CN109396951A - Tool monitoring equipment - Google Patents

Abstract

The present invention provides a kind of Tool monitoring equipment, including pedestal, cutter clamping mechanism, detection feed mechanism and detector.The cutter clamping mechanism is arranged in the top of the pedestal and extends downwardly along the side wall of the pedestal, the end of the cutter clamping mechanism is used for one cutter of clamping, and the cutter clamping mechanism is for driving the cutter when detecting according to normal work revolving speed rotation.The side wall of the pedestal is arranged in the detection feed mechanism, and extends along the side wall of the pedestal towards the cutter clamping mechanism.The detector is located at the lower section of the cutter clamping mechanism, and is installed on the detection feed mechanism.The detection feed mechanism drives the detector close to the cutter for detecting to the cutter.Tool monitoring equipment of the invention can be detected when cutter is rotated by the revolving speed of normal work.

Description

Tool monitoring equipment

Technical field

The present invention relates to a kind of detection devices more particularly to one kind to carry out in cutter by when working normally revolving speed rotation The Tool monitoring equipment of detection.

Background technique

With being constantly progressive for Chinese manufacturing, numerical control board develops towards high-precision direction, processes high-precision Product.Necessity of the NC cutting tool as numerically-controlled machine tool, it is many kinds of, or even there are some special cutters, this gives cutter Detection brings very big trouble.The detection technique that market is fixed a cutting tool is not yet mature, there are problems that the following: tool category More, motion structure is complicated, and detection time is long, and detection efficiency is low, so most of situation is that part is inspected by random samples, quality can not be protected Card；The precision of Tool monitoring equipment itself is low, and the tiny flaw of cutter can not detected；It is static or low when detecting cutter The detection of revolving speed, the maximum beat of cutter when can not detect really to process.

Summary of the invention

In view of this, it is necessary to provide a kind of Tool monitoring equipment, can cutter by when working normally revolving speed rotation into Row detection, to solve the above problems.

Tool monitoring equipment of the invention, comprising: pedestal；Cutter clamping mechanism, the cutter clamping mechanism are arranged in institute It states the top of pedestal and is extended downwardly along the side wall of the pedestal, the end of the cutter clamping mechanism is used for one cutter of clamping, The cutter clamping mechanism is for driving the cutter when detecting according to normal work revolving speed rotation；Detect feed mechanism, institute It states detection feed mechanism and the side wall of the pedestal is set, and prolong along the side wall of the pedestal towards the cutter clamping mechanism It stretches；And detector, the detector are located at the lower section of the cutter clamping mechanism, and are installed in the detection feed mechanism On, the detection feed mechanism drives the detector close to the cutter for detecting to the cutter.

Preferably, the pedestal is marble pedestal and is in upside down t-shape, and the cutter clamping mechanism includes clamping piece and rotation Turn actuator, the top of the pedestal is arranged in the clamping piece, and protrudes out the side wall of the pedestal, the rotary drive It is vertically situated on the clamping piece, the rotary drive for clamping and driving the cutter to rotate, drive by the rotation Moving part can drive the cutter when detecting according to normal work revolving speed rotation.

Preferably, the detection feed mechanism includes magnetic drive part and sliding rail guide part, the magnetic drive part setting On the side wall of the pedestal, the sliding rail guide part is arranged on the side wall of the pedestal, the sliding of the sliding rail guide part Part is connected with the movable part of the magnetic drive part, and the detector is mounted on the slipper of the sliding rail guide part On, the magnetic drive part drives the slipper of the sliding rail guide part to slide, and then drives the detector movement, to permit Perhaps the described detector rises and detects cutter.

Preferably, the magnetic drive part includes magnetic sheet and electromagnetism winding, and the sliding rail guide part includes two linear Rail and slide plate, the magnetic sheet are arranged on the side wall of the pedestal, and the pedestal is vertically arranged in described two linear rails Side wall on, and be located at the magnetic sheet two sides, the slide plate be crossed in described two linear rails and with the detection Side of the slide plate towards the magnetic sheet is arranged in instrument connection, the electromagnetism winding, what the electromagnetism winding energization generated The magnetic field interaction of alternating magnetic field and the magnetic sheet and drive the slide plate along described two linear rails vertical motions, in turn Drive the detector vertical motion.

