CN106435960A - Loom for conical and cylindrical shell three-dimensional fabric - Google Patents

Abstract

The invention discloses a loom for conical and cylindrical shell three-dimensional fabric. The loom comprises a main rack and is characterized by further comprising a mandrel, a let-off mechanism, an opening mechanism, a weft insertion mechanism and a beating-up mechanism, wherein the mandrel is installed in the main rack, the let-off mechanism, the opening mechanism and the weft insertion mechanism are arranged on the periphery of the mandrel, and the beating-up mechanism is arranged on the mandrel; the opening mechanism enables warp to form an opening automatically, the weft insertion mechanism completes circumferential weft insertion, then weft is beaten up through the beating-up mechanism, and the steps are repeated till weaving is completed. The loom for the conical and cylindrical shell three-dimensional fabric is simple in structure, a manual weaving mode is changed into an automatic manufacturing mode, labor cost is greatly lowered, working efficiency is improved, and the technical problems that yarn counts of all parts of the fabric are not uniform, the profile size of the fabric is poor in accuracy, and the overall mechanical property of the fabric is weak are effectively solved.

Description

A kind of circular cone, circular cylindrical shell three dimensional fabric loom

Technical field

The present invention relates to textile technology field, more particularly, to a kind of circular cone, circular cylindrical shell three dimensional fabric loom.

Background technology

Circular cone, circular cylindrical shell three dimensional fabric can be made into a kind of composite material casing after being combined with some thermosetting resins, Compared with traditional metal shell, weight mitigates this composite material casing significantly, and various performance also can meet actual life Produce and require, or even than metallic article performance more more preferably, can apply in civilian and military industry field.Circular cone, the three-dimensional of circular cylindrical shell are knitted Thing generally has one to bind in its one end, by regularly increasing or decreasing warp thread in edge, forms preforming housing fabric, so Weft yarn moves one week along core and completes wefting insertion afterwards, finally weaves into circular cone, circular cylindrical shell three dimensional fabric.Such circular cone, cylinder Housing three dimensional fabric belongs to contoured fabrics, more special in shape, complex in weave, and therefore traditional mode of production is used mostly Manually weave.Manually braiding is easily caused that each several part thread density is uneven and textile type face dimensional accuracy is poor, Thus leading to the overall mechanical properties of fabric to reduce, and artificial weaving efficiency is low, and hand labor cost is big.

Therefore, prior art has much room for improvement and develops.

Content of the invention

It is an object of the invention to provide a kind of circular cone, circular cylindrical shell three dimensional fabric loom are it is intended to solve existing artificial Braiding each several part thread density is uneven manually, textile type face dimensional accuracy is poor, fabric overall mechanical properties weak, efficiency is low Etc. technical problem.

Technical scheme is as follows：

A kind of circular cone, circular cylindrical shell three dimensional fabric loom, including mainframe, wherein, also include core, let-off mechanism, tapping machine Structure, picking motion and beating-up mechanism, core is arranged in mainframe, and let-off mechanism, shedding mechanism and picking motion are arranged on core Mould periphery, beating-up mechanism is arranged on core；Shedding mechanism include shedding harness cord, shedding harness cord annulus, shedding harness cord keevil and Heald lifting device, shedding harness cord keevil has aperture, and shedding harness cord one end is connected with warp thread, and the other end bypasses shedding harness cord circle Ring, and pass through the aperture on shedding harness cord keevil to be connected with heald lifting device, heald lifting device will be attached thereto by shedding harness cord Warp thread lifts, and forms opening；Picking motion includes central shaft, automatic open/closing device and wefting insertion siphunculus, automatic open/closing device top On center shaft, bottom is fixedly connected with wefting insertion siphunculus for socket, wefting insertion siphunculus generally circular in shape and internal for hollow structure, and draw Latitude siphunculus is at least divided into two sections；After picking motion enters Warp opening, automatic open/closing device controls wefting insertion siphunculus closure, weft yarn Enter at the segmented openings of wefting insertion siphunculus, in wefting insertion siphunculus, motion one circle completes a wefting insertion, then will by beating-up mechanism Weft yarn is urgent.

