CN206804457U - A kind of fabric arch camber analogue means - Google Patents

Abstract

This application discloses a kind of fabric arch camber analogue means, the device includes simulation limb arm and bending set mechanism；The segment of protuberance outside the first simulation limb and the second simulation limb that simulation limb arm includes mutually being rotatablely connected and the simulation joint between them；Bending set mechanism includes base, the slide rail being fixed on base, one group or two groups of sliding blocks being slidably mounted on slide rail and the corresponding sliding block fixing mechanism that can be fixed on sliding block on slide rail；At least one outboard end of limb arm is simulated, be rotatably connected the sliding block；Another outboard end another sliding block that is rotatably connected of simulation limb arm is either fixedly connected on base or slide rail in a rotatable manner.The device can truly simulation human body limb shoulder joint and its flexure operation.Disclosed herein as well is a kind of fabric arch camber Tachistoscope device, the device fixes test specimens after arch camber with can keeping stretching, extension and not be stretched, can reduce test error equipped with the specimen holder for agreeing with structure.

Description

A kind of fabric arch camber analogue means

Technical field

The application is related to garment material performance test field, and in particular to a kind of fabric arch camber analogue means.The application is same When be related to a kind of fabric arch camber Tachistoscope device.

Background technology

Arch camber is a kind of common alteration phenomenon in clothes wearing process, be garment material for adapt to the lasting of human body or Change and a kind of caused permanent deformation repeatedly, generally occur, at positions such as the big knee of movable amplitude, elbows, to be bent for a long time Qu Zuoyong, cause the fabric at these positions to produce arch camber metaboly, not only have a strong impact on the outward appearance wears effect of clothes, also drop Its low service life.

Existing fabric simulation arch camber device is made up of simulation arm and bending fixing device, simulation arm by wooden shot and with The preceding wooden stick and rear wooden stick that wooden shot is connected by spring are formed；Arm outer layer covers cotton is simulated, cotton outer layer has wrapped up again to be knitted Cloth；Bending fixing device is used to bend fixed-analog arm, and surrounding baffle plate is rotatablely connected by screw and nut by U-shaped lever arm Form, rear wooden stick is placed in surrounding baffle plate, and preceding wooden stick is put into U type lever arms.The fabric simulates the simulation arm of arch camber device There is no special ancon, human body axis joint can not be simulated completely, the bending fixing device of fabric simulation arch camber device is being bent When simulating arm, the swing of one of wooden stick can't drive the swing of another wooden stick, and human body arm is in small arm swing When large arm can be driven to rotate, vice versa, differs larger with human body arm actual flexion situation, can not simulate completely human body elbow pass The bending situation of section.Using the fabric simulation arch camber device simulation arch camber is carried out to fabric sample, will cause its arch camber degree without Method truly reflects the garment material arch camber degree of elbow joint.

Existing fabric arch camber Tachistoscope device is not equipped with the specimen holder for fixing sample, during test, only It is simply to be laid flat the test specimens after arch camber, because sample without fixation, sample some places is easily in non-stretched state, These non-stretched places are also mistakened as making arch camber deformation during test to measure together, so as to cause test result error larger, shadow Ring the degree of accuracy of test.

Utility model content

The application provides a kind of fabric arch camber analogue means, to solve existing for prior art due to that can not simulate people completely Body limb shoulder joint and its flexure operation are so as to causing the arch camber using its progress can not truly reflect at human body limb shoulder joint and must take The problem of filling fabric arch camber degree.The application provides a kind of fabric arch camber Tachistoscope device in addition, big to solve test error The problem of.

The application provides a kind of fabric arch camber analogue means, including：Simulate limb arm and bending set mechanism；

The simulation limb arm includes the first simulation limb being mutually flexibly connected and the second simulation limb, the first simulation limb arm The segment of simulation joint outside bulge, the first simulation limb arm and described second are provided between the second simulation limb arm Simulate limb arm to be flexibly connected, the first simulation limb arm and the second simulation limb arm can be using the active connection places as rotation Axle realizes stretching, extension or bending；

The bending set mechanism includes the sliding block fixing mechanism that base, slide rail, sliding block and corresponding sliding block are set；The cunning Rail is fixed on base；The sliding block is slidably mounted on the slide rail；The sliding block can be fixed by the sliding block Mechanism is fixed on the slide rail；

At least one outboard end of the simulation limb arm, be rotatably connected the sliding block；Other the one of the simulation limb arm Individual outboard end another sliding block that is rotatably connected either is fixedly connected on the base or slide rail in a rotatable manner.

Preferably, the simulation limb arm is simulated leg, and the first simulation limb is simulation shank, and the second simulation limb is Thigh is simulated, the rotation connection is directly to be rotatablely connected for the simulation thigh and simulation shank, and the segment is arranged at institute The upper end of simulation shank is stated, for simulating protuberance outside knee joint.

Preferably, the simulation thigh is the irregular cylinder of simulation real human body thigh；And/or the simulation shank is Simulate the irregular cylinder of real human body shank.

Preferably, the lower end of the simulation thigh offers U-shaped link slot, and the upper end of the simulation shank is described in correspondence The position of U-shaped link slot ledge offers the concave station mutually agreed with the U-shaped link slot ledge, and is offered on the segment First through hole along its basal diameter perpendicular to the ledge, accordingly, the ledge is provided with corresponding with the first through hole Connecting hole, by through the first through hole and the connecting rod of the connecting hole by the lower end of the simulation thigh and the mould Intend shank upper end to be mutually rotatablely connected.

Preferably, it is provided with the fixed slide rail on the base and along the outboard end glide direction of the simulated leg Side plate, the length direction of the slide rail are identical with the outboard end glide direction of the simulated leg.

Preferably, the slide rail is marked with scale, for representing the angle of bend of the simulated leg.

Preferably, the sliding block is provided with the sliding eye to match with the slide rail；The sliding block is slidably mounted in Specifically, the slide rail is slidably connected through the sliding eye with the sliding block on the slide rail.

Preferably, the bending set mechanism is to include two groups of bending of slide block set mechanisms；The slide rail is two, described Every group of sliding block includes corresponding to two sliding blocks that each slide rail is set respectively；The lower end of the simulation shank, is rotatably connected described First group of sliding block in two groups of sliding blocks；Second group of cunning that the upper end of the simulation thigh is rotatably connected in two groups of sliding blocks Block.

Preferably, offer along the center line of the given cross-sectional close to the simulation shank lower end and put down with the first through hole The second capable through hole；Offered on the sliding block close to first group of sliding block of the simulation shank glide direction both sides with First connecting hole corresponding to second lead to the hole site, first group of sliding block run through second through hole by head rod And insert respectively in relative first connecting hole, realize that the simulation shank connects with the rotatable of first group of sliding block Connect.