Preferably, the detection feed mechanism further includes magnetic railings ruler, and the middle position of the side wall is arranged in the magnetic railings ruler It sets, the magnetic railings ruler measures the slide plate towards the move distance in the detector direction.

Preferably, the detection feed mechanism further includes inductive component and controller, and the inductive component is arranged described It is electrically connected on the side wall of pedestal and with the controller, the inductive component includes the first induction pieces, the second induction pieces and the Three induction pieces, first induction pieces and the second induction pieces are arranged on the medium position of the side wall, second induction pieces Between first induction pieces and the third induction pieces, the bottom position of the side wall is arranged in the third induction pieces It sets, first induction pieces position is the initial point position of the slide plate, and second induction pieces position is described The upper limit position of slide plate, third induction pieces position be the slide plate lower limit position, the controller according to First induction pieces, the second induction pieces and third induction pieces know the position of the slide plate.

Preferably, the detection feed mechanism further includes trimming assembly, and the trimming assembly is arranged in the slide plate and institute It states between detector, the trimming assembly includes link block, the first dovetails and the second dovetails, and the link block is connected to institute It states on slide plate, the detector is mounted in second dovetails, described in first dovetails and the fine tuning of the second dovetails The position of detector.

Preferably, the detection feed mechanism further includes power-off locking assembly, and one end of the power-off locking assembly is fixed In the bottom of the pedestal, the other end is fixed on the detector, and the power-off locking assembly is in the Tool monitoring equipment When not powering off, the detector is followed to move back and forth, the power-off locking assembly is in the Tool monitoring device powers down, branch The detector is supportted not fall out.

Preferably, the power-off locking assembly includes locking cylinder, lock shaft and locking member, and the cylinder is fixed on described On the side wall of pedestal, one end of the locking cylinder is arranged in the lock shaft, and connect with the detector, the locking member It is arranged in the locking cylinder and after the locking cylinder is died, the locking member is held tightly.

Preferably, the detection feed mechanism further includes baffle plate assembly, and the baffle plate assembly includes protection substrate, protection work Movable plate, pen cylinder and the second linear rails, the protection substrate are arranged on the side wall of the pedestal, set on the protection substrate It is equipped with protective port, the protection movable plate is arranged in the downside of the protection substrate and can cover the protective port, two institutes State the second linear rails be arranged in it is described protection substrate downside and the protection movable plate setting two described second linearly Between rail, the pen cylinder is connect with the protection movable plate, when the pen cylinder drives second linear rails in turn After driving protection movable plate opens the protective port, the detector can be driven from the protective port and pass through and can be used in Detect the cutter.

Preferably, the Tool monitoring equipment further includes protective casing, and the protective casing is arranged simultaneously around the pedestal By the cutter clamping mechanism, detection feed mechanism and in detector is centered around, protection ontology is provided on the protective casing With sliding door component, it is provided with opening on the protection ontology, the sliding door component setting over said opening and can cover institute State opening.

Preferably, the sliding door component includes sliding door, sliding door cylinder and the first guide part, and the sliding door setting is described anti- On shield ontology and the opening can be covered, the sliding door cylinder is arranged on the protection ontology and its output end and described the The slipper of one guide part connects, and the sliding door is also connect with the slipper of first guide part, the sliding door cylinder It drives the slipper of first guide part to slide, and then drives the sliding door to move up to open the opening and facilitate tool changing.

Preferably, the Tool monitoring equipment further includes keyboard components, and the keyboard components are arranged in the protective casing Outside, the keyboard components include keyboard and guide part, and the keyboard is arranged on the guide part, and the keyboard is described Sliding is on guide part to adjust its height.