Described circular cone, circular cylindrical shell three dimensional fabric loom, wherein, let-off mechanism includes warp thread suspension ring, warp thread harness cord, warp The little keevil of yarn and spring, warp thread suspension ring are fixed on mainframe, and warp thread one end is connected with warp thread suspension ring, the other end and warp thread harness cord Connect, the little keevil of warp thread has aperture, warp thread harness cord passes through the aperture on the little keevil of warp thread to be connected with spring, and spring is fixed on On mainframe.

Described circular cone, circular cylindrical shell three dimensional fabric loom, wherein, automatic open/closing device includes bag mouth opener and swings dress Put, bag mouth opener is socketed on center shaft, and bag mouth opener is flexibly connected with pendulous device, pendulous device is fixing with wefting insertion siphunculus even Connect.

Described circular cone, circular cylindrical shell three dimensional fabric loom, wherein, bag mouth opener includes slip buckle and bar of dehiscing, sliding Dynamic buckle is socketed on center shaft, and bar one end of dehiscing is connected with slip snap beads, rotates setting, dehisce centered on junction point The bar other end is flexibly connected with pendulous device.

Described circular cone, circular cylindrical shell three dimensional fabric loom, wherein, wherein, pendulous device includes fixing buckle and fork, Fixing buckle is fixedly connected with central shaft, and fork one end is connected with fixing snap beads, rotates setting, pendulum centered on junction point The bar other end is fixedly connected with wefting insertion siphunculus.

Described circular cone, circular cylindrical shell three dimensional fabric loom, wherein, also include clip arrangement, clip arrangement and central shaft It is fixedly connected.

Described circular cone, circular cylindrical shell three dimensional fabric loom, wherein, clip arrangement includes guide plate and clip, fixing Button is arranged on above guide plate, and fixes on center shaft；It is provided with pilot hole, bar of dehiscing is worn from pilot hole on guide plate Cross.

Described circular cone, circular cylindrical shell three dimensional fabric loom, wherein, beating-up mechanism is reed plate, and reed plate is arranged on core.

Described circular cone, circular cylindrical shell three dimensional fabric loom, wherein, reed plate is made up of multi-disc reed wire, and reed wire is detachable.

Described circular cone, circular cylindrical shell three dimensional fabric loom, wherein, core vertical direction have and are available on beating-up mechanism The stria of lower motion.

In sum, the invention provides a kind of circular cone, circular cylindrical shell three dimensional fabric loom, it is provided with let-off mechanism, opens Mouth mechanism, picking motion and beating-up mechanism, constantly repeat above-mentioned harness motion, motion of weft-insertion and beating motion, make warp thread 22 Ceaselessly interweave with weft yarn, fabric may finally be formed on core 2, realize automatization's weaving circular cone, circular cylindrical shell three-dimensional is knitted Thing.The circular cone of the present invention, circular cylindrical shell three dimensional fabric loom structure are simple, manually will be changed into automated manufacturing by weaving mode Mode, greatly reduces cost of labor, improves work efficiency, and efficiently solve fabric each several part thread density uneven, The technical problems such as textile type face dimensional accuracy is poor, fabric overall mechanical properties weakness.

Brief description

Fig. 1 is circular cone, circular cylindrical shell three dimensional fabric loom axonometric chart.

Fig. 2 is circular cone, circular cylindrical shell three dimensional fabric loom front view.

Fig. 3 is circular cone, the warp thread schematic wiring diagram of circular cylindrical shell three dimensional fabric loom.

Fig. 4 is the structural representation of shedding harness cord keevil.

Fig. 5 is the open configuration schematic diagram of picking motion.

Fig. 6 is the closure state schematic diagram of picking motion.

Fig. 7 is is detail view at A in Fig. 6.

Fig. 8 is core and reed wire structural representation.

Wherein, 1 is mainframe；2 is core；3 is core fixed seat；4 is stria；5 is warp thread harness cord；6 is warp thread suspension ring； 7 is the little keevil of warp thread；8 is shedding harness cord annulus；9 shedding harness cords；10 is shedding harness cord keevil；Axle centered on 11；12 is to slide Buckle；13 is bar of dehiscing；14 is clip；15 is guide plate；16 is fixing buckle；17 is fork；18 is wefting insertion siphunculus；19 are Anti-skidding end button；20 is reed wire；21 is warp thread harness cord；22 is warp thread.

Specific embodiment

For making the objects, technical solutions and advantages of the present invention clearer, clear and definite, develop simultaneously embodiment pair referring to the drawings The present invention further describes.

