CN106767440A - Zip line length measuring mechanism - Google Patents

Abstract

The invention discloses a kind of zip line length measuring mechanism, it includes：Survey pedestal long；Preceding push cylinder long is surveyed, is fixed on the survey pedestal long, and with the horizontal forward cylinder axis for stretching out；Gripper cylinder long is surveyed, can be connected to slidingly back and forth on the survey pedestal long, and be arranged in the front side for surveying preceding push cylinder long, the drive end of survey gripper cylinder long is provided with the clamp assemblies of the steel cable part for clamping/unclamping zip line；Configuration block long is surveyed, is connected with the survey gripper cylinder long by rope, and pulling force backward is applied with to survey gripper cylinder long；Grating long is surveyed, is arranged at and is surveyed on pedestal long and corresponding with gripper cylinder long is surveyed, to measure the displacement of gripper cylinder long；Solution lock cylinder long is surveyed, it is connected with the steel cable Fastener on drag-line line positioning carrier, and the steel cable part of zip line is discharged to drive the steel cable Fastener to unlock.The length of quick detection drag-line line finished product is capable of in the mechanism, to judge whether zip line length meets the requirements.

Description

Zip line length measuring mechanism

Technical field

The present invention relates to zip line production equipment field, and in particular to a kind of zip line length measuring mechanism.

Background technology

, it is necessary to the zip line finished product that the zip line semi-finished product for coming are made certain specification will be purchased in actual production.Institute The zip line semi-finished product that buying comes typically each comprising steel cable and the sleeve pipe being enclosed within outside steel cable, are provided with bullet between sleeve pipe and steel wire Spring, steel cable two ends are passed outside sleeve pipe, and one end of steel cable is only provided with lead head.

In process of production, after drag-line line finished product is obtained in the good lead head of zip line other end die casting, it is desirable to examine Whether the length for surveying the drag-line line finished product meets the requirements, and the application comes therefrom.

The content of the invention

The present invention seeks to：Regarding to the issue above, a kind of zip line length measuring mechanism is proposed, is with the length for detecting drag-line line It is no up to standard.

The technical scheme is that：A kind of zip line length measuring mechanism, including：

Survey pedestal long；

Preceding push cylinder long is surveyed, it is fixed on the survey pedestal long, and with the horizontal forward cylinder axis for stretching out；

Survey gripper cylinder long, its can be connected to slidingly back and forth it is described survey on pedestal long, and be arranged in it is described survey it is long before The front side of push cylinder, the drive end of survey gripper cylinder long is provided with the clamping of the steel cable part for clamping/unclamping zip line Component；

Configuration block long is surveyed, it passes through rope and is connected with the survey gripper cylinder long, and applies oriented to surveying gripper cylinder long Pulling force afterwards；

Grating long is surveyed, it is arranged on survey pedestal long and corresponding with the survey gripper cylinder long, is grown to measure described survey The displacement of gripper cylinder；And

Solution lock cylinder long is surveyed, it is connected with the steel cable Fastener on drag-line line positioning carrier, to drive the steel cable card Tight part unblock and discharge the steel cable part of the zip line.

The present invention on the basis of above-mentioned technical proposal, also including following preferred scheme：

The clamp assemblies include：

The left grip block and right grip block for cooperating, the left grip block and right grip block are right along the first from left of X-direction one And column distribution, wherein being formed with left clamp port on left grip block, right grip block is formed with the right clamp port matched with left clamp port, left A guiding pin is formed with grip block and right grip block；And

The track block that can be moved up and down along Z-direction, is formed with two be distributed in splayed linear on the track block The guiding pin of oblique guiding groove, the left grip block and right grip block is slidably arranged at this two oblique guiding grooves respectively, so that Drive the left grip block and right grip block mutual along X-direction in moving up and down for Z-direction by means of the track block Away from/close to each other；

The cylinder axis of the fixed length gripper cylinder are connected with the track block, to drive the track block in Z-direction Lower movement.

The cylinder axis of the fixed length gripper cylinder stretch out straight down, and the lower end connection one of the cylinder axis has T fonts The sliding block in section, the track block top sets one has the chute in T fonts section, and the sliding block can be along Y direction slidably It is embedded in the chute.