Tool monitoring equipment of the invention uses integral type marble pedestal, ensure that the precision of its this mechanical body structure, And can cutter by work normally when revolving speed in the case where detect cutter, mechanism is simple and compact, and occupied space is few, assembling Convenient, workpiece motion s use pneumatic mode substantially, high-efficient, and response is fast, at low cost, using electromagnetic induction driving, high-precision wire The feed mechanism of rail and magnetic railings ruler, so that detector be driven to move, fast response time, movement position is accurate, and testing result is more Really.Tool monitoring equipment of the invention is contained in peripheral apparatus such as keyboard in fuselage, integration one, with ergonomic It learns, so that its keyboard door is moved up and down, adjustable comfortable height.

Detailed description of the invention

Fig. 1 is the structural schematic diagram of the Tool monitoring equipment in an embodiment of the present invention.

Fig. 2 is the structural schematic diagram of Fig. 1 in the other directions.

Fig. 3 is that schematic diagram is disassembled in the part of Tool monitoring equipment shown in Fig. 1.

Fig. 4 is that Tool monitoring equipment shown in Fig. 3 takes the structural schematic diagram after subelement off.

Fig. 5 is that schematic diagram is disassembled in the part of Tool monitoring equipment shown in Fig. 4.

Fig. 6 is the status diagram of Tool monitoring equipment in the other directions shown in Fig. 4.

Fig. 7 is the structural schematic diagram of trimming assembly in Tool monitoring equipment shown in Fig. 4.

Fig. 8 is the structural schematic diagram of keyboard components in the other directions in Tool monitoring equipment shown in Fig. 1.

Main element symbol description

The present invention that the following detailed description will be further explained with reference to the above drawings.

Specific embodiment

Below in conjunction with the attached drawing in embodiment of the present invention, the technical solution in embodiment of the present invention is carried out clear Chu is fully described by, it is clear that described embodiment is only some embodiments of the invention, rather than whole implementation Mode.Based on the embodiment in the present invention, those of ordinary skill in the art are obtained without making creative work The all other embodiment obtained, shall fall within the protection scope of the present invention.

It should be noted that it can be when an element or component are considered as " connection " another element or component It is directly connected to another element or component, or may be simultaneously present component placed in the middle.

Unless otherwise defined, all technical and scientific terms used herein and belong to technical field of the invention The normally understood meaning of technical staff is identical.Term as used herein in the specification of the present invention is intended merely to description tool The purpose of body embodiment, it is not intended that the limitation present invention.Term " and or " used herein includes one or more related Listed item any and all combinations.

Please refer to figs. 1 to 4, and Tool monitoring equipment 100 is set including pedestal 10 (as shown in Figure 4), around the pedestal 10 The protective casing 20 set, and the display 30 in 20 outside of protective casing is set.It is understood that the pedestal 10 is by marble Material is made, and is in upside down t-shape.The pedestal 10 has top 11, bottom 13, and the side wall at the connection top 11 and bottom 13 15.The pedestal 10 has enough hardness due to itself, it is ensured that the overall precision of the Tool monitoring equipment 100.It can Understand, controller (not shown), 30 electricity of the controller and the display are additionally provided with inside the Tool monitoring equipment 100 Property connection.The controller controls the display of the display 30.

The protective casing 20 includes protection ontology 21 and sliding door component 23.Opening is provided on the protection ontology 21 211.The sliding door component 23 be movably disposed at it is described opening 211 on and can upward sliding cover it is described opening 211.Tool Body, the sliding door component 23 includes sliding door 231, sliding door cylinder (not shown) and the first guide part 235.The sliding door 231 is set Set on the protection ontology 21 and can upward sliding cover the opening 211.The sliding door cylinder is arranged in the protection On ontology 21 and its output end is connect with the slipper of first guide part 235.It is understood that in the present embodiment, First guide part 235 is linear guide, and with rail sections and slipper, rail sections setting is in the protection sheet On body 21, track portion is slidably arranged in rail sections.The sliding door 231 also sliding with first guide part 235 Part connects.When the controller is connected to tool changing instruction, the controller controls the sliding door cylinder driving described first and leads It is slided to the slipper of part 235, and then drives the sliding door 231 to move up to open the opening 211 and facilitate tool changing.

