CN105269056B

CN105269056B - A kind of saltation layer equipment

Info

Publication number: CN105269056B
Application number: CN201510772817.5A
Authority: CN
Inventors: 郭振庄
Original assignee: Shenzhen Chuangdingfeng Technology Co Ltd
Current assignee: Shenzhen Chuangdingfeng Technology Co Ltd
Priority date: 2015-11-12
Filing date: 2015-11-12
Publication date: 2018-01-23
Anticipated expiration: 2035-11-12
Also published as: CN105269056A

Abstract

The invention discloses a kind of saltation layer equipment, it includes：One base；One frame, the frame is on base；One elevating mechanism, it is provided with milling cutter and probe side by side in frame on the elevating mechanism, the elevating mechanism is used to drive milling cutter and probe to rise or fall；One drive mechanism, in frame, the drive mechanism is used to drive elevating mechanism to slide up and down with respect to frame, and elevating mechanism is positioned at into predeterminated position for it；One clamp assembly, below elevating mechanism, the clamp assembly is used to clamp key sample and key embryo for it；One translation mechanism, on base, the clamp assembly is carried on translation mechanism for it, and the translation mechanism is used to drive fixture to component along X-axis and/or Y direction translation.The present invention has that adjustability is good, the handling beneficial effect such as good, easy to use.

Description

A kind of saltation layer equipment

Technical field

The present invention relates to small size lathe, more particularly to a kind of saltation layer equipment.

Background technology

Saltation layer equipment is also known as key milling-tapping machine, belongs to the small size lathe of copy key, and existing saltation layer is set In standby, its fixture can only move forward and backward, can not left and right adjustment, under long-term use, it is difficult to ensure that milling cutter and probe can be accurate The key age of a draught animal is pointed to, meanwhile, the adjustable height of manual mode adjustment milling cutter and probe can only be used, lacks positioning and locking work( Can, thus do not reach preferable processing effect.With reference to described above as can be seen that existing saltation layer equipment has adjustability With it is handling poor the defects of.

The content of the invention

The technical problem to be solved in the present invention is, in view of the shortcomings of the prior art, there is provided a kind of adjustability is good, handling Good, easy to use saltation layer equipment.

In order to solve the above technical problems, the present invention adopts the following technical scheme that.

A kind of saltation layer equipment, it includes：One base；One frame, the frame is on base；One lift Structure, it is provided with milling cutter and probe side by side in frame on the elevating mechanism, the elevating mechanism is used to drive milling cutter and spy Pin rises or falls；One drive mechanism, its in the frame, the drive mechanism be used to driving elevating mechanism with respect to frame and Lower slider, and elevating mechanism is positioned at predeterminated position；One clamp assembly, it is below elevating mechanism, the clamp assembly For clamping key sample and key embryo；One translation mechanism, on base, the clamp assembly is carried on translation mechanism for it, The translation mechanism is used to drive fixture to component along X-axis and/or Y direction translation.

Preferably, the clamp assembly includes clamp mount, is provided with the first fixed block, the on the clamp mount side by side One movable block, the second fixed block and the second movable block, first fixed block are disposed adjacent and therebetween with the first movable block Formed with the first jaws for clamping key sample, second fixed block is disposed adjacent with the second movable block and shape therebetween Into the second jaws having for clamping key embryo, first fixed block and the second fixed block are both secured on clamp mount, institute State the first fixed block and be provided with the first retaining mechanism for being used for driving the first movable block to reciprocatingly slide, set on second fixed block There is the second retaining mechanism for driving the second movable block to reciprocatingly slide, worn in first fixed block and be fixed with two simultaneously Capable feed rod, the feed rod sequentially pass through the first movable block, the second fixed block and the second movable block, and first movable block and Second movable block is slidably connected with the feed rod.

Preferably, to offer the first right angle respectively on the first fixed block and the first movable block of the first jaws both sides recessed Mouthful, offer the second right angle recess on the second fixed block and the second movable block of the second jaws both sides respectively, described first Right angle recess is corresponding with the second right angle recess and the size of the two is identical.