The clamp assemblies also include being fixed on the fixed length gripper cylinder and with the bootstrap block for being oriented to inside groove, institute State left grip block, right grip block and track block and slide and be embedded in the guiding inside groove of the bootstrap block, to guide the left clamping The rectilinear movement of block, right grip block and track block.

The left clamp port and right clamp port are circular arc recess.

It is an advantage of the invention that：The length of quick detection drag-line line finished product is capable of in this mechanism of the present invention, to judge zip Whether line length meets the requirements.

Brief description of the drawings

Of the invention above-mentioned and/or additional aspect and advantage will become from description of the accompanying drawings below to embodiment is combined Substantially and be readily appreciated that, wherein：

Fig. 1 is the overall structure diagram of zip line automatic assembly line in the embodiment of the present invention；

Fig. 2 is the structural representation of positioning carrier in the embodiment of the present invention；

Fig. 3 is the structural representation of fixed length locked mechanism in the embodiment of the present invention；

Fig. 4 is the dimensional structure diagram of clamp assemblies on fixed length gripper cylinder in the embodiment of the present invention；

Fig. 5 is the side view of clamp assemblies on fixed length gripper cylinder in the embodiment of the present invention；

Fig. 6 is the internal structure schematic diagram of clamp assemblies on fixed length gripper cylinder in the embodiment of the present invention；

Fig. 7 is the dimensional structure diagram of cutting mechanism in the embodiment of the present invention；

Fig. 8 is the partial structural diagram of cutting mechanism in the embodiment of the present invention；

Fig. 9 is the dimensional structure diagram of turk mechanism in the embodiment of the present invention；

Figure 10 is the front view of turk mechanism in the embodiment of the present invention；

Figure 11 is the top view of turk mechanism in the embodiment of the present invention；

Figure 12 is the dimensional structure diagram of length measuring mechanism in the embodiment of the present invention；

Figure 13 is the structural representation of lead head coupling mechanism force mechanism for testing in the embodiment of the present invention；

Wherein：1- frames, 2- line slideways, 3- positioning carriers, 4- fixed length locked mechanisms, 5- cutting mechanisms, 6- pattern marking machines Structure, 7- length measuring mechanisms, 8- Qian Tou die casting mechanism, 9- lead head coupling mechanism force mechanism for testing, 10- discharging mechanisms, 11- material fetching mechanisms, A- Zip line, the sleeve part of A1- zip lines, the steel cable part of A2- zip lines；

301- carrier pedestals, 302- screw mandrels, 303- regulation locating pieces, 303a sleeve pipe draw-in grooves, 304- steel cable holders ,-draw Pilot pin clamping is raised, the standing grooves of 305- first, the standing grooves of 306- second, the standing grooves of 307- the 3rd；

Push cylinder before 401- fixed length, 402- fixed length balancing weights, 403- fixed length gripper cylinders, 403a- sliding blocks, 404- fixed length solutions Lock cylinder, 405- fixed length locking cylinder, 406- fixed length pedestals, the left grip blocks of 407-, the right grip blocks of 408-, 409- track blocks, The oblique guiding grooves of 409a-, 409b- chutes, 400- bootstrap blocks；

501- cuts pedestal, and 502- cuts lower knife, and 503- cuts upper slitter, and 504- cuts push cylinder, and 505- cuts and pushes Cylinder；

601- turk pedestals, grip block under 602- turks, grip block in 603- turks, push cylinder in 604- turks, 605- Turk lower air cylinder, 606- turk heads, 607- turk cylinders；

701- surveys pedestal long, and 702- surveys preceding push cylinder long, and 703- surveys gripper cylinder long, and 704- surveys configuration block long, and 705- is surveyed Grating long, 706- surveys solution lock cylinder long.

Specific embodiment

It is below in conjunction with the accompanying drawings and specific real in order to be more clearly understood that the above objects, features and advantages of the present invention Mode is applied to be further described in detail the present invention.It should be understood that these embodiments are not limited to for illustrating the present invention Limitation the scope of the present invention.The implementation condition used in embodiment can do further adjustment according to the condition of specific producer, not Dated implementation condition is usually the condition in normal experiment.Elaborate many details in order to fill in the following description The sub-argument solution present invention, but, the present invention can also be different from other modes described here to implement using other, therefore, this The protection domain of invention is not limited by following public specific embodiment.