Please also refer to Fig. 4, Fig. 5 and Fig. 6, the Tool monitoring equipment 100 further includes cutter clamping mechanism 40.The knife Tool clamping mechanism 40 is arranged in the top 11 of the pedestal 10 and extends downwardly along the side wall of the pedestal 10.Specifically, described Cutter clamping mechanism 40 includes clamping piece 41 and rotary drive 43.The top of the pedestal 10 is arranged in the clamping piece 41 11, and protrude out the side wall 15 of the pedestal 10.The rotary drive 43 is vertically situated on the clamping piece 41 and presss from both sides Hold cutter 200.Specifically, mounting hole 411 is provided on the clamping piece 41, one end of the rotary drive 43 is mounted on institute It states in mounting hole 411, the other end stretches out the mounting hole 411, and clamps cutter 200.The rotary drive 43 can drive The cutter 200 rotates, and revolving speed can reach the revolving speed when cutter 200 works normally, such as 1000~60000R/ Min.It is understood that when 231 upward sliding of sliding door and when covering the opening 211, the cutter clamping mechanism 40 and described Expose to facilitate tool changing operation in position where when cutter 200 opens the opening 211 from the sliding door 231.

The Tool monitoring equipment 100 further includes detection feed mechanism 50 and detector 60.The detection feed mechanism 50 It is arranged on the side wall 15 of the pedestal 10.The detection feed mechanism 50 along the pedestal 10 side wall 15 towards the cutter Clamping mechanism 40 extends.The detector 60 is mounted on the top of the detection feed mechanism 50 and towards the cutter clamping Mechanism 40.

Specifically, the detection feed mechanism 50 includes bottom plate 51, magnetic drive part 53 and sliding rail guide part 55.The bottom The side wall 15 of the parallel pedestal 10 of plate 51 is simultaneously arranged on the side wall 15 of the pedestal 10.The setting of magnetic drive part 53 exists On the bottom plate 51.The sliding rail guide part 55 is arranged on the bottom plate 51.The slipper of the sliding rail guide part 55 with The movable part of the magnetic drive part 53 is connected.The detector 60 is mounted on the slipper of the sliding rail guide part 55 On.The magnetic drive part 53 drives the slipper of the sliding rail guide part 55 to slide, and then the detector 60 is driven to transport It is dynamic, to allow the detector 60 to rise and detect cutter 200.

Specifically, please also refer to Fig. 4 and Fig. 5, the magnetic drive part 53 includes magnetic sheet 531 and electromagnetism winding 533. The sliding rail guide part 55 includes two linear rails 551 and slide plate 553.The side of the pedestal 10 is arranged in the magnetic sheet 531 On wall 15.Described two linear rails 551 are vertically arranged on the side wall 15 of the pedestal 10, and are located at the magnetic sheet 531 two sides.The slide plate 553 be crossed in described two linear rails 551 and cover be located on the magnetic sheet 531 and with it is described Detector 60 connects.Side of the slide plate 553 towards the magnetic sheet 531 is arranged in the electromagnetism winding 533.The electromagnetism Winding 533 be powered the alternating magnetic field and the magnetic sheet 531 that generate magnetic field interaction and drive the slide plate 553 along described Two linear rails 551 move up and down, and then the detector 60 is driven to move up and down.

Selectively, the detection feed mechanism 50 further includes magnetic railings ruler 54.The magnetic railings ruler 54 is arranged in the bottom plate On 51 approximate mid-section position.The magnetic railings ruler 54 is for measuring the movement of the slide plate 553 towards 60 direction of detector Distance.

Selectively, the detection feed mechanism 50 further includes inductive component 56.The inductive component 56 is arranged described On bottom plate 51.The inductive component 56 is electrically connected with the controller.The inductive component 56 include the first induction pieces 561, Second induction pieces 563 and third induction pieces 565.First induction pieces 561 and the second induction pieces 563 are arranged in the bottom plate 51 Approximate mid-section position on.Second induction pieces are between first induction pieces 561 and the third induction pieces 565. The bottom position of the bottom plate 51 is arranged in the third induction pieces 565.First induction pieces, 561 position is the cunning The initial point position of plate 553,563 position of the second induction pieces are the upper limit position of the slide plate 553, the third 565 position of induction pieces is the lower limit position of the slide plate 553, and the controller is according to first induction pieces 561, the Two induction pieces 563 and third induction pieces 565 know the position of the slide plate 553.