Preferably, the lower section of first right angle recess and opened up respectively on first fixed block and the first movable block There are the first triangular notches, a right-angle side of first triangular notches is horizontally extending, first triangle The hypotenuse of recess oliquely downward tilts, to make the opening of two the first triangular notches relative；Under second right angle recess The second triangular notches, second triangular notches are offered just and respectively on second fixed block and the second movable block And the two size corresponding with the first triangular notches is identical.

Preferably, first retaining mechanism includes the first swing handle, and first swing handle is outward extended with the first straight-bar, First straight-bar sequentially passes through the first fixed block and the first movable block, and first straight-bar and the first fixed block are rotatablely connected, First straight-bar is threadedly coupled with the first movable block；Second retaining mechanism includes the second swing handle, second swing handle Be outward extended with the second straight-bar, second straight-bar sequentially passes through the second movable block and the second fixed block, second straight-bar with Second fixed block is rotatablely connected, and second straight-bar is threadedly coupled with the second movable block.

Preferably, the elevating mechanism is provided with probe surplus governor motion, and the probe surplus governor motion includes Sleeve, the top of the sleeve are screwed with plug, expansion link are equipped with the center of the plug, and the upper end of the plug is provided with Regulation ring, the regulation ring are sheathed on expansion link, and the edge at the top of the regulation ring is provided with relative the first projection and second Projection, from the bottom of the first projection to the top of the second projection extend and formed with first slope, from the bottom of the second projection to The top extension of first projection and formed with the second slope, be vertically equipped with a pin on the expansion link, the two of the pin End is overlapped in first slope and the second slope respectively, and the lower end of the expansion link is to extending within sleeve, and the expansion link Lower end is provided with the chuck for being used for fixing probe, and spring is arranged with the expansion link, and the spring is connected to chuck with blocking up Between head, the upper end of the chuck is located in sleeve, and the sidepiece of the chuck offers the slit extended vertically, on the sleeve Banking pin is equipped with, the banking pin is in slit, when rotating the regulation ring, the first slope and the driving of the second slope Pin and expansion link lifting, to adjust the relative travel of chuck and banking pin in vertical direction.

Preferably, the translation mechanism includes parallel two Y-axis slide bars being fixed on base, and two Y-axis slide bars are equal Pass through and be slidably connected to a Y-axis sliding block, be fixed with two X-axis slide bars on the Y-axis sliding block parallel, two X-axis slide bars are worn To cross and be slidably connected to an X-axis slide block, microscope carrier is fixed with the top of the X-axis slide block, the microscope carrier is used to carry clamp assembly, The sidepiece of the base is provided with rocking bar, and the microscope carrier is provided with the first universal bearing, and the sidepiece of the base is universal provided with second Bearing, the rocking bar sequentially pass through the first universal bearing and the second universal bearing, and microscope carrier is driven along X-axis by the rocking bar And/or Y direction translation.

Preferably, a push rod is also included, the push rod sequentially passes through and is screwed together in microscope carrier and X-axis slide block, by screwing The push rod and make the lower end of push rod abut or separate with Y-axis sliding block.

Preferably, the drive mechanism include driving lever, output shaft, flanged pipe, in bowl-shape disc brake set and a T-shaped spiral shell Mother, the end of the output shaft are arranged in flanged pipe, and the disc brake set covers at flanged pipe and gap therebetween be present, described The end of flanged pipe is used to be fixedly connected with frame, and the output shaft is used to drive elevating mechanism to rise or fall, the flanged pipe Sidepiece offer two relative arc-shaped slots, the end of the output shaft offers through hole, and the sidepiece of the disc brake set is opened Provided with two the first relative side openings, the bottom of the driving lever is screwed together in T-nut through arc-shaped slot, through hole and side opening, Formed with a step surface in the side opening of driving lever bottom, the horizontal part of the T-nut is connected to the step surface, described Terrace is provided with projection, and the horizontal part of T-nut is provided with neck, and the projection is sticked in the neck, during push-and-pull driving lever, institute Stating driving lever, arcuately notch slides and drives output shaft rotation to predetermined angle, driving T-nut rising when rotating the driving lever, The T-nut locks disc brake set with flanged pipe, to make driving lever be fixed on predeterminated position.