In the description of this specification, term " connection ", " installation ", " fixation " etc. all should be interpreted broadly.For example, " even Connect " can make to be fixedly connected, or be detachably connected, or be integrally connected；Can make to be joined directly together, or pass through Intermediate media are indirectly connected to.For the ordinary skill in the art, can as the case may be understand that above-mentioned term exists Concrete meaning in the present invention.

In the description of this specification, term " on ", the orientation of the instruction such as D score or position relationship be based on shown in accompanying drawing Orientation or position relationship, be for only for ease of the description present invention and simplify and describe, rather than indicating or imply signified device Or unit must be with specific direction, with specific azimuth configuration and operation, it is thus impossible to be interpreted as to limit of the invention System.

Fig. 1 is a kind of structural representation of zip line automatic assembly line, and it includes frame 1.It is provided with along water in the frame 1 Square to the line slideway 2 for extending laterally, the positioning carrier 3 for positioning zip line A is slidably connected on the line slideway 2 (or zip line positioning carrier).It is additionally provided with what is be sequentially distributed along the length direction of line slideway 2 in frame 1：Fixed length is locked Gu mechanism 4 (or zip line fixed length locked mechanism), cutting mechanism 5 (or zip line cutting mechanism), turk mechanism 6 (or Zip line turk mechanism), Qian Tou die casting mechanism 8 (or zip Xian Qiantou die casting mechanism), lead head coupling mechanism force mechanism for testing 9 (or Claim zip line lead head coupling mechanism force mechanism for testing), length measuring mechanism 7 (or zip line length measuring mechanism), material fetching mechanism 11 and discharging machine Structure 10.Wherein, fixed length locked mechanism 4 is used to be locked the zip line A on positioning carrier 3 according to regular length.Guillotine Structure 5 is used to for zip line A to cut cutting according to preset length.Turk mechanism 6 is used to make at turk zip line A steel cables part Reason, so that the lead head of postorder die casting can be combined preferably with the steel cable part A2 of zip line.Qian Tou die casting mechanism 8 is used to draw The end die casting lead head of the steel cable part A2 of locking wire.Lead head coupling mechanism force mechanism for testing 9 is used to test the combination of lead head and zip line Whether power is up to standard.Whether length measuring mechanism 7 is used for the processed zip line A length of measurement qualified.Material fetching mechanism 11 is grown in by survey Zip line A at mechanism 7 is picked and placeed to discharging mechanism 10.Discharging mechanism 10 is used to transfer out the zip line A after processing, this reality Apply in example, the discharging mechanism 10 is the revolution transmission belt with locating groove, the material fetching mechanism 11 is manipulator.

Shown in reference picture 2, in the present embodiment, above-mentioned positioning carrier 3 includes：Carrier pedestal 301, screw mandrel 302, motor (being not drawn into figure), regulation locating piece 303 and steel cable holder 304.Wherein：

Carrier pedestal 301 is slidably connected on aforesaid rectilinear guide rail 2, and it can move linearly along line slideway 2.

Screw mandrel 302 is pivotably attached on carrier pedestal 301.

Motor is connected with screw mandrel 302, to drive the screw mandrel to be moved pivotally around own axes.

Regulation locating piece 303 coordinates with the screw thread of screw mandrel 302, so that when screw mandrel 302 moves pivotally around own axes When, regulation locating piece 303 can be moved axially relative to screw mandrel 302.And be formed with for axial clamping on the regulation locating piece 303 The sleeve pipe draw-in groove 303a of the sleeve portion A1 of zip line A.In order to ensure adjust locating piece 303 along screw mandrel 302 move axially it is steady It is qualitative, the present embodiment be provided with carrier pedestal 301 with two second straight line guide rails of the parallel distribution of screw mandrel 302 (in figure not Mark), regulation two second straight line slides of locating piece 303 and this are connected.

Steel cable holder 304 is used for the steel cable part A2 of axial grip zip line A.

Additionally, the positioning carrier 3 also includes the first standing groove 305, the second standing groove that are arranged on carrier pedestal 301 306 and the 3rd standing groove 307, and first standing groove 305, sleeve pipe draw-in groove 303a, the second standing groove 306, steel cable clamp The standing groove 307 of part 304 and the 3rd is linearly spaced apart successively.