Selectively, the detection feed mechanism 50 further includes power-off locking assembly 57.The power-off locking assembly 57 One end is fixed on the bottom 13 of the pedestal 10, and the other end is connect with the bottom of the detector 60.The power-off locking assembly 57 for following the detector 60 to move back and forth, in the Tool monitoring when the Tool monitoring equipment 100 does not power off When equipment 100 powers off, the slide plate 553 is supported not fall out, to protect the detector 60 indirectly.

Specifically, the power-off locking assembly 57 includes locking cylinder 571, lock shaft 573 and locking member (not shown).Institute Locking cylinder 571 is stated to be fixed on the bottom plate 51.The lock shaft 573 is arranged in one end of the locking cylinder 571, and with The detector 60 connects.The locking member, which is arranged in the inside of the locking cylinder 571 and surround with the lock shaft 573, to be set It sets.For the locking member when the locking cylinder 571 is not died, open-shaped state simultaneously surround the lock shaft 573.The lock Tight part holds the locking member tightly after the locking cylinder 571 is died, and prevents the detector 60 in unexpected the case where powering off Under fall damage.

Selectively, please also refer to Fig. 6, the detection feed mechanism 50 further includes baffle plate assembly 58.The baffle group Part 58 is arranged on the side wall 15 of the pedestal 10 in the form of the side wall 15 of the substantially vertical pedestal 10.Specifically, described Baffle plate assembly 58 includes protection substrate 581, protection movable plate 583, pen cylinder 585 and the second linear rails 587.The protection base The form of the side wall 15 of the substantially vertical pedestal 10 of plate 581 is arranged on the side wall 15 of the pedestal 10.The protection substrate Protective port 5811 is provided on 581.The protection movable plate 583 is arranged in the downside of the protection substrate 581 and can cover The protective port 5811.The downside of the protection substrate 581, and the protection is arranged in two second linear rails 587 Movable plate 583 is arranged between two second linear rails 587.The pen cylinder 585 connects with the protection movable plate 583 It connects.Described prevent when the pen cylinder 585 drives second linear rails 587 and then the protection movable plate 583 is driven to open After retaining 5811, the detector 60, which can be driven, passes through from the protective port 5811 and is able to detect the cutter 200.

Selectively, please also refer to Fig. 7, the detection feed mechanism 50 further includes trimming assembly 59.Specifically, described Trimming assembly 59 is arranged between the slide plate 553 and the detector 60.The trimming assembly 59 includes link block 591, the One dovetails 593 and the second dovetails 595.The link block 591 is connected on the slide plate 553.First dovetails 593 It is successively set on the link block 591 with the second dovetails 595.The detector 60 is mounted on second dovetails 595 On.First dovetails 593 are provided with threaded hole along first direction, such as X-direction, and second dovetails 595 are along Two directions, such as be provided with threaded hole along the y axis, screw is arranged in screw hole, by the turn of the screw, screw and screw hole it Between screw togather, to drive first dovetails 593 and the second dovetails 595 to move along first direction, or in a second direction Movement, to realize the position for finely tuning the detector 60.

Selectively, please also refer to Fig. 8, the Tool monitoring equipment 100 further includes keyboard components 70.The keyboard group The outside of the protective casing 20 is arranged in part 70.The keyboard components 70 include that (figure is not for keyboard 71, guide part 73 and shackle member Show).The guide part 73 is arranged on the protective casing 20.The keyboard 71 is arranged on the guide part 73.The card The apical position of the guide part 73 is arranged in fitting.The shackle member moves to the top of the guide part 73 in the keyboard 71 When end, the main keyboard 71 can be blocked.When needing to discharge the keyboard 71, by the keyboard 71 to the side of the protective casing 20 To pushing and pressing down on, the keyboard 71, which can fold, to be withdrawn and is attached on the surface of the protective casing 20.

