variant part 42 deforms, so that deformation left side 421, deformation right side 422 are sent out Change shape, to make to deform, left side 421, stress deformation occurs for the stress-strain piece 44 that is correspondingly connected on deformation right side 422.

The principles of the present invention are described as follows:

The quantity of stress slot 213 is preferably two in the utility model, and two stress slots 213 are arranged side by side, together Reason, the quantity of support slot 323 is preferably two, and two support slots 323 are arranged side by side.

What stress-strain piece 44 was directly varied in deformation in the utility model is its resistance, then causes voltage to be believed by resistance Number variation, be converted to voltage signal from by the same stress deformation.

The fixed slot 355 of base thickness, the thin fixed slot 255 in top, and the connection thin fixed slot in bottom are connected in the utility model 365, the components of the fixed slot 265 of top thickness are the fastening connection piece 54 of elongate rod, such as fastening screw or fastening bolt.

Embodiment 1:

Referring to Fig. 1 to Figure 11, a kind of setting system of disequilibrium regulating duplicate removal cutter, including duplicate removal means for correcting 51 with go The inner end of heavy cut cutter 5, the duplicate removal cutting tool 5 is connected with the side of duplicate removal means for correcting 51；The setting system It further include knife inspection sensing unit 1, it includes sensing top plate 2, sensing bottom plate 3 and force snesor 4, the power which, which examines sensing unit 1, Sensor 4 includes sequentially connected force side 41, variant part 42 and support end 43, the bottom of the force side 41 and sensing top plate 2 It is fixedly connected, is fixedly connected in the middle part of support end 43 and the top surface of sensing bottom plate 3, variant part 42 is vacantly pushed up in sensing in the middle part of face Between plate 2, sensing bottom plate 3, the stress-strain piece 44 being arranged on variant part 42 is connected with force signal line 45, sensing top plate 2, sensing The setting of about 3 face of bottom plate, and the top surface for sensing top plate 2 is fixedly connected with the bottom surface of duplicate removal means for correcting 51.

A kind of application method of the setting system of above-mentioned disequilibrium regulating duplicate removal cutter, the application method includes following step Rapid: when the outer end of duplicate removal cutting tool 5 is in contact with the surface of test specimen 52, duplicate removal means for correcting 51 drives duplicate removal cutting tool 5 works into so that duplicate removal cutting tool 5 to test specimen 52 generate axial cutting force F, angular cutting force FC, at this point, axial cutting force F, Angular cutting force FC can react on duplicate removal cutting tool 5, can apply axial reaction force to duplicate removal cutting tool 5 axial, The axial reaction force include the reaction force of axial cutting force F, angular cutting force FC axial thrust load reaction force, it is described Axial reaction force is successively applied on force snesor 4 after duplicate removal cutting tool 5, duplicate removal means for correcting 51, sensing top plate 2 Force side 41, at this point, support end 43 is remained stationary because being fixed by sensing bottom plate 3, the axial anti-work being transferred on force side 41 Variant part 42 can be firmly set to generate stress deformation, which can be such that the stress-strain piece 44 being arranged on variant part 42 generates on an equal basis Stress deformation, which is converted to voltage signal by stress-strain piece 44, and is transmitted outward via force signal line 45.

Embodiment 2:

Basic content with embodiment 1, the difference is that:

The deformation left side 421 of the variant part 42, deformation are respectively connected with a stress-strain piece 44 on right side 422, become The top surface 423 that deforms in shape portion 42 deforms bottom surface and sensing bottom plate 3 with the bottom surface face setting of top plate 2, variant part 42 is sensed The setting of top surface face.The middle part of the variant part 42 offers through deformation cavity 425, the two sides of the deformation cavity 425 Deformation interval area 426 is folded between right side 422 with deformation left side 421, deformation.

The axial reaction force being transferred on force side 41 can be such that the generation stress deformation of variant part 42 refers to: be transferred to Axial reaction force on force side 41 can be such that variant part 42 deforms, so that deformation left side 421, deformation right side 422 are sent out Change shape, to make to deform, left side 421, stress deformation occurs for the stress-strain piece 44 that is correspondingly connected on deformation right side 422.