As shown in Fig. 2 the structure ten of steel cable holder on above-mentioned positioning carrier and clamp assemblies on fixed length gripper cylinder Like (can refer to Fig. 3), it includes split-phase：Left grip block, right grip block, track block and guiding pin card are tightly raised.Wherein：

Left grip block and right grip block cooperate and the two is along the right simultaneously column distribution of the first from left of X-direction one, while the two Can be moved left and right along X-direction relative to carrier pedestal 301, a guiding pin is formed with left grip block and right grip block.

What track block can be moved forward and backward along Y direction, two be distributed in splayed are formed with the track block linear The guiding pin of oblique guiding groove, the left grip block and right clamp port is slidably arranged at this two oblique guiding grooves respectively, so that By means of track block the movable of Y direction drive the left grip block and right grip block be located remotely from each other along X-direction/ It is close to each other, so realize the clamping/release to zip line.

The tight projection of guiding pin card is provided with to be provided with two, and each tight projection of guiding pin card altogether and matches with guiding pin The lead-in chamfered of conjunction, and the clamping projection be relatively fixed with carrier pedestal 301.When two guiding pins are tightly convex across guiding pin card The lead-in chamfered that rises and when being stuck in the tight raised inner side of two guiding pin cards, left grip block and right grip block are maintained at close to each other Clamped condition, now its can maintain the clamping force to zip line；Guide pin 4078 tightly convex across guiding pin card when two The lead-in chamfered that rises and when being stuck in the tight raised outside of two guiding pin cards, left grip block and right grip block are maintained at and are located remotely from each other Releasing orientation, to facilitate operator that zip line is put between left grip block and right grip block.

During practical application, the left grip block and right grip block of steel cable holder are in released state under original state, manually By raw material zip line A be placed on the first standing groove 305 of positioning carrier 3, the second standing groove 306, the 3rd standing groove 307, with And between left grip block and right grip block, and make the sleeve portion A1 clamp of zip line A in sleeve pipe draw-in groove 303a, make zip line A Primary Locations.The track block for promoting steel cable holder by external impetus equipment (the present embodiment is cylinder) is moved, and makes left clamping Block and right grip block are close to each other, so as to by the steel cable part A2 of zip line A be clamped fix, and now two guiding pin across Cross the tight raised lead-in chamfered of guiding pin card and be stuck in the tight raised inner side of two guiding pin cards, left grip block and right grip block are protected Hold in clamped condition close to each other, so as to maintain the clamping force to zip line.

It can be seen that, the effect of the first standing groove 305, the second standing groove 306 and the 3rd standing groove 307 is essentially consisted in zip line A Primary Location is carried out, prevents it from vibration is bent on positioning carrier.

The structure of the fixed length locked mechanism 4 in the present embodiment can refer to shown in Fig. 3, and it includes：It is fixed length pedestal 406, fixed Gripper cylinder long 403, fixed length solution lock cylinder 404, fixed length locking cylinder 405, fixed length balancing weight 402 and push cylinder 401 before fixed length. Wherein：

Fixed length pedestal 406 is tightly fixed in frame 1 by bolt lock.

Push cylinder 401 is fixed on fixed length pedestal 406 before fixed length, and it has the horizontal forward cylinder axis for stretching out.

Fixed length gripper cylinder 403 can be connected on the fixed length pedestal slidingly back and forth, and the fixed length gripper cylinder cloth Put the front side of the push cylinder before the fixed length.The drive end of fixed length gripper cylinder is provided with for clamping/unclamping the zip line A Steel cable part A2 clamp assemblies.

Fixed length balancing weight 402 is connected by rope with fixed length gripper cylinder, and fixed length gripper cylinder is applied with backward Pulling force.

Fixed length solution lock cylinder 404 is connected with above-mentioned steel cable Fastener (the steel cable Fastener i.e. on positioning carrier), with Drive the steel cable Fastener to unlock and discharge the steel cable part A2 of the zip line A.

Fixed length locking cylinder 405 is connected with above-mentioned steel cable Fastener, to drive the steel cable Fastener to clamp the drawing The steel cable part A2 of locking wire A.