Its mechanism of Tool monitoring equipment of the invention is simple and compact, and occupied space is few, and easy to assembly, workpiece motion s are adopted substantially High-efficient with pneumatic mode, response is fast, at low cost.Tool monitoring equipment of the invention uses integral type pedestal, ensure that its machine The precision of this body structure of tool, using the feed mechanism of electromagnetic induction driving, high-precision wire rail and magnetic railings ruler, to drive detection Instrument movement, fast response time, movement position is accurate, and testing result is truer.Tool monitoring equipment of the invention is peripheral apparatus If keyboard is contained in fuselage, integration one with ergonomics, allows its keyboard door to move up and down, adjustable to relax Suitable height.

It is understood that in other embodiments, the bottom plate 51 can omit, the element on the bottom plate 51 is set It can be set up directly on the side wall 15 of the pedestal 10.

It is understood that in other embodiments, the pedestal 10 can be other hard material systems in addition to marble At, such as high hardness alloy material is made.

It is understood that in other embodiments, the shackle member can be omitted.

It is understood that in other embodiments, the magnetic railings ruler 54, inductive component 56, power-off locking assembly 57, baffle group Part 58, trimming assembly 59 and keyboard components 70 can select one or be omitted altogether.

Those skilled in the art it should be appreciated that more than embodiment be intended merely to illustrate the present invention, And be not used as limitation of the invention, as long as being made within spirit of the invention to embodiment of above It is appropriate change and variation all fall within the scope of protection of present invention.

Claims (13)

1. a kind of Tool monitoring equipment, which is characterized in that the Tool monitoring equipment includes:

Pedestal；

The top of the pedestal is arranged in and along the side wall of the pedestal to downward in cutter clamping mechanism, the cutter clamping mechanism It stretches, the end of the cutter clamping mechanism is used for one cutter of clamping, and the cutter clamping mechanism is for driving the cutter examining According to normal work revolving speed rotation when survey；

Feed mechanism is detected, the side wall of the pedestal is arranged in the detection feed mechanism, and along the side wall direction of the pedestal The cutter clamping mechanism extends；And

Detector, the detector are located at the lower section of the cutter clamping mechanism, and are installed on the detection feed mechanism, The detection feed mechanism drives the detector close to the cutter for detecting to the cutter.

2. Tool monitoring equipment as described in claim 1, it is characterised in that: the pedestal is marble pedestal and is in inverted T-shaped Shape, the cutter clamping mechanism include clamping piece and rotary drive, and the top of the pedestal is arranged in the clamping piece, and convex The side wall of the pedestal is stretched out, the rotary drive is vertically situated on the clamping piece, and the rotary drive is used for It clamps and the cutter is driven to rotate, the rotary drive can drive the cutter when detecting according to normal work revolving speed Rotation.

3. Tool monitoring equipment as described in claim 1, it is characterised in that: the detection feed mechanism includes magnetic drive part With sliding rail guide part, the magnetic drive part is arranged on the side wall of the pedestal, and the sliding rail guide part is arranged in the base On the side wall of seat, the slipper of the sliding rail guide part is connected with the movable part of the magnetic drive part, the detection Instrument is mounted on the slipper of the sliding rail guide part, and the magnetic drive part drives the slipper of the sliding rail guide part Sliding, and then the detector movement is driven, to allow the detector to rise and detect cutter.

4. Tool monitoring equipment as claimed in claim 3, it is characterised in that: the magnetic drive part includes magnetic sheet and electromagnetism Winding, the sliding rail guide part includes slide plate and two linear rails, and the magnetic sheet is arranged on the side wall of the pedestal, described Two linear rails are vertically arranged on the side wall of the pedestal, and are located at the two sides of the magnetic sheet, and the slide plate is across setting It is connect in described two linear rails and with the detector, the electromagnetism winding is arranged in the slide plate towards the magnetic sheet Side, the electromagnetism winding be powered the alternating magnetic field and the magnetic sheet that generate magnetic field interaction and drive the slide plate Along described two linear rails vertical motions, and then drive the detector vertical motion.