Preferably, the outside of the disc brake set is formed with reinforcement.

In saltation layer equipment disclosed by the invention, key sample and key embryo are each attached on clamp assembly, during processing, profit Key sample and key embryo are moved to the underface of milling cutter and probe with translation mechanism, driven using drive mechanism under elevating mechanism Drop and position to predeterminated position so that milling cutter and probe carry out saltation layer.Saltation layer equipment disclosed by the invention, it is utilized Translation mechanism, which realizes, to be driven fixture to component and is planar moved with any direction, ensure that milling cutter and probe can be pointed to accurately The key age of a draught animal, meanwhile, the present invention can adjust, position the adjustable height of milling cutter and probe so that saltation layer equipment of the present invention Possess preferable adjustability and handling, suitable popularization and application in the art, and there are preferable market prospects.

Brief description of the drawings

Fig. 1 is the side view of saltation layer equipment of the present invention.

Fig. 2 is the front view of saltation layer equipment of the present invention.

Fig. 3 is the top view of clamp assembly.

Fig. 4 is the side view of clamp assembly.

Fig. 5 is the internal structure schematic diagram of clamp assembly.

Fig. 6 is the side view of probe surplus governor motion.

Fig. 7 is the internal structure schematic diagram one of probe surplus governor motion.

Fig. 8 is the internal structure schematic diagram two of probe surplus governor motion.

Fig. 9 is the side view one of translation mechanism.

Figure 10 is the side view two of translation mechanism.

Figure 11 is the top view of translation mechanism.

Figure 12 is the exploded view of drive mechanism.

Figure 13 is the side view of drive mechanism.

Figure 14 is the top view of T-nut.

Figure 15 is the front view of drive mechanism.

Embodiment

The present invention is described in more detail with reference to the accompanying drawings and examples.

The invention discloses a kind of saltation layer equipment, and with reference to shown in Fig. 1 and Fig. 2, it includes a base 1, a frame 2nd, an elevating mechanism 3, a drive mechanism 4, a clamp assembly 5 and a translation mechanism 6, wherein：

The frame 2 is on base 1；

The elevating mechanism 3 is provided with milling cutter 9 and probe 8, the lifting side by side in frame 2 on the elevating mechanism 3 Mechanism 3 is used to drive milling cutter 9 and probe 8 to rise or fall；

The drive mechanism 4 in the frame 2, the drive mechanism 4 be used to driving elevating mechanism 3 with respect to frame 2 and Lower slider, and elevating mechanism 3 is positioned at predeterminated position；

Located at the lower section of elevating mechanism 3, the clamp assembly 5 is used to clamp key sample and key embryo the clamp assembly 5；

The translation mechanism 6 is on base 1, and the clamp assembly 5 is carried on translation mechanism 6, the translation mechanism 6 Translated for driving fixture to component 5 along X-axis and/or Y direction.

The saltation layer equipment of said structure, key sample and key embryo are each attached on clamp assembly 5, during processing, are utilized Key sample and key embryo are moved to the underface of milling cutter 9 and probe 8 by translation mechanism 6, and elevating mechanism is driven using drive mechanism 4 3 decline and position to predeterminated position so that milling cutter 9 and probe 8 carry out saltation layer.Saltation layer equipment disclosed by the invention, It is realized using translation mechanism 6 is driven fixture to component and is planar moved with any direction, ensure that milling cutter and probe can The accurate sensing key age of a draught animal, meanwhile, the present invention can adjust, position the adjustable height of milling cutter and probe so that key of the present invention Process equipment possesses preferable adjustability and handling.