Preferably, center line of the simulation thigh along the given cross-sectional close to its upper end offers and the first through hole Parallel third through-hole；Offered on the sliding block close to second group of sliding block of the simulation thigh moving direction both sides With the second connecting hole of the third through-hole position correspondence, second group of sliding block runs through the threeway by the second connecting rod Hole is simultaneously inserted in relative second connecting hole respectively, realizes that the simulation thigh connects with the rotatable of second group of sliding block Connect.

Preferably, the sliding block fixing mechanism is lock screw, correspondingly, is provided with locking hole on the sliding block, is used for The lock screw is installed；When the lock screw is in locking state, the sliding block is locked on the slide rail；Work as institute When stating lock screw and being in released state, the sliding block can reciprocatingly slide on the slide rail.

Preferably, the sliding block is Demountable, is specially：The sliding block is upper by the rectangular shape that matches Slide body and the docking of downslide block form；

Offer the first groove and the respectively on two default faces of the top shoe body and the sliding block body phase pair Two grooves, first groove and second groove dock the sliding eye to form the sliding block；It is sliding relatively described The another side in the default face of block offers the first locking hole communicated with first groove, and first locking hole hangs down Directly in the default face；

Second locking hole relative with first locking hole is opened up on the default face of the downslide block, it is described Second locking hole communicates with second groove, and perpendicular to the default face of second groove；

The locking hole of top shoe body first and the locking hole of downslide block second collectively form the described of the sliding block Locking hole.

Preferably, the both ends of the head rod with described first locking through hole in the lock screw with detachable Mode is fixedly connected；First connecting hole communicates with the sliding eye of first group of sliding block, the head rod Both ends are each passed through first connecting hole and extend into the sliding eye of first group of sliding block, the head rod The position of the both ends locking hole that corresponds to first group of sliding block offer first group of screw attachment holes, the lock screw First group of screw attachment holes can be screwed in respectively.

Preferably, the both ends of second connecting rod with described second locking through hole in the lock screw with detachable Mode is fixedly connected；Second connecting hole communicates with the sliding eye of second group of sliding block, second connecting rod Both ends are each passed through second connecting hole and extend into the sliding eye of second group of sliding block, second connecting rod The position of the both ends locking hole that corresponds to second group of sliding block offer second group of screw attachment holes, the lock screw Second group of screw attachment holes can be screwed in respectively.

Preferably, fabric arch camber analogue means includes：Sample holder, for the fixed face being arranged on the simulation limb arm Expect sample.

Preferably, the sample holder is circumferentially disposed in the fabric arch camber analogue means fabric arch camber analogue means Simulate the ring-shaped clip of the predetermined position of shank lower end and/or the predetermined position of the simulation thigh upper end.

The application also provides a kind of fabric arch camber Tachistoscope device, including：Simulated according to fabric arch camber as described above Expect sample, operating console, laser range sensor and specimen holder behind the arch camber that device obtains；

Wherein, the operating console is mounted with control hardware and control software, and it can be with the laser ranging Sensor communication, to realize its control to the laser range sensor；The specimen holder, it is described for gripping Arch camber fabric sample, and by the detection of the arch camber position of the arch camber fabric sample after clamping and the laser range sensor Side is relative.

Preferably, the specimen holder includes：Cooperate the scrobicular ring and bulge loop being nested.

Preferably, the size of the scrobicular ring and the bulge loop and the arch area that rises of the arch camber fabric sample match.

Compared with prior art, the simulation limb arm in a kind of fabric arch camber analogue means that the application provides is provided with specially Simulation joint outside protuberance segment, more realistically simulate human body limb shoulder joint；It is used to bend fixed-analog in the application The bending set mechanism of limb arm is a simulation limb arm swing when limb arm is simulated in bending, so as to drive another simulation limb arm Swing together, it is identical with real human body limb brachiocylloosis situation, thus can true simulation human body limb arm flexure operation.Use Fabric simulation arch camber device carries out simulation arch camber to fabric sample, and its arch camber degree can truly reflect at human body limb shoulder joint Garment material arch camber degree.

A kind of fabric arch camber Tachistoscope device that the application provides includes a sample holder for agreeing with structure, uses Test specimens after fixed test arch camber, it can not only keep stretching, extension using the specimen holder but also not fixed stretching too Test specimens after arch, so as to eliminate the test error caused by sample has non-stretched place, improve the standard of test Exactness.

Brief description of the drawings

Fig. 1 is that fabric arch camber analogue means arches upward the side block diagram of state；

Fig. 2 is that fabric arch camber analogue means arches upward the overlooking structure figure of state；

Fig. 3 is the slide block structure schematic diagram in first embodiment；

Fig. 4 is the first connected mode schematic diagram that shank and first group of sliding block are simulated in first embodiment；

Fig. 5 is second of connected mode schematic diagram that shank and first group of sliding block are simulated in first embodiment；

Fig. 6 is that the schematic diagram that the upper end of thigh is rotatably fixedly connected with fixed block is simulated in second embodiment；

Fig. 7 is that the schematic diagram that the upper end of thigh is rotatably fixedly connected with slide rail is simulated in 3rd embodiment；

Fig. 8 is that the schematic diagram that the upper end of thigh is rotatably fixedly connected with base is simulated in fourth embodiment；

Fig. 9 is the side view of fabric arch camber Tachistoscope device.

Symbol description:

Simulated leg 1；

Simulate shank 1-1, concave station 1-1-1, the second through hole 1-1-2；

Simulate thigh 1-2, U-shaped link slot 1-2-1, ledge 1-2-1a, limbs connecting hole 1-2-1b, third through-hole 1-2-2；

Segment 1-3, first through hole 1-3-1；Connecting rod 1-4, left screw attachment holes 1-4a, right screw attachment holes 1-4b；

First sample holder 1-5 and the second sample holder 1-6；

Bend set mechanism 2, base 2-1, left slide rail 2-2a, left slide rail hole 2-2a-1, right slide rail 2-2b, right slide rail hole 2- 2b-1；Left fixed block 2-3c-a, left fixed sliding eye 2-3c-a-1, right fixed block 2-3c-b, right fixed sliding eye 2-3c-b-1, The left fixing hole 2-3c-a-2 in longitudinal direction, longitudinal direction right fixing hole 2-3c-b-2, left connecting hole 2-3c-a-3, right connecting hole 2-3c-b-3； Fix bar 2-4；Laterally left fixing hole 2-2a-2, horizontal right fixing hole 2-2b-2；

First group of sliding block 2-3a：First left slider 2-3a-a, rectangular slide hole 2-3a-a-1；Top shoe body 2-3a-a-a, First rectangular through slot 2-3a-a-a-1, the first locking hole 2-3a-a-a-2；Downslide block 2-3a-a-b, the second rectangular through slot 2- 3a-a-b-1, the second locking hole 2-3a-a-b-2；First right sliding block 2-3a-b；First connecting hole 2-3a-c；

Second group of sliding block 2-3b：Second left slider 2-3b-a, the second right sliding block 2-3b-b, the second connecting hole 2-3b-c；

Lock screw 3；

Operating console 8, cyclelog 8-1, power switch 8-2, emergency stop switch 8-3, laser range sensor 9, examination Sample clamper 10, laser range sensor support 11, test pedestal 12, fabric sample 13.