5. Tool monitoring equipment as claimed in claim 4, it is characterised in that: the detection feed mechanism further includes magnetic railings ruler, The magnetic railings ruler is arranged on the medium position of the side wall, and the magnetic railings ruler measures the slide plate towards the detector direction Move distance.

6. Tool monitoring equipment as claimed in claim 4, it is characterised in that: the detection feed mechanism further includes inductive component And controller, the inductive component are arranged on the side wall of the pedestal and are electrically connected with the controller, the sense group Part includes the first induction pieces, the second induction pieces and third induction pieces, and first induction pieces and the second induction pieces are arranged described On the medium position of side wall, second induction pieces are between first induction pieces and the third induction pieces, and described The bottom position of the side wall is arranged in three induction pieces, and first induction pieces position is the starting point of the slide plate It sets, second induction pieces position is the upper limit position of the slide plate, and third induction pieces position is described The lower limit position of slide plate, the controller are known described according to first induction pieces, the second induction pieces and third induction pieces The position of slide plate.

7. Tool monitoring equipment as claimed in claim 4, it is characterised in that: the detection feed mechanism further includes fine tuning group Part, the trimming assembly are arranged between the slide plate and the detector, and the trimming assembly includes link block, the first dovetail Block and the second dovetails, the link block are connected on the slide plate, and first dovetails and the second dovetails are set gradually On the link block, the detector is mounted in second dovetails, and first dovetails and the second dovetails are micro- Adjust the position of the detector.

8. Tool monitoring equipment as described in claim 1, it is characterised in that: the detection feed mechanism further includes power-off locking One end of component, the power-off locking assembly is fixed on the bottom of the pedestal, and the other end is fixed on the detector, described Locking assembly is powered off when the Tool monitoring equipment does not power off, the detector is followed to move back and forth, the power-off locking Component supports the detector not fall out in the Tool monitoring device powers down.

9. Tool monitoring equipment as claimed in claim 8, it is characterised in that: the power-off locking assembly include locking cylinder, Lock shaft and locking member, the cylinder are fixed on the side wall of the pedestal, and the locking cylinder is arranged in the lock shaft One end, and connect with the detector, the locking member is arranged in the locking cylinder and after the locking cylinder is died, The locking member is held tightly.

10. Tool monitoring equipment as described in claim 1, it is characterised in that: the detection feed mechanism further includes baffle group Part, the baffle plate assembly include protection substrate, protection movable plate, pen cylinder and the second linear rails, the protection substrate setting On the side wall of the pedestal, protective port is provided on the protection substrate, the protection movable plate is arranged in the protection base The downside of plate simultaneously can cover the protective port, and the downside of the protection substrate is arranged in two second linear rails, and The protection movable plate is arranged between two second linear rails, and the pen cylinder is connect with the protection movable plate, After the pen cylinder drives second linear rails and then protection movable plate is driven to open the protective port, the detector It can be driven and be passed through from the protective port and can be used in detecting the cutter.

11. Tool monitoring equipment as described in claim 1, it is characterised in that: the Tool monitoring equipment further includes protecting crust Body, the protective casing are arranged around the pedestal and surround the cutter clamping mechanism, detection feed mechanism and detector Inside, it is provided with protection ontology and sliding door component on the protective casing, is provided with opening, the sliding door on the protection ontology Component is arranged over said opening and can cover the opening.

12. Tool monitoring equipment as claimed in claim 11, it is characterised in that: the sliding door component includes sliding door, sliding door gas Cylinder and the first guide part, the sliding door are arranged on the protection ontology and can cover the opening, the sliding door cylinder setting On the protection ontology and its output end is connect with the slipper of first guide part, and the sliding door is also with described The slipper of one guide part connects, and the sliding door cylinder drives the slipper of first guide part to slide, and then drives The sliding door is moved up to open the opening and facilitate tool changing.

13. Tool monitoring equipment as claimed in claim 11, it is characterised in that: the Tool monitoring equipment further includes keyboard group The outside of the protective casing is arranged in part, the keyboard components, and the keyboard components include keyboard and guide part, the keyboard It is arranged on the guide part, the keyboard slides on the guide part to adjust its height.