During work, zip line A is delivered to the position of fixed length locked mechanism 4 by positioning carrier.Push cylinder 401 is forward before fixed length Promote fixed length gripper cylinder 403 to test station.Fixed length gripper cylinder 403 is acted and passes through the clamp assemblies for setting thereon Clamp the steel cable part of zip line.The action of fixed length solution lock cylinder 404 unlocks steel cable holder on positioning carrier, unclamps zip line Steel cable part.Push cylinder 401 is retreated to original position before fixed length, and fixed length gripper cylinder 403 is active.The survey of standard weights Configuration block long 402 pulls fixed length gripper cylinder 403 to be moved rearwards by by drawstring, the zip clamped by fixed length gripper cylinder 403 Line is moved also with after the synchronization of fixed length gripper cylinder 403.Because the weight for surveying configuration block 402 long is fixed, therefore its drawing to zip line Power is always fixed value, and the axial stress that zip line is subject to is fixed, and fixed length locking cylinder 405 is acted and makes positioning carrier after stabilization Upper steel cable holder is in locking state, and the steel cable part of zip line is locked on positioning carrier again, is that follow-up fixed length is cut out Cut processing ready.

The fixed length locked mechanism 4, following length measuring mechanisms 7 and following lead head coupling mechanism force mechanism for testing 9, the structure type of three It is similar, cross-referenced can understand.

The clamp assemblies that the above-mentioned drive end of fixed length gripper cylinder 403 is set, its concrete structure can refer to shown in Fig. 4-Fig. 6, It mainly includes：Left grip block 407, right grip block 408 and track block 409.Wherein：

Left grip block 407 and right grip block 408 are along the right simultaneously column distribution of the first from left of X-direction one, and the two can be relative Moved left and right along X-direction in the carrier pedestal 301, wherein being formed with left clamp port 407a, right grip block on left grip block 407 408 are formed with the right clamp port 408a matched with left clamp port, and a guiding is formed with left grip block 407 and right grip block 408 Pin 4078.Left clamp port 407a and right clamp port 408a are circular arc recess.

Track block 409 can be moved up and down relative to fixed length gripper cylinder 403 along Z-direction, be formed with the track block 409 and be in The guiding pin of two linear oblique guiding groove 409a of splayed distribution, the left grip block 407 and right grip block 408 4078 are slidably arranged at this two oblique guiding groove 409a respectively, so that by means of the track block 409 in the upper and lower of Z-direction It is mobile and drive the left grip block 407 and right grip block 408 be located remotely from each other along X-direction/it is close to each other.

The cylinder axis of fixed length gripper cylinder 403 are connected with the track block 409, to drive track block 409 in Z-direction Lower movement.

The cylinder axis of the fixed length gripper cylinder 403 stretch out straight down, and the lower end connection one of the cylinder axis has T words The sliding block 403a in type section, the top of the track block 409 sets one has the chute 409a in T fonts section, and sliding block 403a can be along Y Direction of principal axis is slidably embedded in chute 409a.

The steel cable holder 304 also includes being fixed on fixed length gripper cylinder 403 and with the bootstrap block for being oriented to inside groove 400, the left grip block 407, right grip block 408 and track block 409 slide the guiding inside groove for being embedded at the bootstrap block 400 In, to guide the left grip block 407, right grip block 408 and the rectilinear movement of track block 409.

Shown in reference picture 7 and Fig. 8, the cutting mechanism 5 of this implementation includes：Pedestal 501 is cut, lower knife 502 is cut, is cut Knife 503, cut push cylinder 504 and cut lower air cylinder 505.Wherein：

Pedestal 501 is cut to be locked in frame 1 by bolt.

Cut lower knife 502 and cut the next upper arrangement of upper slitter 503 1 and mutual cooperation, to complete to zip line A's jointly Steel cable part A2 carries out cutting treatment.

Cut push cylinder 504 and be fixed on and cut on pedestal 501, and be connected with lower knife 502 is cut, cut with driving Lower knife 502 is moved up.

Cut lower air cylinder 505 and be fixed on and cut on pedestal 501, and be connected with upper slitter 503 is cut, cut with driving Upper slitter 503 is moved down.

In order to ensure that above-mentioned cutting and cuts stability of the upper slitter 503 during moving up and down, the present embodiment at lower knife 502 Lower knife 502 will be cut and is slidably connected by the vertical line slideway for extending with pedestal 502 is cut, at the same will cut upper slitter 503 with Pedestal 502 is cut to be slidably connected also by the vertical line slideway for extending.

During work, zip line A is transported to the station of cutting mechanism 5 by positioning carrier, and the steel cable part of zip line is just It is moved to the position between cutting lower knife 502 and cutting upper slitter 503.Cut the drive of push cylinder 504 and cut the shifting upwards of lower knife 502 It is dynamic, and cut lower air cylinder 505 and drive and cut upper slitter 503 and move down, so as to the steel cable part to zip line cuts.