Embodiment

The application is further illustrated below in conjunction with drawings and examples.

Many details are elaborated in the following description in order to fully understand the application.But the application can be with Much it is different from other manner described here to implement, those skilled in the art can be in the situation without prejudice to the application intension Under do similar popularization, therefore the application is not limited by following public specific implementation.

First embodiment

First embodiment of the present utility model provides a kind of fabric arch camber analogue means.

Refer to Fig. 1 and Fig. 2, side structure schematic view and overlooking the structure diagram respectively in the present embodiment.This Shen A kind of fabric arch camber analogue means that please be provide, including：Limb arm and bending set mechanism are simulated, the simulation limb arm includes mutual First simulation limb of bending rotation connection and the second simulation limb, in the first embodiment, mould in fabric arch camber analogue means It is that simulated leg 1 bends set mechanism to intend limb arm, and described the first of the simulated leg 1 simulates limb as simulation shank 1-1, the mould The second simulation limb for intending leg 1 is simulation thigh 1-2.

As shown in figure 1, the simulated leg 1 include simulation shank 1-1, simulate thigh 1-2, and be arranged at it is described simulation it is small The segment 1-3 of leg 1-1 upper ends, segment 1-3 are used to simulate the outer protuberance of knee joint, that is to say, that the appearance of the segment 1-2 Radian of the radian in face close to human body knee joint；The upper end of the simulation shank 1-1 and the lower end of the simulation thigh 1-2 are lived Dynamic connection, and then the two is realized using junction as rotary shaft and be rotatablely connected, i.e.,：The simulation shank 1-1 and simulation are big Leg 1-2 can realize bending or stretching, extension by end points of the segment 1-3.

As shown in figure 1, the irregular cylinder for being shaped as simulating real human body shank of the simulation shank 1-1, the mould Intend the thigh 1-2 irregular cylinder for being shaped as simulating real human body thigh.

In this embodiment, the segment 1-3 basal diameters are 10cm, a height of 4cm；The simulation long 32cm of shank limb, under End cross-section diameter is 6cm；The simulation long 30cm of thigh limb, a diameter of 10cm of lower end inside, simulate end cross-section diameter on thigh For 15cm.

As shown in figure 1, the lower end of the simulation thigh 1-2 offers U-shaped link slot 1-2-1, the simulation shank 1-1's Upper end offers and the U-shaped link slot 1- respectively in the corresponding U-shaped link slot 1-2-1 two ledge 1-2-1a position The concave station 1-1-1 that 2-1 phases are agreed with, and offered on the segment 1-3 along its basal diameter perpendicular to the ledge 1-2-1a First through hole 1-3-1；Accordingly, limbs corresponding with the first through hole 1-3-1 are provided with the ledge 1-2-1a Connecting hole 1-2-1b by through the first through hole 1-1-2 and the limbs connecting hole 1-2-1b connecting rod 1-4 by institute The simulation shank 1-1 and simulation thigh 1-2 is stated mutually to be rotatably connected.

As shown in Fig. 2 center lines of the simulation shank 1-1 along the given cross-sectional close to its lower end offers and described the The second parallel one through hole 1-3-1 through hole 1-1-2.

As shown in Fig. 2 center lines of the simulation thigh 1-2 along the given cross-sectional close to its upper end offers and described the Third through-hole 1-2-2 parallel one through hole 1-3-1.

As shown in figure 1, two sample holders for preventing that sample from slipping are additionally provided with the simulated leg 1, i.e.,：First examination Sample fixator 1-5 and the second sample holder 1-6, the first sample holder 1-5 is circumferentially disposed in small close to the simulation The predeterminated position of leg 1-1 lower ends, the shank annular that it is shaped as agreeing with the simulation shank 1-1 phases of the predeterminated position are solid Determine external member；The second sample holder 1-6 is circumferentially disposed in the predeterminated position close to the simulation thigh 1-2 upper ends, its shape Shape is the thigh annular fixed cover agreed with the simulation thigh 1-2 phases of the predeterminated position on the simulation thigh 1-2 Part.

It is to be appreciated that the first sample holder 1-5 can also include：Close to the simulation shank 1-1 lower ends The circumferentially disposed shank annular fixing groove (not shown) of predetermined position, the shank annular fixed sleeve part can be embedding by sample Set is fixed in the shank annular fixing groove.It is likewise, also all in the predetermined position close to the simulation thigh 1-2 upper ends To thigh annular fixing groove (not shown) is set, the thigh annular fixed sleeve part can hang over the nested fixation of the sample In the thigh annular fixing groove.

As shown in Fig. 2 the bending set mechanism 2 includes base 2-1, is arranged on institute along the glide direction of simulated leg 1 The left slide rail 2-2a on base 2-1 and right slide rail 2-2b is stated, specifically, the both ends of the left slide rail 2-2a and right slide rail 2-2b Both ends be separately fixed between two side plates of the base 2-1, the length of the left slide rail or the right slide rail length side To identical with the simulated leg glide direction, alternatively, the slide rail length is equal to the distance between described side plate.

The left slide rail 2-2a and right slide rail 2-2b have identical cross section rectangle and two groups respectively with the left side The first group of sliding block 2-3a and second group of sliding block 2-3b, first group of sliding block 2- that slide rail 2-2a and right slide rail 2-2b are slidably connected 3a includes：First left slider 2-3a-a and first right sliding block 2-3a-b, the first left slider 2-3a-a are arranged at the left cunning Rail 2-2a, the first right sliding block 2-3a-b correspond to the first left slider 2-3a-a and are arranged on the right slide rail 2-2b；Institute Stating second group of sliding block 2-3b includes：Second left slider 2-3b-a and second right sliding block 2-3b-b, the second left slider 2-3b-a The left slide rail 2-2a is arranged at, the second right sliding block 2-3a-b corresponds to the second left slider 2-3b-a and is arranged at the right side On slide rail 2-2b；The first left slider 2-3a-a, the first right sliding block 2-3a-b, the second left slider 2-3b-a and the second right sliding block 2-3b-b is size identical cuboid.