On the concrete structure of each several part in saltation layer equipment of the present invention, referring to following examples.

Embodiment 1

In the present embodiment, with reference to shown in Fig. 3 to Fig. 5, the clamp assembly 5 includes clamp mount 50, the fixture branch The first fixed block 500, the first movable block 501, the second fixed block 502 and the second movable block 503 are provided with side by side on seat 50, described the One fixed block 500 is disposed adjacent with the first movable block 501 and therebetween formed with the first jaws for clamping key sample 504, second fixed block 502 is disposed adjacent with the second movable block 503 and therebetween formed with for clamping key embryo Second jaws 505, the fixed block 502 of the first fixed block 500 and second are both secured on clamp mount 50, and described first fixes Block 500, which is provided with, is used for the first retaining mechanism 506 that the first movable block 501 of driving reciprocatingly slides, on second fixed block 502 Provided with for driving the second retaining mechanism 507 for reciprocatingly sliding of the second movable block 503, being worn in first fixed block 500 and Two parallel feed rods 508 are fixed with, the feed rod 508 sequentially passes through the first movable block 501, the second fixed block 502 and second Movable block 503, and the movable block 503 of first movable block 501 and second is slidably connected with the feed rod 508.

In above-mentioned clamp assembly 5, by adjust the first retaining mechanism 506 can the first movable block 501 it is solid to first Determine block 500 to draw close, so as to which key sample be fastened, when reversely adjusting the first retaining mechanism 506, the first movable block 501 can be made remote From the first fixed block 500 to remove key sample, similarly, by adjusting the second retaining mechanism 507, can also easily fasten With remove key embryo.Meanwhile embodiment adds two parallel feed rods 508, due to the first movable block 501 and the second activity Block 503 is slidably connected with the feed rod 508, in the presence of two feed rods 508, avoids the first movable block 501 and second Position skew occurs in moving process for movable block 503, the stability and reliability of clamp assembly is substantially increased, in addition, sharp Also two movable blocks are more easily sliding with the feed rod 508, so as to convenient for users.

In the present embodiment, in order to be adapted to the key of working flat plate shape, the first fixed block of the both sides of the first jaws 504 500 and first offer the first right angle recess 509, the second fixed block of the both sides of the second jaws 505 on movable block 501 respectively 502 and second offer the second right angle recess 510 on movable block 503 respectively, and first right angle recess 509 is recessed with the second right angle Mouth 510 is corresponding and the size of the two is identical.

As a kind of preferred embodiment, in order to preferably clamp crescent shape key, under first right angle recess 509 Side and offer the first triangular notches 511 respectively on the movable block 501 of the first fixed block 500 and first, described first One right-angle side of triangular notches 511 is horizontally extending, and the hypotenuse of first triangular notches 511 oliquely downward inclines Tiltedly, to make the opening of two the first triangular notches 511 relative；

The lower section of second right angle recess 510 and opened respectively on the movable block 503 of the second fixed block 502 and second Provided with the second triangular notches 512, second triangular notches 512 it is corresponding with the first triangular notches 511 and the two Size is identical.

In the above-mentioned triangular notches 512 of first triangular notches 511 and second, the both sides of crescent shape key are blocked respectively to be set In the angle of right-angle side and hypotenuse, in the presence of hypotenuse, restriction effect is played to the dorsal part gradient of crescent shape key, effectively Crescent shape key is avoided to skid off outside jaws.The present embodiment utilizes the recess of different structure, has preferably adapted to a variety of keys Spoon is clamped, and substantially increases the versatility of saltation layer equipment.

Further, first retaining mechanism 506 includes the first swing handle 513, and first swing handle 513 stretches out There is the first straight-bar 514, first straight-bar 514 sequentially passes through the first fixed block 500 and the first movable block 501, and described first is straight Bar 514 is rotatablely connected with the first fixed block 500, and first straight-bar 514 is threadedly coupled with the first movable block 501；

Second retaining mechanism 507 includes the second swing handle 515, and it is straight that second swing handle 515 is outward extended with second Bar 516, second straight-bar 516 sequentially pass through the second movable block 503 and the second fixed block 502, second straight-bar 516 and Two fixed blocks 502 are rotatablely connected, and second straight-bar 516 is threadedly coupled with the second movable block 503.