Embodiment 3:

Basic content with embodiment 1, the difference is that:

The sensing top plate 2, sensing bottom plate 3 are L-type structure, and sense top plate 2 and match with sensing about 3 bottom plate overlap joint It closes；The sensing bottom plate 3 includes bottom thin plate layer 31 and base thickness plate layer 32, the inner end and the inner end of base thickness plate layer 32 of bottom thin plate layer 31 Vertical connection, nearly bottom thin plate layer 31 on the middle part of the bottom thin plate layer 31,32 junction of base thickness plate layer position be provided with successively The thin branch seat slot 311 in the bottom of arrangement, the thin hanging groove 312 in bottom, nearly bottom thin plate layer 31, base thickness plate layer on the middle part of the base thickness plate layer 32 The position of 32 junctions is provided with the base thickness branch seat slot 321 being arranged successively, base thickness hanging groove 322, and base thickness branch seat slot 321, bottom are thin The mutual connection of branch seat slot 311 is bottom branch seat slot 33, and base thickness hanging groove 322, the bottom mutual connection of thin hanging groove 312 are bottom hanging groove 34；The sensing top plate 2 includes top thickness plate layer 21 and top thin plate layer 22, and top thickness plate layer 21 and 31 face of bottom thin plate layer are arranged, top Thin plate layer 22 and 32 face of base thickness plate layer are arranged, and the inner end of top thickness plate layer 21 is vertical with the inner end of top thin plate layer 22 to be connect, described Nearly top thickness plate layer 21 on the middle part of top thickness plate layer 21, the position for pushing up 22 junction of thin plate layer are provided with the top thickness stress being arranged successively Slot 211, top thickness hanging groove 212, it is described top thin plate layer 22 middle part on nearly top thickness plate layer 21, push up 22 junction of thin plate layer position It is provided with the thin stress slot 221 in the top being arranged successively, the thin hanging groove 222 in top, pushes up thin stress slot 221, the interconnection of 211 phase of top thickness stress slot Lead to push up stress slot 23, pushes up thin hanging groove 222, the mutual connection of top thickness hanging groove 212 is top-hung empty slot 24；The top thickness stress slot It is provided with the stress slot 213 being connected with force side 41 on 211 side, is arranged on the side of the base thickness branch seat slot 321 There is the support slot 323 being connected with support end 43, the top-hung empty slot 24 is located at the surface of variant part 42, bottom hanging groove 34 Positioned at the underface of variant part 42.

In application, bottom thin plate layer 31 and top thickness plate layer 21 mutually overlap, base thickness plate layer 32 and top thin plate layer 22 are mutually overlapped, The side of bottom branch seat slot 33 is connected with force side 41, and the side of top stress slot 23 is connected with support end 43, and variant part 42 is outstanding Sky is between bottom hanging groove 34, top-hung empty slot 24.

Embodiment 4:

Basic content with embodiment 3, the difference is that:

The position of its nearly two corners is each provided with a base thickness clinch 35, bottom thin plate layer on the outer end of the base thickness plate layer 32 The position of its nearly two corners is each provided with the thin clinch 36 in a bottom on 31 outer end, on the outer end of the top thin plate layer 22 it is close its two The position at angle is each provided with the thin clinch 25 in top, and the position of its nearly two corners is each provided with one on the outer end of top thickness plate layer 21 Top thickness clinch 26；The base thickness clinch 35 includes the base thickness groove 351 and base thickness convex block 352 set gradually from the inside to the outside, The top surface of the base thickness groove 351 is arranged lower than the top surface of base thickness plate layer 32, and the bottom of base thickness groove 351 is provided with base thickness counterbore 353, the bottom surface of the base thickness convex block 352 is arranged lower than the top surface of base thickness groove 351, and the top of base thickness convex block 352 is higher than base thickness The top surface of plate layer 32 is arranged；The thin clinch 36 in bottom includes the thin convex block 361 in bottom and the thin groove in bottom set gradually from the inside to the outside 362, the bottom of the thin convex block 361 in bottom is connected with the top surface of 31 outer end of bottom thin plate layer, and the top of the thin convex block 361 in bottom is higher than bottom The top surface of slab layer 32 is arranged, and the top surface of the thin groove 362 in bottom is located at the top surface of the top surface of bottom thin plate layer 31, base thickness plate layer 32 Between, the bottom of the thin groove 362 in bottom is provided with the thin counterbore 363 in bottom；The thin clinch 25 in top includes setting gradually from the inside to the outside The thin convex block in top 251 be connected with thin groove 252, the top of the thin convex block 251 in top is pushed up with the bottom surface for pushing up 22 outer end of thin plate layer, The bottom end for pushing up thin convex block 251 is arranged lower than the bottom surface of top thickness plate layer 21, and the bottom surface of the thin groove 252 in top is located at top thin plate layer 22 Bottom surface, top thickness plate layer 21 bottom surface between, the top for pushing up thin groove 252 is provided with the thin counterbore 253 in top；The top thickness clinch 26 include the top thickness groove 261 and top thickness convex block 262 set gradually from the inside to the outside, and the bottom surface of the top thickness groove 261 is higher than top The bottom surface of slab layer 21 is arranged, and the top of top thickness groove 261 is provided with top thickness counterbore 263, and the top of the top thickness convex block 262 is high It is arranged in the bottom surface of top thickness groove 261, the bottom end of top thickness convex block 262 is arranged lower than the bottom surface of top thickness plate layer 21；The top is thin convex It is connected after 251 drawing-in base thickness groove 351 of block with base thickness counterbore 353, it is thin with top after the thin groove 252 in 352 drawing-in top of base thickness convex block Counterbore 253 is connected, and is connected after the thin 361 drawing-in top thickness groove 261 of convex block in bottom with top thickness counterbore 263,262 drawing-in of top thickness convex block It is connected after the thin groove 362 in bottom with the thin counterbore 363 in bottom.

The foregoing is merely the better embodiment of the utility model, the protection scope of the utility model is not with above-mentioned reality The mode of applying is limited, as long as those of ordinary skill in the art's equivalent modification according to made by the utility model disclosure or change Change, should be included in the scope of the protection described in the claims.

Claims (8)

1. a kind of setting system of disequilibrium regulating duplicate removal cutter, including duplicate removal means for correcting (51) and duplicate removal cutting tool (5), The inner end of the duplicate removal cutting tool (5) is connected with the side of duplicate removal means for correcting (51), it is characterised in that:

The setting system further includes knife inspection sensing unit (1), and it includes sensing top plate (2), sensing bottom which, which examines sensing unit (1), Plate (3) and force snesor (4), the force snesor (4) include sequentially connected force side (41), variant part (42) and support end (43), it is fixedly connected in the middle part of the force side (41) and the bottom surface of sensing top plate (2), support end (43) and sensing bottom plate (3) Top surface in the middle part of be fixedly connected, variant part (42) vacantly sensing top plate (2), sensing bottom plate (3) between, on variant part (42) The stress-strain piece (44) of setting is connected with force signal line (45), and face is arranged up and down for sensing top plate (2), sensing bottom plate (3), and The top surface of sensing top plate (2) is fixedly connected with the bottom surface of duplicate removal means for correcting (51).

2. a kind of setting system of disequilibrium regulating duplicate removal cutter according to claim 1, it is characterised in that: the deformation A stress-strain piece (44), variant part (42) are respectively connected on the deformation left side (421) in portion (42), deformation right side (422) Deformation top surface (423) and the bottom surface face of sensing top plate (2) be arranged, the deformation bottom surface of variant part (42) and sensing bottom plate (3) Top surface face setting.