It should be noted that the shape of the sliding block, size can be set according to different demands, each group sliding block can also be adopted With different size and shapes.

In the right sliding block 2-3a- of the first left slider 2-3a-a and first close to the simulation shank glide direction both sides The first connecting hole 2-3a-c corresponding with the second through hole 1-1-2 on the simulation shank 1-1 is offered on b； Offered on the right sliding block 2-3b-b of the second left slider 2-3b-a and second of the simulation thigh glide direction both sides with The second corresponding the third through-hole 1-2-2 on simulation thigh 1-2 connecting hole 2-3b-c.

The connecting rod 1-4 can pass through the second through hole 1-1-2 connections described first on the simulation shank 1-1 In the first connecting hole 2-3a-c on the right sliding block 2-3a-b of left slider 2-3a-a and second, so as to which the simulation shank lower end be turned It is dynamic to be connected on the connecting rod 1-4 between the right sliding block 2-3a-b of the first left slider 2-3a-a and second.

The connecting rod 1-4 can pass through the third through-hole 1-2-2 connections described second on the simulation thigh 1-2 In the second connecting hole 2-3b-c on the right sliding block 2-3b-b of left slider 2-3b-a and second, so as to which the simulation thigh upper end be turned It is dynamic to be connected in the connecting rod between the right sliding block 2-3b-b of the second left slider 2-3b-a and second.

Scale is marked with the left slide rail 2-2a and/or right slide rail 2-2b, for representing the angle of bend of the simulated leg Degree, can match or corresponding according to the angle of bend with springing height of the fabric sample at the segment position of the simulated leg.

In this embodiment, described two groups totally four slide block structures it is identical, and be Demountable, below to wherein one The structure of individual sliding block illustrates.

Fig. 3 is referred to, the Fig. 3 is the structural representation of the first left slider 2-3a-a in four sliding blocks.Such as Shown in Fig. 3, the first left slider 2-3a-a is by the top shoe body 2-3a-a-a and downslide block of the rectangular shape to match 2-3a-a-b is docked form up and down, and top shoe body 2-3a-a-a is located above, and downslide block 2-3a-a-b is located below.

As shown in figure 3, offer the first rectangular through slot 2-3a-a-a- on the bottom surface of the top shoe body 2-3a-a-a 1, it is further opened with communicating with the first rectangular through slot 2-3a-a-a-1 close to the predeterminated position of the simulated leg 1 in its upper bottom surface The first locking hole 2-3a-a-a-2, the first locking hole 2-3a-a-a-2 prolongs by the upper bottom surface of the top shoe body 2-3a-a-a The bottom surface of the top shoe body 2-3a-a-a is extended, in this embodiment, the preferable first locking hole 2-3a-a-a-2 hangs down Directly in the upper bottom surface of the top shoe body 2-3a-a-a.

As shown in figure 3, the downslide block 2-3a-a-b on upper bottom surface with the first rectangular through slot 2-3a-a-a-1 Corresponding position offers the second rectangular through slot 2-3a-a-b-1, in its bottom surface and 2-3a-a-a-2 pairs of first locking hole The position answered offers the second locking hole 2-3a-a-b-2 communicated with the second rectangular through slot 2-3a-a-b-1, and described second Locking hole 2-3a-a-b-2 extends to the upper of the downslide block 2-3a-a-b by the bottom surface of the downslide block 2-3a-a-b Bottom surface, in this embodiment, the preferable second locking hole 2-3a-a-b-2 is perpendicular to above and below the downslide block 2-3a-a-b Bottom surface.

As shown in figure 3, the upper bottom by the bottom surface of the top shoe body 2-3a-a-a and the downslide block 2-3a-a-b Face is docked, and the first rectangular through slot 2-3a-a-a-1 and the second rectangular through slot 2-3a-a-b-1 docking form described first Left slider 2-3a-a rectangular slide hole 2-3a-a-1, the rectangular slide hole 2-3a-a-1 and two slide rails size phase Match somebody with somebody；Described in the top shoe body 2-3a-a-a in the first locking hole 2-3a-a-a-2 and the downslide block 2-3a-a-b Second locking hole 2-3a-a-b-2 collectively forms the complete locking holes of the first left slider 2-3a-a.

As shown in figure 4, the first connecting hole 2-3a-c is arranged at the top shoe body 2-3a-a-a at it close to described The side of simulated leg 1.In the present embodiment, the first connecting hole 2-3a-c is perpendicular to the side for opening up top shoe body 2-3a-a-a Face, and communicated with the first rectangular through slot 2-3a-a-a-1.

As shown in figure 5, the first connecting hole 2-3a-c can also be only hole, not with the first rectangular through slot 2-3a- A-a-1 is communicated.

The position that the first connecting hole 2-3a-c is opened up must be positioned at the sliding block 2-3a-a close to the simulated leg 1 Side, but be not limited on the top shoe body 2-3a-a-a, the institute of the first left slider 2-3a-a can also be located at State on downslide block 2-3a-a-b, or the first connecting hole 2-3a-c can also be separately positioned on the top shoe body 2- On 3a-a-a and the downslide block 2-3a-a-b interface, such as：Respectively in the top shoe body 2-3a-a-a and described Downslide block 2-3a-a-b relative positions open up half groove, as the top shoe body 2-3a-a-a and the downslide block 2-3a- When a-b is docked, the docking of two and half grooves forms the first connecting hole 2-3a-c.

The slide rail 2-2a passes through the rectangular slide hole 2-3a-a-1, slides and connects with the first left slider 2-3a-a Connect；The first locking hole 2-3a-a-a-2 is used for the lock screw 3 for installing the first left slider 2-3a-a, when the lock When tight screw 3 is in locking state, the first left slider 2-3a-a is fixed on the left slide rail 2-2a, can not be slided；When When lock screw 3 is in non-locking state, the first left slider 2-3a-a can reciprocatingly slide along the left slide rail 2-2a.

Similarly, as shown in Fig. 2 described two groups other three sliding blocks in totally four sliding blocks are also respectively provided with, structure is identical, position Put rectangular slide hole 2-3a-a-1 described in identical.

Similarly, as shown in Fig. 2 described two groups other three sliding blocks in totally four sliding blocks be also provided with structure it is identical, First locking hole 2-3a-a-2 described in the identical of position, sliding block is fixed on by the corresponding slide rail by the lock screw 3 On.

Similarly, as shown in Figure 4 and Figure 5, described two groups other three sliding blocks in totally four sliding blocks are also provided with structure First connecting hole 2-3a-c described in identical, position correspondence.