Embodiment 2

In the present embodiment, with reference to shown in Fig. 6 to Fig. 8, the elevating mechanism 3 is provided with probe surplus governor motion 30, institute State probe surplus governor motion 30 and include sleeve 300, the top of the sleeve 300 is screwed with plug 301, the plug 301 Center at be equipped with expansion link 302, the upper end of the plug 301 is provided with regulation ring 303, and the regulation ring 303, which is sheathed on, stretches Contracting bar 302, the edge at the top of regulation ring 303 is provided with relative the first projection 304 and the second projection 305, convex from first The bottom of block 304 is to the top extension of the second projection 305 and formed with first slope 306, from the bottom of the second projection 305 to the The top extension of one projection 304 and be vertically equipped with a pin 308 formed with the second slope 307, on the expansion link 302, institute The both ends for stating pin 308 are overlapped on the slope 307 of first slope 306 and second respectively, and the lower end of the expansion link 302 is to sleeve Extend within 300, and the lower end of the expansion link 302 is provided with the chuck 309 for being used for fixing probe, is arranged on the expansion link 302 There is spring 310, the elasticity of spring 310 is connected between chuck 309 and plug 301, and the upper end of the chuck 309 is located at sleeve In 300, the sidepiece of the chuck 309 offers the slit 311 extended vertically, and banking pin 312 is equipped with the sleeve 300, The banking pin 312 is in slit 311, and when rotating the regulation ring 303, the slope 307 of first slope 306 and second is driven Dynamic pin 308 and expansion link 302 lift, to adjust the relative travel of chuck 309 and banking pin 312 in vertical direction.

In above-mentioned probe surplus governor motion 30, when user's rotating adjustment ring 303, its first slope 306 and second is oblique Slope 307 relatively moves with pin 308 so that is pushed up from the bottom of the first projection 304 to the second projection 305 one end of pin 308 Portion direction is slided, and the other end of pin 308 slides from the bottom of the second projection 305 to the top-direction of the first projection 304, so that will Pin 308 and expansion link 302 lift, and the surplus progressively reduced between banking pin 312 and the lower end of slit 311 so that for solid The chuck 309 for determining probe is maintained at fixed position, or can only be moved up and down in smaller range.Using upper in the present embodiment Mechanism is stated, the surplus up and down to probe is effectively realized and is adjusted, is met during saltation layer to production equipment Requirement.

In the present embodiment, for the ease of being exerted a force to regulation ring 303, the sidepiece of the regulation ring 303 is outward extended with one group Piece 313.Further, for the ease of observing the rotation amplitude of regulation ring 303, it is provided with and carves at the top edge of the plug 301 Spend line.

As a kind of preferred embodiment, the top of the regulation ring 303 is provided with end cap 314, and the end cap 314 covers at flexible The top of bar 302, and the end cap 314 is screwed with expansion link 302.

Embodiment 3

In the present embodiment, with reference to shown in Fig. 9 to Figure 11, the translation mechanism 6 includes two be fixed on parallel on base 1 Individual Y-axis slide bar 600, two Y-axis slide bars 600 both pass through and are slidably connected to a Y-axis sliding block 601, on the Y-axis sliding block 601 simultaneously Row is fixed with two X-axis slide bars 602, and two X-axis slide bars 602 both pass through and are slidably connected to an X-axis slide block 603, and the X-axis is slided The top of block 603 is fixed with microscope carrier 604, and the microscope carrier 604 is used to carry clamp assembly 5, and the sidepiece of the base 1 is provided with rocking bar 605, the microscope carrier 604 is provided with the first universal bearing 606, and the sidepiece of the base 1 is provided with the second universal bearing 607, described Rocking bar 605 sequentially passes through the first universal bearing 606 and the second universal bearing 607, and microscope carrier 604 is driven by the rocking bar 605 Translated along X-axis and/or Y direction.