The invention discloses a kind of circular cone, circular cylindrical shell three dimensional fabric loom, this device is mainly used in realizing automatization knitting Make circular cone, circular cylindrical shell three dimensional fabric.Referring to Fig. 1 and Fig. 2, circular cone, circular cylindrical shell three dimensional fabric loom, including mainframe 1, go back Including core 2, let-off mechanism, shedding mechanism, picking motion and beating-up mechanism.Core 2 is arranged in mainframe 1, let-off mechanism, Shedding mechanism and picking motion are arranged on core 2 periphery, and beating-up mechanism is arranged on core 2.Because circular cone, circular cylindrical shell are three-dimensional Fabric belongs to contoured fabrics, more special in shape, and in weave, a complex step mainly needs to make weft yarn around core 2 Round and just can complete wefting insertion.Therefore want to realize automatic high-efficiency weaving it is necessary to introduce this in shedding and parallel In two key steps, suitable automatic mechanism is set.Therefore, shedding mechanism and picking motion it have been correspondingly arranged in the present invention Introduce this two key steps to complete shedding and parallel.Referring to Fig. 3, shedding mechanism includes taking circular cone core die 2 as a example Shedding harness cord 9, shedding harness cord annulus 8, shedding harness cord keevil 10 and heald lifting device.In fact, because of warp thread 22 quantity on fabric Relatively more, therefore have some apertures on shedding harness cord keevil 10, as shown in figure 4, Fig. 3 schematic diagram only simplifies draws a warp thread 22 situation, to understand.The structure of shedding harness cord 9 is a harness cord with annulus for the two ends, and its one end is connected with warp thread 22, separately One end bypasses shedding harness cord annulus 8, and passes through the aperture on shedding harness cord keevil 10 to be connected with heald lifting device.Heald lifting device is upper and lower Motion, you can lifted the warp thread being attached thereto 22 by shedding harness cord 9, here it is form the principle of opening.During actual weaving, On fabric, the every warp thread 22 of a certain layer all connects a shedding harness cord 9, and every layer of shedding harness cord 9 all bypasses corresponding shedding harness cord Annulus 8, moves finally by controlling heald lifting device, you can once lift the warp thread 22 of a certain layer, make warp thread 22 He of this layer The warp thread 22 of other layers forms an annular opening, so that next step introduces weft yarn.Referring to Fig. 5, picking motion includes central shaft, 11st, automatic open/closing device and wefting insertion siphunculus 18., on central shaft 11, automatic open/closing device is permissible for automatic open/closing device upper socket Slide up and down along central shaft 11.Wefting insertion siphunculus 18 generally circular in shape, internal is hollow structure.Wefting insertion siphunculus 18 can be according to reality Warp thread 22 quantity that fabric needs along the circumferential direction is divided into n section, is at least divided into two sections, in Fig. 5 example, wefting insertion siphunculus 8 is divided into Four sections.Automatic open/closing device bottom is fixedly connected with wefting insertion siphunculus 18, the folding of controllable wefting insertion siphunculus 18.Referring to Fig. 6 and figure 7, during wefting insertion siphunculus 8 closure, segmentation mouth is not complete tight closure, leaves the gap allowing weft yarn to pass in and out.Warp thread 22 forms and opens Before mouthful, wefting insertion siphunculus 18 opens, as shown in figure 5, not interfering with the harness motion of warp thread 22.After warp thread 22 forms opening, from Dynamic closing device makes wefting insertion siphunculus 18 close, wefting insertion siphunculus 18 and then enter at the opening of two-layer warp thread 22.Circular cone, cylinder stand Body loom, by the way of pneumatic picking, introduces weft yarn, special weft end is just in air-flow at the segmentation mouth of wefting insertion siphunculus 18 In the presence of weft traction move one week in wefting insertion siphunculus 18, such weft yarn has just moved one around circular cone, cylindrical shape core 2 In week, complete a circumference wefting insertion.Last by beating-up mechanism, weft yarn is urgent, above step is repeated up to fabric knitting and completes. In sum, the present invention passes through the simple shedding mechanism of setting structure and picking motion so that shedding in weaving process Introduce this two key steps with parallel and can realize automation mechanized operation, greatly reduce cost of labor, improve weaving effect Rate.