When the first connecting hole 2-3a-c of aforementioned four sliding block is the sliding eye with the corresponding sliding block During the through hole communicated, the corresponding sliding block of two outboard ends of the simulated leg 1 mode that is rotatably connected is as follows：

As shown in figure 4, the connecting rod 1-4 runs through the second through hole 1-1-2, and its both ends is each passed through described first Connecting hole 2-3a-c and the right sliding blocks of the first left slider 2-3a-a and first for being respectively protruding into first group of sliding block 2-3a In the 2-3a-b rectangular slide hole 2-3a-a-1, the both ends of the connecting rod 1-4 correspond to the first left slider 2- respectively 3a-a the first locking hole 2-3a-a-a-2 and the first right sliding block 2-3a-b the second locking hole 2-3a-a-b- 2 position offers left screw attachment holes 1-4a and right screw attachment holes 1-4b, and the lock screw 3 is each passed through the left spiral shell The silk connecting hole 1-4a and right screw attachment holes 1-4b, the connecting rod 1-4 and first group of sliding block 2-3a is fixed and connected Connect, and then the lower end of the simulation shank 1-1 is rotatably connected with first group of sliding block 2-3a.

Similarly, connecting rod 1-4 runs through the third through-hole 1-2-2, and its both ends is each passed through the second connecting hole 2- 3b-c is simultaneously respectively protruding into the right sliding block 2-3b-b's of the second left slider 2-3b-a and second of second group of sliding block 2-3b In the rectangular slide hole 2-3b-a-1, the both ends of the connecting rod 1-4 correspond to described the of the second left slider 2-3b-a Also open one locking hole 2-3a-a-a-2 and the second right sliding block 2-3b-b the second locking hole 2-3a-a-b-2 position Provided with the left screw attachment holes and the right screw attachment holes, the lock screw 3 is each passed through the left screw attachment holes With the right screw attachment holes, the connecting rod 1-4 is fixedly connected with second group of sliding block 2-3b, and then by the simulation Thigh 1-2 upper end is rotatably connected with second group of sliding block 2-3b.

It should be noted that the structure of second group of sliding block is identical with the structure of first group of sliding block, refer to Content combination Fig. 4 is stated, because the application does not provide the concrete structure view of second group of sliding block.

Moved back with the simulation 1 glide direction it is parallel with the slide rail, be connected with the simulation shank 1-1 lower ends for the One group of sliding block 2-3a, be connected with the simulation thigh 1-2 upper ends for second group of sliding block 2-3b.The slip side of the simulated leg 1 To can using simulate shank 1-1 as slide side, the simulation thigh 1-2 is affixed side；Or can also using simulate thigh 1-2 as Side is slided, the simulation shank 1-1 is affixed side；Or the simulation shank 1-1 and the simulation thigh 1-2 are slip Side, sliding scale are defined by setting first group of sliding block 2-3a and second group of sliding block 2-3b sliding scale, Such as：Position-limit mechanism is set on sliding rail, when first group of sliding block and second group of sliding block slide into predeterminated position Place, by the position-limit mechanism it is spacing so that stop slide, it is described simulation thigh and simulation shank accordingly also stop slide bending, It is that arch camber location status set in advance is presented in the simulated leg, completes to be sheathed on the arch camber of simulated leg upper fabric sample.

Described in first connecting hole in first group of sliding block 2-3a and second group of sliding block 2-3b Untill second connecting hole 2-3b-c is equal during hole, the sliding block that two outboard ends of the simulated leg 1 are corresponding rotatably connects It is as follows to connect mode：

As shown in figure 5, the connecting rod 1-4 of first group of sliding block 2-3a runs through the second through hole 1-1-2, and The distance between its length described first connecting hole 2-3a-c relative with two matches, and its both ends is inserted respectively relative In two the first connecting hole 2-3a-c, i.e.,：Respectively on the right sliding block 2-3a-b of the first left slider 2-3a-a and first The first connecting hole 2-3a-c, so that it may realize that the lower end of the simulation shank 1-1 and first group of sliding block 2-3a are rotatable Connection.

Similarly, the connecting rod 1-4 of second group of sliding block 2-3b runs through the third through-hole 1-2-2, and its length The distance between relative described second connecting hole 2-3b-c matches with two, and its both ends is inserted into second connection respectively In the 2-3b-c of hole, i.e.,：The second connecting hole 2- on the right sliding block 2-3b-b of the second left slider 2-3b-a and second respectively 3b-c, so that it may realize that the upper end of the simulation thigh 1-2 is rotatably connected with second group of sliding block 2-3b.

It can also be set between two or so relative sliding blocks in first group of sliding block 2-3a and second group of sliding block 2-3b The dowel that is fixedly connected respectively with the side of the close simulated leg 1 of corresponding described two sliding blocks is equipped with to strengthen the two Between bonding strength, left and right sliding block is kept synchronous when sliding together.

In the present embodiment, the material of the fabric arch camber analogue means is plastic-steel.

In the present embodiment, pass through the second group of sliding block 2-3b for being rotatablely connected the upper end with the simulation thigh 1-2 On lock screw 3 be placed in locking state, and then make it that the lower end by the simulation thigh 1-2 is fixed on left slide rail 2-2a and the right side Between slide rail 2-2b, the lower end of the simulation shank 1-1 is rotatablely connected the first left slider and the of first group of sliding block 2-3a Between one right sliding block, and the lock screw 3 makes first group of sliding block 2-3a be placed in non-locking state, by driving the company Extension bar 1-4 makes first group of sliding block be slided on the left slide rail and the right slide rail, and then pulls the simulation shank 1-1 Bottom is slided to close to simulation thigh 1-2 direction, and the segment 1-3 of the simulation shank 1-1 upper ends arches upward upwards, from And the lower end of the simulation thigh 1-2 is driven also to direction movement of arching upward, and then realize simulation thigh and simulation shank simulation people The bending of leg, knee evagination jack up the fabric sample in simulated leg, fabric is corresponded to segment opening position arch camber；Work as institute Stating simulated leg 1 needs to arch upward when bending to default angle, promote first group of sliding block 2-3a connecting rod 1-4 arrive described in The corresponding scale marked on slide rail, then the lock screw 3 on first group of sliding block 2-3a is placed in locking state, can be by institute State simulated leg 1 and angle is arched upward fixed on the left slide rail 2-2a and right slide rail 2-2b with default bending.