To shown in Figure 11, the turk mechanism of this implementation includes reference picture 9：Grip block 602 under turk pedestal 601, turk, beat Take push cylinder 604 on grip block 603, turk, turk lower air cylinder 605, turk first 606 and turk cylinder 607.Wherein：

Turk pedestal 601 is locked in frame 1 by bolt.

The next upper arrangement of grip block 603 1 and mutual cooperation in grip block 602 and turk under turk, are completed to drawing with common The steel cable part A2's of locking wire A grips.

Push cylinder 604 is fixed on turk pedestal 601 in turk, and is connected with grip block under turk 602, to drive Grip block 602 is moved up under turk.

Turk lower air cylinder 605 is fixed on turk pedestal 601, and is connected with grip block in turk 603, to drive Grip block 603 is moved down in turk.

Turk first 606 is connected with turk cylinder 607, first 606 action of turk is driven by turk cylinder 607, with to zip Make turk treatment in the end of the steel cable part A2 of line A.

During work, zip line A is transported to the station of turk mechanism 6 by positioning carrier, and the steel cable part of zip line is just It is moved to the position on grip block 602 and turk between grip block 603 under turk.Push cylinder 604 is pressed from both sides under driving turk in turk Block 602 is held to move up, and turk lower air cylinder 605 drives grip block 603 in turk to move down, so as to by zip wire clamp Tightly.Turk cylinder 607 drives first 606 action of turk and makees turk to the steel cable part of zip line by turk head and process afterwards.

In order to ensure under above-mentioned turk the clamping stability of grip block 603 on grip block 602 and turk to zip line, while Structure is destroyed when preventing zip line grip block 603 being clamped on by grip block under turk 602 and turk, and the present embodiment is being beaten Spend the circular arc holding tank for being provided with grip block 603 in lower grip block 602 and turk and being cooperated.

Shown in reference picture 12, the length measuring mechanism 7 of this implementation includes：Pedestal long 701 is surveyed, preceding push cylinder 702 long is surveyed, is surveyed folder long Cylinder 703 is held, configuration block 704 long is surveyed, survey grating 705 long and is surveyed solution lock cylinder 706 long.Wherein：

Pedestal long 701 is surveyed to be tightly fixed in frame 1 by bolt lock.

Preceding push cylinder 702 long is surveyed to be fixed on survey pedestal 701 long, and it has the horizontal forward cylinder axis for stretching out.

Gas is pushed away before surveying gripper cylinder long 703 can be connected on survey pedestal 701 long slidingly back and forth, and it is arranged in survey length The cylinder axis front side of cylinder 702, the drive end of survey gripper cylinder 702 long is provided with the steel cable portion for clamping/unclamping zip line A Divide the clamp assemblies of A2.The structure of clamp assemblies and clamp assemblies on above-mentioned fixed length gripper cylinder on survey gripper cylinder 703 long Structure it is identical, will not be repeated here.

Survey configuration block long 704 to be connected with gripper cylinder 703 long is surveyed by rope, and be applied with to surveying gripper cylinder 703 long Pulling force backward.

Survey grating long 705 and be arranged at described survey on pedestal 701 long and (survey clamping long corresponding with gripper cylinder 703 long is surveyed It is mounted with cylinder 703 and surveys the optical element that grating 705 long is matched), to measure the displacement of gripper cylinder long 703.It is more popular Ground says, and surveying grating long has the movable part that cooperates and not moving part, wherein not on moving part survey pedestal 701 long, movable part setting In on survey gripper cylinder 703 long.

Survey solution lock cylinder 706 long to be connected with the steel cable Fastener on positioning carrier, to drive the steel cable Fastener solution Lock and discharge the steel cable part A2 of zip line A.Specifically, solution lock cylinder 706 long is surveyed to be passed with the track block 409 of steel cable Fastener Dynamic connection, during work, surveying solution lock cylinder 706 long can drive track block 409 to be moved backward along Y direction, make left grip block 407 It is located remotely from each other with right grip block 408, discharges the steel cable part A2 of the zip line A.