In above-mentioned translation mechanism, microscope carrier 604 is fixed in X-axis slide block 603 so that microscope carrier 604 can be along two X-axis slide bars 602 and reciprocatingly slide, because two X-axis slide bars 602 are each attached on Y-axis sliding block 601, and Y-axis sliding block 601 and two Y-axis are slided Bar 600 is slidably connected so that the structure that microscope carrier 604, X-axis slide block 603, X-axis slide bar 602 and Y-axis sliding block 601 are formed can be along two Individual Y-axis slide bar 600 and reciprocatingly slide, for microscope carrier 604, by being exerted a force to rocking bar 605, can drive microscope carrier 604 can Moved in the range of X-axis and Y-axis towards any direction, and then realize the Universal active of microscope carrier 604, be adapted to application and a variety of lathes In equipment.

In the present embodiment, in order to which microscope carrier 604 is positioned in X-direction so that microscope carrier 604 is only capable of moving along Y direction, this Embodiment also includes a push rod 608, and the push rod 608 sequentially passes through and is screwed together in microscope carrier 604 and X-axis slide block 603, passes through rotation Twist the push rod 608 and make the lower end of push rod 608 abut or separate with Y-axis sliding block 601.

Embodiment 4

In the present embodiment, with reference to shown in Figure 12 to Figure 15, the drive mechanism 4 includes driving lever 400, output shaft 401, method Blue pipe 402, in bowl-shape disc brake set 403 and a T-nut 404, the end of the output shaft 401 is arranged in flanged pipe 402, institute State disc brake set 403 to cover at flanged pipe 402 and gap therebetween be present, the end of the flanged pipe 402 is used to be fixedly connected Frame 2, the output shaft 401 are used to drive elevating mechanism 3 to rise or fall, and the sidepiece of the flanged pipe 402 offers two Relative arc-shaped slot 405, the end of the output shaft 401 offer through hole 406, and the sidepiece of the disc brake set 403 offers Two the first relative side openings 407, the bottom of the driving lever 400 screw togather through arc-shaped slot 405, through hole 406 and side opening 407 In T-nut 404, formed with a step surface 408, the level of the T-nut 404 in the side opening 407 of the bottom of driving lever 400 Portion is connected to the step surface 408, and the step surface 408 is provided with projection 409, and the horizontal part of T-nut 404 is provided with neck 410, described raised 409 are sticked in the neck 410, and during push-and-pull driving lever 400, arcuately notch 405 slides the driving lever 400 And drive output shaft 401 to turn to predetermined angle, drive T-nut 404 to rise when rotating the driving lever 400, the T-nut 404 lock disc brake set 403 with flanged pipe 402, to make driving lever 400 be fixed on predeterminated position.

Further, the outside of the disc brake set 403 is formed with reinforcement 411.

In the drive mechanism of said structure, driving lever 400 sequentially passes through disc brake set 403, flanged pipe 402 and output shaft 401, by It is used to be fixedly connected with frame in flanged pipe 402, and the sidepiece of flanged pipe 402 offers two relative arc-shaped slots 405, so Driving lever 400 can be swung in the length range of arc-shaped slot 405, and the concomitant rotation of output shaft 401 is to drive the lift of equipment Corresponding actions occur for structure etc., after driving lever 400 is rocked to predetermined angle, driving lever 400 can be can be manually rotated, due to the spiral shell of T-nut 404 Together in the bottom of driving lever 400, and T-nut 404 is by the engaging position-limiting action of projection 409 so that T-nut 404 is in driving lever 400 Rise while rotation, and disc brake set 403 jacked up, until disc brake set 403 is brought into close contact with flanged pipe 402, using the two Frictional force is acted on so that disc brake set 403 is locked with flanged pipe 402, and now, driving lever 400 can not be moved by the limitation of disc brake set 403 It is dynamic, so as to which output shaft 401 is fixed on into predetermined angle, conversely, can be by reversely rotating driving lever 400 so that disc brake set 403 and method Blue pipe 402 unclamps, until driving lever 400 can drive output shaft 401 to rotate again.The present embodiment can be driven by driving lever 400 Output shaft 401 is rotated, while utilizes disc brake principle, and driving disc brake set 403 is locked with flanged pipe 402 so that output shaft 401 is turning Predeterminated position can be positioned at after moving to predetermined angle, based on said structure, the present embodiment is realized to corresponding mechanism by default Stroke, position are operated, and effectively increase the controllability and controllability of equipment.