In the present embodiment, the right cunnings of the first left slider 2-3a-a and first of first group of sliding block 2-3a are unloaded respectively The block 2-3a-b lock screw 3, the sliding block 2-3a-a-b bodies of described two sliding blocks are pulled down, and described two sliding blocks Separated with the left and right slide rail, then the top shoe body 2-3a- by the right sliding block 2-3a-b of the first left slider 2-3a-a and first A-a pulls down from the first connecting hole 2-3a-c by the connecting rod 1-4 of described two top shoe bodies respectively, then by institute State and extracted out in the second through hole 1-1-2 of the connecting rod 1-4 along the simulation shank 1-1 lower ends, you can by the simulation shank Pulled down from the fabric arch camber analogue means 1-1 lower end.

The tandem of above-mentioned dismounting mode can arbitrarily select according to operating habit, however it is not limited to above-mentioned unloading process.

Also can be by the length that matches based on above-mentioned, provided herein first group of sliding block and/or second group of sliding block Two slide bodies of cube shape or so docking forms, that is to say, that sliding block can be not only the top shoe body that splices up and down and Downslide block can also include the left slider body of left and right splicing and right slide body, slide block structure in such cases and its with it is described The connected mode of other part accordingly adjusts in fabric arch camber analogue means, will not be repeated here.

In first embodiment, two outboard ends of the simulated leg be rotatably connected corresponding to two groups of sliding blocks, from And make it that two outboard end is slidably connected with two slide rails, and two outboard ends of the simulated leg can pass through Lock screw on the sliding block is fixed on two slide rails；The embodiment employs two groups of totally four identical sliding blocks, It is easy to Uniting and processing, and design and processing cost can be saved.In other implementations, as long as the simulated leg One outboard end is rotatably connected sliding block described in one group, and another outboard end of the simulated leg is fixedly connected in a rotatable manner With just can reach same technique effect on the base or two slide rails.Two realities under such a structure provided below Example is applied to be illustrated.

Second embodiment

The second embodiment of the application provides a kind of fabric arch camber analogue means, the mould of the fabric arch camber analogue means The lower end of the simulation shank 1-1 for intending leg 1 is rotatably connected with first group of sliding block 2-3a, the simulated leg 1 it is described Simulation thigh 1-2 upper end and the fixed block being fixed on the slide rail are rotatablely connected.

As shown in fig. 6, in the left slide rail 2-2a and the right slide rail 2-2b positioned at the simulation thigh 1-2 upper end sides On, left fixed block 2-3c-a and right fixed block 2-3c-b, the left fixed block 2-3c-a and right fixed block are correspondingly arranged on respectively 2-3c-b is respectively relative to the first left slider 2-3a-a of the simulation shank 1-1 lower ends connection and the first right sliding block Left fixed sliding eye 2-3c-a-1 is offered on 2-3a-b, the left fixed block 2-3c-a, is opened on the right fixed block 2-3c-b Provided with right fixed sliding eye 2-3c-b-1, the left fixed slips of the left slide rail 2-2a through the left fixed block 2-3c-a Hole 2-3c-a-1, the right slide rail 2-2b pass through the right fixed sliding eye 2-3c-b-1 of the right fixed block 2-3c-b.

The left fixed block 2-3c-a and right fixed block 2-3c-b is corresponded to offer and its upper and lower two bottom surface respectively The left fixing hole 2-3c-a-2 and right fixing hole 2-3c-b-2 communicated, that is to say, that the left fixing hole 2-3c-a-2 and the right side are consolidated Determine the glide direction that hole 2-3c-b-2 extends perpendicularly to the simulated leg 1；The left/right fixing hole respectively correspondingly with The left/right is fixed sliding eye and communicated, and the left slide rail 2-2a and the right slide rail 2-2b are in the corresponding left fixing hole 2-3c- Corresponded to respectively on a-2 and right fixing hole 2-3c-b-2 position and offer left slide rail hole 2-2a-1 and right slide rail hole 2-2b-1, Gu Fixed pole 2-4 corresponds to through the left fixing hole 2-3c-a-2 in longitudinal direction of the left fixed block and the right fixing hole in longitudinal direction of right fixed block respectively The 2-3c-b-2 and left slide rail hole 2-2a-1 and right slide rail hole 2-2b-1, and then by the left fixed block 2-3c-a It is fixed together respectively with the left slide rail 2-2a and the right slide rail 2-2b with the right fixed 2-3c-b blocks.

The left fixed block 2-3c-a and right fixed block 2-3c-b is close to the corresponding of the both sides of the simulated leg 1 Position is further opened with left connecting hole 2-3c-a-3 and right connecting hole 2-3c-b-3, the left connecting hole 2-3c-a-3 and the right side Connecting hole 2-3c-b-3 be perpendicular to open up its left slider and the right sliding block opposite flank only hole, and its position with The third through-hole 1-2-2 is corresponding.

Fix bar 2-4 runs through the third through-hole 1-2-2, and its length and two the first connecting hole 2-3a-c it Between distance match, its both ends is inserted in the left connecting hole 2-3c-a-3 and the right connecting hole 2-3c-b-3 respectively, The left fixation for achieving that the upper end of the simulation thigh 1-2 and being fixed on the left slide rail 2-2a and right slide rail 2-2 Block 2-3c-a and the right fixed block 2-3c-b rotation connections.

In addition the other side of the structure of the fabric arch camber analogue means in the present embodiment is identical with first embodiment, Here repeat no more.

3rd embodiment

The 3rd embodiment of the application provides a kind of fabric arch camber analogue means, the mould of the fabric arch camber analogue means The lower end of the simulation shank 1-1 for intending leg 1 is rotatably connected with first group of sliding block 2-3a, the simulated leg 1 it is described Connecting rod 1-4 between simulation thigh 1-2 upper end and the left slide rail and the right slide rail is rotatably fixed connection；It is described Rotationally it is fixedly connected and refers to, the simulation thigh upper end can be rotated using the connecting rod 1-4 as axle, but positioned at described The second left slider 2-3b-a of connecting rod 1-4 both sides and the second right sliding block 2-3b-b are fixed；So that institute Reality can be slid back and forth with the first left slider 2-3a-a and the first right sliding block 2-3a-b by stating simulation shank 1-1 lower end Now bend or stretch, and then obtain the fabric sample being arranged in the simulated leg 1 and form arch camber according to default.

As shown in fig. 7, in the left slide rail 2-2a and the right slide rail 2-2b positioned at the simulation thigh 1-2 upper end sides Side, the side is that the relative sides of the left slide rail 2-2a and right slide rail 2-2b offer and the third through-hole 1-2-2 is corresponding and matches laterally left fixing hole 2-2a-2 and laterally right fixing hole 2-2b-2.