3. a kind of setting system of disequilibrium regulating duplicate removal cutter according to claim 2, it is characterised in that: the deformation Through deformation cavity (425), the two sides and deformation left side of the deformation cavity (425) are offered in the middle part of portion (42) (421), it deforms between right side (422) and is folded with deformation interval area (426).

4. a kind of setting system of disequilibrium regulating duplicate removal cutter according to claim 1,2 or 3, it is characterised in that: institute Stating sensing top plate (2), sensing bottom plate (3) is L-type structure, and senses the overlap joint cooperation up and down of top plate (2) and sensing bottom plate (3)；

The sensing bottom plate (3) includes bottom thin plate layer (31) and base thickness plate layer (32), inner end and the base thickness plate of bottom thin plate layer (31) The inner end of layer (32) vertically connects, nearly bottom thin plate layer (31), base thickness plate layer (32) handover on the middle part of the bottom thin plate layer (31) The position at place is provided with the thin branch seat slot (311) in the bottom being arranged successively, the thin hanging groove in bottom (312), in the base thickness plate layer (32) Nearly bottom thin plate layer (31) in portion, base thickness plate layer (32) junction position be provided with the base thickness branch seat slot (321) being arranged successively, bottom Thick hanging groove (322), base thickness branch seat slot (321), the thin branch seat slot (311) in bottom mutually connection are bottom branch seat slot (33), and base thickness is hanging Slot (322), the thin hanging groove in bottom (312) mutually connection are bottom hanging groove (34)；

The sensing top plate (2) includes top thickness plate layer (21) and pushes up thin plate layer (22), top thickness plate layer (21) and bottom thin plate layer (31) Face setting, top thin plate layer (22) and base thickness plate layer (32) face are arranged, the inner end and top thin plate layer (22) of top thickness plate layer (21) Inner end vertically connect, nearly top thickness plate layer (21) on the middle part of the top thickness plate layer (21), the portion for pushing up thin plate layer (22) junction Position is provided with the top thickness stress slot (211) being arranged successively, top thickness hanging groove (212), close on the middle part of top thin plate layer (22) It is thin hanging that top thickness plate layer (21), the position for pushing up thin plate layer (22) junction are provided with the thin stress slot (221) in the top being arranged successively, top Slot (222), pushing up thin stress slot (221), top thickness stress slot (211) mutually connection is top stress slot (23), pushes up thin hanging groove (222), top thickness hanging groove (212) mutually connection is top-hung empty slot (24)；

The stress slot (213) being connected with force side (41), the bottom are provided on the side of the top thickness stress slot (211) The support slot (323) being connected with support end (43), the top-hung empty slot (24) are provided on the side of thick branch seat slot (321) Positioned at the surface of variant part (42), bottom hanging groove (34) is located at the underface of variant part (42).

5. a kind of setting system of disequilibrium regulating duplicate removal cutter according to claim 4, it is characterised in that: the bottom branch Seat slot (33) is narrower than bottom hanging groove (34) setting, and the top stress slot (23) is narrower than top-hung empty slot (24) setting, top-hung empty slot (24) it is wider than bottom hanging groove (34) setting, and is provided with the stress auxiliary tank communicated therewith in the side of bottom hanging groove (34) (341), which is opened in the inside of base thickness plate layer (32).

6. a kind of setting system of disequilibrium regulating duplicate removal cutter according to claim 4, it is characterised in that: the base thickness The position of its nearly two corners is each provided with a base thickness clinch (35) on the outer end of plate layer (32), on the outer end of bottom thin plate layer (31) The position of its nearly two corners is each provided with the thin clinch in bottom (36), and on the outer end of top thin plate layer (22) portion of its nearly two corners Position is each provided with the thin clinch (25) in top, and the position of its nearly two corners is each provided with a top on the outer end of top thickness plate layer (21) Thick clinch (26)；