Saltation layer equipment disclosed by the invention, which employs elevating mechanism, drive mechanism, clamp assembly, translation mechanism Deng preferred structure, efficiently solve be difficult to manipulate present in prior art, be difficult to adjust, many defects such as accuracy difference, fit Popularization and application in the art are closed, and there are preferable market prospects.

Simply preferred embodiments of the present invention described above, are not intended to limit the invention, all technology models in the present invention Interior done modification, equivalent substitution or improvement etc. are enclosed, should be included in the range of of the invention protect.

Claims

1. a kind of saltation layer equipment, it is characterised in that include：

One base；

One frame, the frame is on base；

One elevating mechanism, it is provided with milling cutter and probe, the elevating mechanism is used for side by side in frame on the elevating mechanism Milling cutter and probe is driven to rise or fall；

One drive mechanism, in frame, the drive mechanism is used to drive elevating mechanism to slide up and down with respect to frame for it, and Elevating mechanism is positioned at predeterminated position；

One clamp assembly, below elevating mechanism, the clamp assembly is used to clamp key sample and key embryo for it；

One translation mechanism, on base, the clamp assembly is carried on translation mechanism for it, and the translation mechanism is used to drive Clamp assembly translates along X-axis and/or Y direction；

The drive mechanism include driving lever, output shaft, flanged pipe, in bowl-shape disc brake set and a T-nut, the output shaft End be arranged in flanged pipe, the disc brake set covers at flanged pipe and gap therebetween be present, the end of the flanged pipe For being fixedly connected with frame, the output shaft is used to drive elevating mechanism to rise or fall, and the sidepiece of the flanged pipe offers Two relative arc-shaped slots, the end of the output shaft offer through hole, and the sidepiece of the disc brake set offers two relatively The first side opening, the bottom of the driving lever is screwed together in T-nut through arc-shaped slot, through hole and side opening, close to driving lever bottom Side opening in formed with a step surface, the horizontal part of the T-nut is connected to the step surface, and the step surface is provided with convex Rise, the horizontal part of T-nut is provided with neck, and the projection is sticked in the neck, and during push-and-pull driving lever, the driving lever is arcuately Notch slides and drives output shaft rotation to drive T-nut to rise when rotating the driving lever, the T-nut to predetermined angle Disc brake set is locked with flanged pipe, to make driving lever be fixed on predeterminated position.

2. saltation layer equipment as claimed in claim 1, it is characterised in that the clamp assembly includes clamp mount, institute State and be provided with the first fixed block, the first movable block, the second fixed block and the second movable block on clamp mount side by side, described first fixes Block is disposed adjacent with the first movable block and therebetween formed with the first jaws for clamping key sample, second fixed block Be disposed adjacent with the second movable block and therebetween formed with the second jaws for clamping key embryo, first fixed block with Second fixed block is both secured on clamp mount, and first fixed block, which is provided with, to be used to drive what the first movable block reciprocatingly slided First retaining mechanism, second fixed block are provided with the second retaining mechanism for being used for driving the second movable block to reciprocatingly slide, institute State and two parallel feed rods are worn and be fixed with the first fixed block, the feed rod sequentially passes through the first movable block, the second fixation Block and the second movable block, and first movable block and the second movable block are slidably connected with the feed rod.