Connecting rod 1-4 runs through the third through-hole 1-2-2, and its length is solid with the horizontal fixing hole 2-2a-2 and laterally Determine the distance between hole 2-2b-2 to match, the horizontal fixing hole 2-2a-2 is inserted at its both ends respectively and the transverse direction is fixed In 2-2b-2, so that it may realize that the upper end of the simulation thigh 1-2 and the left slide rail 2-2a and the right slide rail 2-2b are rotatable Ground is fixedly connected.Described be rotatably connected refers to that the simulation thigh 1-2 can rotate by axle of the connecting rod 1-4, But the connecting rod 1-4 and the second left slider 2-3b-a and the second right sliding block 2-3b-b of its both sides are fixed not It is dynamic；So that the lower end of the simulation shank 1-1 can be with the first left slider 2-3a-a and the first right sliding block 2- 3a-b slides back and forth realization bending or stretching, extension, and then obtains the fabric sample being arranged in the simulated leg 1 according to default formation Arch camber.

In addition the other side of the structure of the fabric arch camber analogue means in the present embodiment and first embodiment and the Two embodiments are identical, repeat no more here.

Fourth embodiment

The 3rd embodiment of the application provides a kind of fabric arch camber analogue means, the mould of the fabric arch camber analogue means The lower end of the simulation shank 1-1 for intending leg 1 is rotatably connected with first group of sliding block 2-3a, the simulated leg 1 it is described Simulation thigh 1-2 upper end is rotatably fixed with the base to be connected.

As shown in figure 8, it is respectively arranged with side plate 2- in the base 2-1 and close to the simulation thigh 1-2 upper ends both sides 1-1, left plate fixing hole 2-1-1-1a and right plate fixing hole 2-1-1-1b are opened up respectively in the upper end of the side plate 2-1-1.

The connecting rod 1-4 runs through the third through-hole 1-2-2, and its length and the left fixation of the base of the base The distance between hole 2-1-1-1a and the right fixing hole 2-1-1-1b of the base match, and the base 2- is inserted at its both ends respectively In the 1 left fixing hole 2-1-1-1a of the base and the right fixing hole 2-1-1-1b of the base, so that it may realize the simulation thigh 1-2 upper end is rotatably fixed with the base 2-1 and is connected.It is described to be rotationally fixedly connected and above-described embodiment principle phase Together, the other side of the structure of the fabric arch camber analogue means in the present embodiment is identical with above three embodiment in addition, Here repeat no more.

Based on the above, it is possible to understand that the sliding block in the bending set mechanism that the application provides only can be one It is individual, for connecting the simulation shank 1-1 lower ends or simulation thigh 1-2 upper ends, realize that at least one end of simulated leg 1 can be with Slided along the slide rail, therefore, the slide rail may also be only one.

Above content is the explanation that the one group of sliding block used is carried out for four sliding blocks, and specifically chooses first group of sliding block citing Illustrate, because second group of slide block structure is identical with first group of sliding block, therefore does not do and excessively repeat, with reference on first The explanation of group sliding block, in addition, the quantity of the sliding block is not limited to the above.

In the fabric arch camber analogue means provided using the application, fabric sample is sheathed on fabric arch camber analogue means In simulated leg, the simulated leg can enter line slip bending according to arch camber degree set in advance, obtain the fabric examination after arch camber Sample.The fabric sample can be random dismounting, so that ordered pair springing height is tested.

It is understood that fabric sample leg arch camber data are obtained by using the form of simulated leg in this implementation, it is real Fabric sample elbow position arch camber data can also be obtained by using the form of simulation arm on border, sliding type and structure can With identical, difference is only that simulation shank and simulation thigh are replaced by into simulation forearm and simulation large arm, and the projection of segment is imitated Elbow joint projection radian is set, and therefore, the fabric arch camber analogue means that the application provides is not limited to the simulation to leg.

5th embodiment

The 5th embodiment of the application provides a kind of fabric arch camber Tachistoscope device.

Fig. 9 is referred to, the figure is the structural representation in the present embodiment.As shown in figure 9, the fabric arch camber Tachistoscope fills Put including operating console 8, laser range sensor 9, specimen holder 10, laser range sensor support 11, test pedestal 12 and using in foregoing any embodiment fabric arch camber analogue means obtain arch camber behind expect sample.

The specimen holder 10 is made up of the bulge loop and scrobicular ring of the annular mutually agreed with, for fixed according to above-mentioned face Expect that arch camber analogue means obtains the fabric sample after arch camber, can not only keep stretching, extension using the specimen holder but also inundue Test specimens after the fixed arch camber in stretching ground.

The operating console 8 is mounted with control hardware and control software, and it can be sensed with the laser ranging Device 9 communicates, to realize its control to the laser range sensor 9.

As shown in figure 9, cyclelog 8-1, power switch 8-2, emergency stop switch 8- are provided with the operating console 8 3.Described program controller 8-1 is used to load control software, and can be communicated with the laser range sensor 9, to realize that its is right The control of the laser range sensor 9, and the information such as test result can be shown；The power switch 8-2 is used to normally cut The power supply of the disconnected fabric arch camber Tachistoscope device；The emergency stop switch 8-3 is used at the time of emergency, fast shut-off The power supply of the fabric arch camber Tachistoscope device.

As shown in figure 9, the laser range sensor support 11 is inverted L, the laser range sensor 9 is arranged at The predeterminated position of the horizontal arm of the Laser Measuring sensor stand 11, and it detects side down.

As shown in figure 9, the test pedestal 12 is a block length square plate, the operating console is placed for staff 8th, laser range sensor 9, specimen holder 10, laser range sensor support 11；It can also be used for cutting sample.

The fabric arch camber Tachistoscope device can measure the springing height of fabric, will expect sample behind arch camber during test Fixed with the specimen holder 10, the convex side at the arch camber position of the fabric sample tested into pedestal 12 towards described, And will be aligned at the center at the arch camber position of the fabric sample with the laser range sensor 9, it is put into the laser ranging Below sensor 9, described rise can be measured by operating the described program controller 8-1 startups laser range sensor 9 The springing height of test specimens after arch.

It should be noted that the convex side at the arch camber position of the fabric sample can test pedestal 12 towards described, Can towards the laser range sensor 9, when the fabric sample arch camber position convex side towards the test pedestal When 12, the specimen holder 10 has certain altitude, and the height meets the convex side at the arch camber position of the fabric sample Its existing raised position can be kept in the specimen holder 10.

Although the application is disclosed as above with preferred embodiment, it is not for limiting the application, any this area skill Art personnel are not being departed from spirit and scope, can make possible variation and modification, therefore the guarantor of the application Shield scope should be defined by the scope that the application claim is defined.