During work, survey preceding push cylinder 702 long and promote survey gripper cylinder 703 long to test station forward, survey gripper cylinder long 703 actions clamp zip line.Surveying solution lock cylinder 706 action long unclamps steel cable holder on positioning carrier.Gas is pushed away before surveying length Cylinder 702 is retreated to original position, is surveyed gripper cylinder 703 long and is active.Survey configuration block long 704 and survey clamping long is pulled by drawstring Cylinder 703 is moved rearwards by, the zip line that tested gripper cylinder long 703 is clamped also with being moved after surveying gripper cylinder 703 long synchronization, Survey grating long 705 and sense and detect the displacement for surveying gripper cylinder 703 long, and then judge whether zip line length is qualified.

As shown in figure 13, it includes the structure of above-mentioned lead head coupling mechanism force mechanism for testing 9：Coupling mechanism force Test bench 906, locking Power test pull back cylinder 901, coupling mechanism force test gripper cylinder 903, coupling mechanism force test solution lock cylinder 904 and coupling mechanism force test locking Cylinder 905.Wherein：

Coupling mechanism force Test bench 906 is tightly fixed in frame 1 by bolt lock.

Coupling mechanism force is tested cylinder 901 of pulling back and is fixed on coupling mechanism force Test bench 906, and it has the gas for protruding horizontally up Cylinder shaft.

Coupling mechanism force test gripper cylinder 903 can be connected on coupling mechanism force Test bench 906 slidingly back and forth, and the locking Power test gripper cylinder 903 is connected by the cylinder axis that pulling force sensor 902 tests cylinder 901 of pulling back with coupling mechanism force.Coupling mechanism force The drive end for testing gripper cylinder 903 to be provided with and (at this described " clamping ", do not mean that itself and zip for clamping/unclamp The complete locking in steel cable part of line, and refer to zip line steel cable part without departing from the clamp assemblies simultaneously loose fit, Specifically see below) clamp assemblies of the steel cable part A2 of the zip line A.Here clamp assemblies and above-mentioned fixed length locked mechanism Clamp assemblies there is identical structure, difference is that the clamp assemblies of the lead head coupling mechanism force mechanism for testing 9 draw in clamping During locking wire, it is loose fit with the steel cable part of zip line, and the steel cable of the clamp assemblies of fixed length locked mechanism and zip line Part is immovable fitting.This can be realized by adjusting the structure of left and right grip block.

Coupling mechanism force test solution lock cylinder 904 is connected with the steel cable Fastener on above-mentioned positioning carrier, to drive the steel The unblock of rope Fastener and discharge the steel cable part A2 of the zip line A.

Coupling mechanism force test locking cylinder 905 is connected with the steel cable Fastener on above-mentioned positioning carrier, to drive the steel Rope Fastener clamps the steel cable part A2 of zip line A.

Specifically, above-mentioned coupling mechanism force test solution lock cylinder 904 is driven with the track block of steel cable Fastener on positioning carrier Connection, to drive track block positive mobile along Y direction, so that left grip block and right grip block are located remotely from each other, so drives Move the steel cable part A2 that steel cable Fastener is unlocked and discharges zip line A.Coupling mechanism force test locking cylinder 905 and steel cable Fastener Track block is connected, and to drive track block to be moved backward along Y direction, the left grip block and right grip block is mutually leaned on Closely, the steel cable Fastener is so driven to clamp the steel cable part A2 of zip line A.

During work, zip line A (the now other end of the zip line lead head via the die casting of above-mentioned Qian Tou die casting mechanism 8, I.e. the two ends of zip line carry lead head) position of lock clamp force mechanism for testing 9, coupling mechanism force test solution are delivered to by positioning carrier The action of lock cylinder 904 unlocks steel cable holder on positioning carrier, unclamps the steel cable part of zip line.Coupling mechanism force test clamping gas Cylinder 903 acts and passes through steel cable part (attention, now coupling mechanism force test that the clamp assemblies for setting thereon clamp zip line Clamp assemblies on gripper cylinder 903 are not dead to folder by zip line footpath, and the two is loose fit；Test gripper cylinder 903 On clamp assemblies can be moved axially relative to zip line).Coupling mechanism force is tested cylinder 901 of pulling back and pulls back coupling mechanism force test clip Cylinder 903 is held, after the clamp assemblies on test gripper cylinder 903 move axially to be in contact with lead head along zip line, test Clamp assemblies on gripper cylinder 903 will apply certain axial tension to zip line A.When display on pulling force sensor 902 Force value when reaching preset value, do not come off from zip line through the lead head of the die casting of Qian Tou die casting mechanism 8, then illustrate lead head and drawing The coupling mechanism force (adhesion) of locking wire reaches requirement.Coupling mechanism force test locking cylinder 905 is acted and clamps steel cable on positioning carrier Part is in locking state, and the steel cable part of zip line is locked on positioning carrier again.