3. saltation layer equipment as claimed in claim 2, it is characterised in that the first fixed block of the first jaws both sides and The first right angle recess is offered on first movable block respectively, on the second fixed block and the second movable block of the second jaws both sides The second right angle recess is offered respectively, and first right angle recess is corresponding with the second right angle recess and the size of the two is identical.

4. saltation layer equipment as claimed in claim 3, it is characterised in that the lower section of first right angle recess and described The first triangular notches, a right angle of first triangular notches are offered on first fixed block and the first movable block respectively Side is horizontally extending, and the hypotenuse of first triangular notches oliquely downward tilts, to make two the first triangular notches Opening it is relative；

The lower section of second right angle recess and the second triangle is offered respectively on second fixed block and the second movable block Shape recess, second triangular notches are corresponding with the first triangular notches and the size of the two is identical.

5. saltation layer equipment as claimed in claim 2, it is characterised in that first retaining mechanism includes the first rotation Handle, first swing handle are outward extended with the first straight-bar, and first straight-bar sequentially passes through the first fixed block and the first movable block, First straight-bar and the first fixed block rotation connection, first straight-bar are threadedly coupled with the first movable block；

Second retaining mechanism includes the second swing handle, and second swing handle is outward extended with the second straight-bar, and described second is straight Bar sequentially passes through the second movable block and the second fixed block, and the second straight-bar and the second fixed block rotation connection, described second is straight Bar is threadedly coupled with the second movable block.

6. saltation layer equipment as claimed in claim 1, it is characterised in that the elevating mechanism is adjusted provided with probe surplus Mechanism, the probe surplus governor motion include sleeve, and the top of the sleeve is screwed with plug, at the center of the plug It is equipped with expansion link, the upper end of the plug is provided with regulation ring, and the regulation ring is sheathed on expansion link, at the top of the regulation ring Edge is provided with relative the first projection and the second projection, extends from the bottom of the first projection to the top of the second projection and is formed Have first slope, from the bottom of the second projection to the top of the first projection extend and formed with the second slope, on the expansion link A pin vertically is equipped with, the both ends of the pin are overlapped in first slope and the second slope respectively, under the expansion link Hold to extending within sleeve, and the lower end of the expansion link is provided with the chuck for being used for fixing probe, and bullet is arranged with the expansion link Spring, the spring are connected between chuck and plug, and the upper end of the chuck is located in sleeve, and the sidepiece of the chuck is opened Provided with the slit extended vertically, banking pin is equipped with the sleeve, the banking pin rotates the regulation ring in slit When, the first slope and the second slope driving pin and expansion link lift, to adjust chuck with banking pin in vertical direction Relative travel.

7. saltation layer equipment as claimed in claim 1, it is characterised in that the translation mechanism includes is fixed on bottom parallel Two Y-axis slide bars on seat, two Y-axis slide bars both pass through and are slidably connected to a Y-axis sliding block, solid parallel on the Y-axis sliding block Surely there are two X-axis slide bars, two X-axis slide bars are both passed through and are slidably connected to an X-axis slide block, and the top of the X-axis slide block is fixed There is microscope carrier, the microscope carrier is used to carry clamp assembly, and the sidepiece of the base is provided with rocking bar, and it is universal that the microscope carrier is provided with first Bearing, the sidepiece of the base are provided with the second universal bearing, and the rocking bar sequentially passes through the first universal bearing and the second universal drive shaft Hold, drive microscope carrier to be translated along X-axis and/or Y direction by the rocking bar.

8. saltation layer equipment as claimed in claim 7, it is characterised in that also include a push rod, the push rod is worn successively Cross and be screwed together in microscope carrier and X-axis slide block, make the lower end of push rod abut or separate with Y-axis sliding block by screwing the push rod.

9. saltation layer equipment as claimed in claim 1, it is characterised in that the outside of the disc brake set is formed with reinforcement.