In actually used, the version of picking motion, kinematic accuracy and stationarity directly affect the work effect of loom Rate and the quality of fabric.Therefore, in order to improve the kinematic accuracy of picking motion, automatic open/closing device is segmented into two parts and sets Put, top is divided into bag mouth opener, bottom is divided into pendulous device.Referring to Fig. 5 and Fig. 6, the bag mouth opener of upper part includes the card that slides Button 12 and bar 13 of dehiscing.Slip buckle 12 can be set to round pie, and center of circle part is socketed on central shaft 11, and slip buckle 12 Can slide up and down at central shaft 11, to realize folding function.Bar 13 one end of dehiscing is connected with the edge of slip buckle 12, with Setting is rotated, that is, bar 13 of dehiscing can be around 360 ° of rotations of junction point centered on junction point.Such setting makes to dehisce the every of bar 13 One activity point of view can be refined control, and this can greatly improve the precision of folding control.The pendulous device of lower part then includes solid Determine buckle 16 and fork 17.Fixing buckle 16 can be arranged to round pie, and fixing buckle 16 is fixedly connected with central shaft 1, can root According to practical work experience, one optimum position is determined on central shaft 11.Such setting can fix the concrete work of pendulous device Make position.In order to prevent fixing buckle 16 landing, central shaft 11 bottom can arrange an anti-skidding end button 19.Fork 7 one end with Fixing buckle 16 edge connects, and rotates setting centered on junction point, and that is, fork 17 also can be around 360 ° of rotations of junction point.Such Setting makes each activity point of view of fork 17 can be refined control, and this can greatly improve the precision of folding control.By Fig. 5 and Visible shown in Fig. 6, during picking motion opening and closing, form is different, therefore dehisces to be to be flexibly connected between bar 13 and fork 17 , so help to ensure that the motility of motion between device；Fork 17 is fixedly connected with wefting insertion siphunculus 18, so contributes to protecting The accuracy of card transmission.Above-mentioned setting can effectively improve the overall flexibility ratio of picking motion, makes picking motion folding more smooth, And be conducive to improving motion accuracy, it helps achieve automatization.In order to improve the stationarity of picking motion, one can be arranged Individual clip arrangement, the open and close movement for bag mouth opener provides more stably guiding and support.Clip arrangement includes clip 14 He Guide plate 15.Clip 14 can be set to rectangle, is conveniently fixed on central shaft 11.Clip 14 is arranged on the upper of guide plate 15 Side, the lower section of guide plate 15 is fixing buckle 16, and it is unnecessary that such setting can prevent guide plate 15 from operationally occurring Displacement, increases the overall stationarity of picking motion.It is provided with pilot hole, bar 13 of dehiscing passes through from pilot hole on guide plate 15. Such setting ensure that bag mouth opener work when dehisce bar 13 can according to set linear track be smoothly moved, smooth Realize folding function.In sum, picking motion structure is simple, can realize automatically drawing using the mode of pneumatic picking Latitude, replaces existing artificial wefting insertion, substantially increases the efficiency of wefting insertion.