It is not difficult to find out from above, this zip line of the present embodiment automatically generates line and employs a kind of very cleverly zip wire clamp Mechanism is held, i.e., what is set on above-mentioned fixed length gripper cylinder 403, survey gripper cylinder 703 long and coupling mechanism force test gripper cylinder 903 is upper State clamping device.Obviously, above-mentioned fixed length gripper cylinder 403, survey gripper cylinder 703 long and coupling mechanism force test gripper cylinder 903 are equal It is the power source of the zip line clamping device, it is drive cylinder that might as well be referred to as (i.e. foregoing three cylinders).This zip wire clamp is held The rectilinear movement of drive cylinder can be converted into the relative movement of left and right grip block for mechanism, and then realize the clamping to zip line And release, it is very ingenious.

Certainly, the above embodiments merely illustrate the technical concept and features of the present invention, its object is to make people much of that Solution present disclosure is simultaneously implemented according to this, and it is not intended to limit the scope of the present invention.It is all according to major technique of the present invention Equivalent transformation or modification that the Spirit Essence of scheme is done, should all be included within the scope of the present invention.

Claims (5)

1. a kind of zip line length measuring mechanism, it is characterised in that including：

Survey pedestal long (701)；

Preceding push cylinder (702) long is surveyed, it is fixed on the survey pedestal long, and with the horizontal forward cylinder axis for stretching out；

Gripper cylinder long (703) is surveyed, it can be connected on the survey pedestal (701) long slidingly back and forth, and be arranged in described The front side of preceding push cylinder (702) long is surveyed, the drive end of survey gripper cylinder long (702) is provided with for clamping/unclamping zip line (A) clamp assemblies of steel cable part (A2)；

Configuration block long (704) is surveyed, it passes through rope and is connected with the survey gripper cylinder (703) long, and to surveying gripper cylinder long (703) it is applied with pulling force backward；

Grating long (705) is surveyed, it is arranged on survey pedestal (701) long and corresponding with the survey gripper cylinder (703) long, to survey The amount displacement for surveying gripper cylinder (703) long；And

Solution lock cylinder (706) long is surveyed, it is connected with the steel cable Fastener on drag-line line positioning carrier, to drive the steel cable card Tight part unblock and discharge the steel cable part (A2) of zip line (A).

2. zip line length measuring mechanism according to claim 1, it is characterised in that the clamp assemblies include：

The left grip block and right grip block for cooperating, the left grip block and right grip block are right side by side along the first from left of X-direction one Distribution, wherein being formed with left clamp port on left grip block, right grip block is formed with the right clamp port matched with left clamp port, left clamping A guiding pin is formed with block and right grip block；And

The track block that can be moved up and down along Z-direction, is formed with two be distributed in splayed linear oblique on the track block The guiding pin of guiding groove, the left grip block and right grip block is slidably arranged at this two oblique guiding grooves respectively, so that by In the track block moving up and down for Z-direction drive the left grip block and right grip block be located remotely from each other along X-direction/ It is close to each other；

The cylinder axis of the fixed length gripper cylinder are connected with the track block, to drive the track block to be moved down in Z-direction It is dynamic.

3. zip line length measuring mechanism according to claim 2, it is characterised in that the cylinder axis of the fixed length gripper cylinder are erected Directly extend downwardly from, and the lower end of the cylinder axis connects a sliding block with T fonts section, the track block top sets one to be had The chute in T fonts section, the sliding block can be slidably embedded in the chute along Y direction.

4. zip line length measuring mechanism according to claim 3, it is characterised in that the clamp assemblies also include being fixed on institute State on fixed length gripper cylinder and with the bootstrap block for being oriented to inside groove, the left grip block, right grip block and track block slide embedding In the guiding inside groove of the bootstrap block, to guide the left grip block, right grip block and the rectilinear movement of track block.

5. zip line length measuring mechanism according to claim 4, it is characterised in that the left clamp port and right clamp port are Circular arc recess.