Claims (16)

1. a kind of fabric arch camber analogue means, it is characterised in that including simulation limb arm and bending set mechanism；

The simulation limb arm includes the first simulation limb being mutually flexibly connected and the second simulation limb, the first simulation limb arm and institute State the segment that simulation joint outside bulge is provided between the second simulation limb arm, the first simulation limb arm and second simulation Limb arm is flexibly connected, and the first simulation limb arm and the second simulation limb arm can be real by rotary shaft of the active connection place Now stretch or bend；

The bending set mechanism includes the sliding block fixing mechanism that base, slide rail, sliding block and corresponding sliding block are set；The slide rail is consolidated It is scheduled on base；The sliding block is slidably mounted on the slide rail；The sliding block can pass through the sliding block fixing mechanism It is fixed on the slide rail；

At least one outboard end of the simulation limb arm, be rotatably connected the sliding block；Outside another of the simulation limb arm Side another sliding block that is rotatably connected either is fixedly connected on the base or slide rail in a rotatable manner.

2. fabric arch camber analogue means according to claim 1, it is characterised in that the simulation limb arm is simulated leg, institute State the first simulation limb for simulation shank, it is described second simulation limb for simulation thigh, it is described rotation connection for it is described simulation thigh and Shank is simulated to be directly rotatablely connected, the segment is arranged at the upper end of the simulation shank, prominent outside knee joint for simulating Portion.

3. fabric arch camber analogue means according to claim 2, it is characterised in that the simulation thigh is the true people of simulation The irregular cylinder of body thigh；And/or the simulation shank is the irregular cylinder of simulation real human body shank.

4. fabric arch camber analogue means according to claim 3, it is characterised in that the lower end of the simulation thigh offers U-shaped link slot, the upper end of the simulation shank offer and the U-shaped connection in the position of the corresponding U-shaped link slot ledge The concave station that groove ledge mutually agrees with, and the first through hole along its basal diameter perpendicular to the ledge is offered on the segment, Accordingly, the ledge is provided with connecting hole corresponding with the first through hole, by through the first through hole and the company The lower end of the simulation thigh and the simulation shank upper end are mutually rotatablely connected by the connecting rod for connecing hole.

5. fabric arch camber analogue means according to claim 4, it is characterised in that the sliding block is provided with and the slide rail The sliding eye to match；The sliding block is slidably mounted on the slide rail specifically, the slide rail passes through the sliding eye It is slidably connected with the sliding block.

6. fabric arch camber analogue means according to claim 5, it is characterised in that the bending set mechanism is to include two Group bending of slide block set mechanism；The slide rail is two, and every group of sliding block includes corresponding to two that each slide rail is set respectively Sliding block；The lower end of the simulation shank, first group of sliding block being rotatably connected in two groups of sliding blocks；It is described to simulate the upper of thigh Hold second group of sliding block being rotatably connected in two groups of sliding blocks.

7. fabric arch camber analogue means according to claim 6, it is characterised in that along close to the simulation shank lower end The center line of given cross-sectional offers second through hole parallel with the first through hole；Close to the simulation shank glide direction Offer the first connecting hole corresponding with second lead to the hole site on the sliding block of first group of sliding block of both sides, described One group of sliding block is inserted through second through hole and respectively in relative first connecting hole by head rod, realizes institute State being rotatably connected for simulation shank and first group of sliding block.

8. fabric arch camber analogue means according to claim 7, it is characterised in that the simulation thigh is along close to its upper end The center line of given cross-sectional offer the third through-hole parallel with the first through hole；Close to the simulation thigh movement side The second connecting hole with the third through-hole position correspondence is offered on to the sliding block of second group of sliding block of both sides, it is described Second group of sliding block is inserted through the third through-hole and respectively in relative second connecting hole by the second connecting rod, is realized The simulation thigh is rotatably connected with second group of sliding block.

9. fabric arch camber analogue means according to claim 8, it is characterised in that the sliding block fixing mechanism is locking screw Silk, correspondingly, locking hole is provided with the sliding block, for installing the lock screw；When the lock screw is in locking During state, the sliding block is locked on the slide rail；When the lock screw is in released state, the sliding block can be Reciprocatingly slided on the slide rail.

10. fabric arch camber analogue means according to claim 9, it is characterised in that the sliding block is Demountable, Specially：The sliding block is formed by top shoe body and downslide the block docking of the rectangular shape to match；

The first groove and second is offered respectively on two default faces of the top shoe body and the sliding block body phase pair to lead to Groove, first groove and second groove dock the sliding eye to form the sliding block；In relatively described top shoe body The another side in the default face offer the first locking hole communicated with first groove, first locking hole perpendicular to The default face；

Open up second locking hole relative with first locking hole on the default face of the downslide block, described second Locking hole communicates with second groove, and perpendicular to the default face of second groove；

The locking hole of top shoe body first and the locking hole of downslide block second collectively form the locking of the sliding block Hole.

11. fabric arch camber analogue means according to claim 10, it is characterised in that the both ends of the head rod with The lock screw in the first locking through hole is removably fixedly connected；First connecting hole and described first The sliding eye of group sliding block communicates, and the both ends of the head rod are each passed through first connecting hole and extend into described In the sliding eye of first group of sliding block, the both ends of the head rod correspond to the locking hole of first group of sliding block Position offers first group of screw attachment holes, and the lock screw can screw in first group of screw attachment holes respectively.

12. fabric arch camber analogue means according to claim 11, it is characterised in that the both ends of second connecting rod with The lock screw in the second locking through hole is removably fixedly connected；Second connecting hole and described second The sliding eye of group sliding block communicates, and the both ends of second connecting rod are each passed through second connecting hole and extend into described In the sliding eye of second group of sliding block, the both ends of second connecting rod correspond to the locking hole of second group of sliding block Position offers second group of screw attachment holes, and the lock screw can screw in second group of screw attachment holes respectively.

13. fabric arch camber analogue means according to claim 1, it is characterised in that on the base and along the mould The outboard end glide direction for intending leg is provided with the side plate of the fixed slide rail, the length direction of the slide rail and the simulated leg Outboard end glide direction is identical.

14. fabric arch camber analogue means according to claim 1, it is characterised in that the slide rail is marked with scale, is used for Represent the angle of bend of the simulated leg.

15. fabric arch camber analogue means according to claim 1, it is characterised in that fabric arch camber analogue means includes：Examination Sample fixator, for the fixed fabric sample being arranged on the simulation limb arm.

16. fabric arch camber analogue means according to claim 15, it is characterised in that the sample holder sets to be circumferential It is placed in the predetermined position of the fabric arch camber analogue means fabric arch camber analogue means simulation shank lower end and/or the simulation The ring-shaped clip of the predetermined position of thigh upper end.