Further, before loom is started working, need to arrange the position of each warp thread 22, be also required in weaving process Constantly add warp thread 22, make fabric warp density evenly.In order that keeping suitable tension force in warp thread 22 work process and adding Plus more smooth orderly during warp thread 22, let-off mechanism can be set.Referring to Fig. 1 and Fig. 2, let-off mechanism includes warp thread suspension ring 6, warp The little keevil of yarn harness cord 21, warp thread 7 and spring（In figure does not draw）.Wherein, warp thread suspension ring 6 are fixed on mainframe 1, warp thread 22 One end is connected with warp thread suspension ring 6, and the other end is connected with warp thread harness cord 21.The structure of warp thread harness cord 21 is similar with shedding harness cord 9, warp The material of yarn harness cord 21 is slightly different with shedding harness cord 9, and warp thread harness cord 21 is more resistant.Some apertures are had on the little keevil of warp thread 7, Its structure is similar with shedding harness cord keevil 10, and its structure refers to Fig. 4.Warp thread harness cord 21 passes through the aperture on the little keevil of warp thread 7 It is connected with spring, wherein spring is fixed on mainframe.The little boring ratio shedding harness cord keevil 10 of the little keevil of warp thread 7 is smaller, so Warp thread harness cord 21 can be limited larger displacement occurs, it is to avoid impact weaving precision.Cone shell fabric typically requires in small end Bind, this circular cone, circular cylindrical shell three dimensional fabric loom bind so that cone shell fabric by the way of the superposition of monolayer plain Top yarn will not fall off, and fabric overall structure is more preferable.Learn from else's experience yarn 22 and each four of weft yarn, interweave a fritter face in plane Long-pending, as one layer plain.A fritter plain all knitted by the way of plain weave by every layer of warp thread 22.With conical core As a example 2, the plain that each layer is woven overlays the small end of core 2 successively, and the small end in core 2 is fixed, each layer of warp Yarn 22 is all uniformly distributed along the bus of core 2.Have neither part nor lot in the woven warp thread of plain 22 and be then fixed on the warp thread of core 2 top and hang On ring 6, the height of warp thread suspension ring 6 can arrange center bolt and adjust.The lower end of these warp thread 22 same with warp thread harness cord 21 phase Even, it is connected with spring by the hole on the little keevil of warp thread 9, these warp thread 22 are for when the small end of core 2 is toward big end weaving Add.Fabric during big end from circular cone small end to circular cone is formed, when knitting circular cone small end, warp thread 22 used Quantity fewer；Then, when knitting toward big end, each cycle needs to add warp thread 22, and the warp thread 22 of interpolation is from fixation Warp thread suspension ring 6 above core 2 take, knits the warp thread 22 being finished on all warp thread suspension ring 6 during big end, thus can obtain Cone shell three dimensional fabric to even density.In sum, be provided with arrange before let-off mechanism can help work each The position of root warp thread 22, and be ready to add and need the warp thread 22 used, these warp thread 22 are all by being connected with warp thread harness cord 21 Spring provides consistent tension force, and keeps even tension.

Parallel in order to be introduced into shedding is urgent, makes warp and the close weave in of parallel, needs setting to beat Latitude mechanism.Because core 2 is shaped as special cone or cylinder, so general beating-up mechanism is not suitable in the present invention Circular cone, circular cylindrical shell three dimensional fabric loom.In order to adapt to the special shape of core 2, beating-up mechanism can be set directly at core On mould 2.In order that beating-up mechanism structure is simpler, beating-up mechanism can be reed plate.Reed plate is made up of multi-disc reed wire 20, and reed wire 20 can Dismounting.Wherein, core 2 vertical direction has some strias 4 being available for reed wire 20 up and down motion, referring specifically to Fig. 8.With circular cone As a example core, the small end of core 2 is upper when mounted, big end under.The end diameter of core 2 is less, and the stria 4 that can open up is just Fewer, more toward the big end of core 2, the stria more than 4 that can open up.Therefore, the setting dismountable mode of reed wire 20 is more suitable This circular cone core die.Equally, it is also to hold woven mode using from small end toward big in actual weaving.Fabric is little in core 2 During the weaving of end, the reed wire 20 of use is less；More past big end weaving, it is necessary to add reed wire 20 in the fixing cycle, so just can make It is tighter that fabric is beaten.Reed wire 20 move up and down weft yarn is got at fell and urgent so that warp thread 22 and weft yarn closely interweave Together, complete the intertexture of a warp thread 22 and weft yarn.

The invention provides a kind of circular cone, circular cylindrical shell three dimensional fabric loom, it is provided with let-off mechanism, shedding mechanism, draws Latitude mechanism and beating-up mechanism, constantly repeat above-mentioned harness motion, motion of weft-insertion and beating motion, so that warp thread 22 and weft yarn is not stopped Ground interweaves, and may finally form fabric on core 2, realizes automatization's weaving circular cone, circular cylindrical shell three dimensional fabric.The present invention's Circular cone, circular cylindrical shell three dimensional fabric loom can weave all three-dimensional woven fabric organizational structuries, including multilamellar stitch weave, orthogonal Tissue and angle interlocking tissue three basic structures.The circular cone of the present invention, circular cylindrical shell three dimensional fabric loom structure are simple, will be artificial Manual weaving mode is changed into automated manufacturing mode, greatly reduces cost of labor, improves work efficiency, and efficiently solves The technical problems such as fabric each several part thread density is uneven, textile type face dimensional accuracy is poor, fabric overall mechanical properties weakness.