The base thickness clinch (35) includes the base thickness groove (351) that sets gradually from the inside to the outside and base thickness convex block (352), described The top surface of base thickness groove (351) is arranged lower than the top surface of base thickness plate layer (32), and it is heavy that the bottom of base thickness groove (351) is provided with base thickness The bottom surface in hole (353), the base thickness convex block (352) is arranged lower than the top surface of base thickness groove (351), the top of base thickness convex block (352) The top surface that end is higher than base thickness plate layer (32) is arranged；

The thin clinch in bottom (36) includes the thin convex block in bottom (361) and the thin groove in bottom (362) set gradually from the inside to the outside, described The bottom of the thin convex block in bottom (361) is connected with the top surface of bottom thin plate layer (31) outer end, and the top of the thin convex block in bottom (361) is higher than base thickness The top surface of plate layer (32) is arranged, and the top surface of the thin groove in bottom (362) is located at the top surface of bottom thin plate layer (31), base thickness plate layer (32) Top surface between, the bottom of the thin groove in bottom (362) is provided with the thin counterbore in bottom (363)；

The thin clinch (25) in top includes the thin convex block in top (251) set gradually from the inside to the outside and pushes up thin groove (252), described The top for pushing up thin convex block (251) is connected with the bottom surface of top thin plate layer (22) outer end, pushes up the bottom end of thin convex block (251) lower than top thickness The bottom surface of plate layer (21) is arranged, and the bottom surface of the thin groove (252) in top is located at the bottom surface on top thin plate layer (22), top thickness plate layer (21) Bottom surface between, push up and be provided with the thin counterbore (253) in top at the top of thin groove (252)；

The top thickness clinch (26) includes the top thickness groove (261) that sets gradually from the inside to the outside and top thickness convex block (262), described The bottom surface that the bottom surface of top thickness groove (261) is higher than top thickness plate layer (21) is arranged, and it is heavy that top thickness is provided at the top of top thickness groove (261) Hole (263), the bottom surface that the top of the top thickness convex block (262) is higher than top thickness groove (261) are arranged, the bottom of top thickness convex block (262) End is arranged lower than the bottom surface of top thickness plate layer (21)；

Thin convex block (251) the drawing-in base thickness groove (351) in top is connected with base thickness counterbore (353) afterwards, and base thickness convex block (352) is worn After pushing up thin groove (252) with push up thin counterbore (253) and be connected, bottom thin convex block (361) drawing-in top thickness groove (261) is afterwards and top thickness Counterbore (263) is connected, and the thin groove in top thickness convex block (262) drawing-in bottom (362) is connected with the thin counterbore in bottom (363) afterwards.

7. a kind of setting system of disequilibrium regulating duplicate removal cutter according to claim 6, it is characterised in that: the top is thin The thin connecting hole (254) in top corresponding with base thickness counterbore (353) is offered in convex block (251), is offered in base thickness convex block (352) Base thickness connecting hole (354) corresponding with thin counterbore (253) are pushed up, the thin convex block in bottom (361) is interior to be offered and top thickness counterbore (263) phase The corresponding thin connecting hole in bottom (364), top thickness convex block (262) is interior to offer top thickness connecting hole corresponding with bottom thin counterbore (363) (264)。

8. a kind of setting system of disequilibrium regulating duplicate removal cutter according to claim 6, it is characterised in that: the base thickness The base thickness fixing groove of perforation is offered on position on clinch (35) between base thickness groove (351), base thickness convex block (352) Hole (355) offers on the position on the thin clinch in bottom (36) between the thin convex block in bottom (361), the thin groove in bottom (362) The thin fixed slot (365) in the bottom of perforation, be located on the thin clinch (25) in the top push up thin convex block (251), the thin groove (252) in top it Between position on offer the thin fixed slot (255) in top of perforation, be located at top thickness groove on the top thickness clinch (26) (261), the top thickness that perforation is offered on the position between top thickness convex block (262) is fixed slot (265)；

The base thickness fixed slot (355) is correspondingly connected with thin fixed slot (255) is pushed up, the thin fixed slot in bottom (365) it is correspondingly connected with top thickness fixed slot (265).