It should be appreciated that the application of the present invention is not limited to above-mentioned citing, for those of ordinary skills, can To be improved according to the above description or to convert, all these modifications and variations all should belong to the guarantor of claims of the present invention Shield scope.

Claims (10)

1. a kind of circular cone, circular cylindrical shell three dimensional fabric loom, including mainframe it is characterised in that also including core, warp let-off machine Structure, shedding mechanism, picking motion and beating-up mechanism, described core is arranged in mainframe, described let-off mechanism, shedding mechanism and Picking motion is arranged on described core periphery, and described beating-up mechanism is arranged on described core；Described shedding mechanism includes shedding Harness cord, shedding harness cord annulus, shedding harness cord keevil and heald lifting device, described shedding harness cord keevil have aperture, described shedding Harness cord one end is connected with warp thread, and the other end bypasses described shedding harness cord annulus, and passes through the aperture on described shedding harness cord keevil It is connected with described heald lifting device, the warp thread being attached thereto is lifted by described shedding harness cord by described heald lifting device, form opening； Described picking motion includes central shaft, automatic open/closing device and wefting insertion siphunculus, and described automatic open/closing device upper socket is described On central shaft, bottom is fixedly connected with described wefting insertion siphunculus, described wefting insertion siphunculus generally circular in shape and internal for hollow structure, and Described wefting insertion siphunculus is at least divided into two sections；After described picking motion enters Warp opening, described automatic open/closing device controls institute State wefting insertion siphunculus closure, weft yarn enters at the segmented openings of described wefting insertion siphunculus, motion one circle is in described wefting insertion siphunculus Complete a wefting insertion, then by described beating-up mechanism, weft yarn is urgent.

2. circular cone according to claim 1, circular cylindrical shell three dimensional fabric loom are it is characterised in that described let-off mechanism bag Include warp thread suspension ring, warp thread harness cord, the little keevil of warp thread and spring, described warp thread suspension ring are fixed on mainframe, warp thread one end and institute State warp thread suspension ring to connect, the other end is connected with described warp thread harness cord, the little keevil of described warp thread has aperture, described warp thread harness cord It is connected through the aperture on the little keevil of described warp thread with described spring, described spring is fixed on described mainframe.

3. circular cone according to claim 1, circular cylindrical shell three dimensional fabric loom are it is characterised in that described automatic open-close fills Put including bag mouth opener and pendulous device, described bag mouth opener is socketed on described central shaft, described bag mouth opener and described pendulum Dynamic device is flexibly connected, and described pendulous device is fixedly connected with described wefting insertion siphunculus.

4. circular cone according to claim 3, circular cylindrical shell three dimensional fabric loom are it is characterised in that described bag mouth opener bag Include slip buckle and bar of dehiscing, described slip buckle is socketed on described central shaft, described bar one end and the described card that slides of dehiscing Button edge connects, and rotates setting centered on junction point, and the described bar other end of dehiscing is flexibly connected with described pendulous device.

5. circular cone according to claim 3, circular cylindrical shell three dimensional fabric loom it is characterised in that it is characterized in that, described Pendulous device includes fixing buckle and fork, and described fixing buckle is fixedly connected with described central shaft, described fork one end and institute State fixing snap beads to connect, rotate setting centered on junction point, the described fork other end is fixing with described wefting insertion siphunculus even Connect.

6. circular cone according to claim 4, circular cylindrical shell three dimensional fabric loom be it is characterised in that also include clip arrangement, Described clip arrangement is fixedly connected with described central shaft.

7. circular cone according to claim 6, circular cylindrical shell three dimensional fabric loom are it is characterised in that described clip arrangement bag Include guide plate and clip, described clip is arranged on above described guide plate, and is fixed on described central shaft；Described guiding It is provided with pilot hole, described bar of dehiscing passes through from described pilot hole on plate.

8. circular cone according to claim 1, circular cylindrical shell three dimensional fabric loom are it is characterised in that described beating-up mechanism is Reed plate, described reed plate is arranged on described core.

9. circular cone according to claim 8, circular cylindrical shell three dimensional fabric loom are it is characterised in that described reed plate is by multi-disc Reed wire forms, and described reed wire is detachable.

10. circular cone according to claim 1, circular cylindrical shell three dimensional fabric loom are it is characterised in that described core is vertically square Have the stria being available for that described beating-up mechanism moves up and down upwards.