KR101844545B1 - fiber rope knitting apparatus for manufacturing falling rock preventing net - Google Patents

Abstract

A knitting apparatus of fiber ropes for manufacturing a rockfall preventing net according to the present invention comprises: a main body frame; a warp yarn supplying unit; a warp yarn conveying unit; a weft yarn supplying unit; a weft yarn conveying unit; a sewing yarn supplying unit; a knitting unit; and an integrated driving unit for supplying driving power all together to the warp yarn conveying unit, the weft yarn conveying unit, and the knitting unit. Accordingly, the knitting apparatus of fiber ropes for manufacturing a rockfall preventing net, which is capable of quickly and firmly binding the warp yarn and weft yarn to a sewing thread when manufacturing a rockfall preventing net with the fiber ropes including natural fibers can be provided.

Description

Technical Field [0001] The present invention relates to a fiber rope knitting apparatus for manufacturing a fall-

More particularly, the present invention relates to a fiber rope knitting apparatus for manufacturing a rockfall preventing net, and more particularly, to a fiber rope knitting apparatus for manufacturing a rockfall knock preventing net, which is capable of preventing a traffic loom caused by rocks and rock- The present invention relates to a fiber rope knitting machine for fabricating a fall-roughened mesh capable of being manufactured by weaving a net structure provided on a slope or the like with a natural fiber material such as coconut yarn.

Generally, rockfall prevention facilities are structures that are installed to prevent traffic damages, road structure damage, property damage and loss of life due to rocks and rock slopes adjacent to the roads, rock collapses, and so on.

The function of a typical anti-rockfall facility is to resist the impact of rockfall, to suppress the rockfall movement, absorb the energy of rockfall, prevent falling rocks from entering the road, Function is a basic function.

On the other hand, the anti-rocking facilities are divided into a reinforcing method and a protection method according to functions, and the protection method includes a rockfall prevention network, a rockfall prevention fence, a rockfall preventing retaining wall, and a car tunnel.

Among the rockfall prevention facilities, the rockfall prevention network is a facility to cope with the rockfall by covering the incision surface of the rock and rock with the possibility of falling rock by using the wire rope as a material. It prevents rockfall in advance, It is a structure that leads to the lower part of the prevention net.

In addition, a more detailed explanation of the rockfall preventing network is as follows: a part where a discontinuity is likely to occur due to deepening of discontinuity due to rainfall, weathering, and the action of tree roots is covered with an iron net made of a wire rope, It is a facility that suppresses the kinetic energy of the rock by self-weight and trapping effect of relaxed rock.

The rockfall prevention network is composed of a non-pocket-type rockfall prevention net, which serves to hold the relaxed rock piece between the incision surface and the mesh using the frictional force between the wire mesh and the incision surface, and the pole rope, It can be roughly divided into a pocket type rockfall prevention network that induces a rockfall to dampen the energy of a rockfall by impinging the rockfall on a wire net so that the rockfall does not flow into the road but flows down to the bottom of the rockfall prevention net.

An example of a conventional rockfall preventing network is disclosed in Korean Patent Registration No. 10-1682624 (registered on Nov. 29, 2016, hereinafter referred to as "Patent Document 1").

However, since this fall-prevention network is provided with a wire rope, there is a problem that the fall-off weight is accumulated due to the loosening property, and the manufacturing cost is increased because the material is expensive.

On the other hand, when a conventional rockfall prevention network manufacturing apparatus is used to fabricate a rockfall prevention network not in a wire rope but in the form of a mesh by weaving a string or a string made of a certain thickness of a fiber material, Therefore, there is a problem that the manufactured rockfall prevention net can be easily released during the construction process.

In addition, according to the apparatus for manufacturing a rockfall preventing net according to the related art, the transferring process for wefting warp yarns is performed after waiting for a long time after weaving each weft yarn on the warp yarns, There is a problem that the cost can be increased because it is difficult.

Korean Patent Registration No. 10-1682624 (registered on Nov. 29, 2016)

It is an object of the present invention to provide a fiber rope knitting apparatus for fabricating a fall-resistant stone capable of fast and firmly binding warp yarns and weft yarns to a sewing thread when producing a pro-rockfall preventing net with fibers including natural fibers.

A further object of the present invention is to provide a fiber rope knitting machine for fabricating a fall rope knitting fabric capable of improving the overall productivity by facilitating a transfer process for weaving weft yarns in a warp, .

Another object of the present invention is to provide a fiber rope knitting apparatus for fabricating a fall rope knitting apparatus capable of preventing a fall-prevention network made by weaving the same material from a natural fiber material such as coconut yarn from being easily unwound after a construction process or after construction.

In order to accomplish the above object, the present invention provides a fiber rope knitting machine for manufacturing a fall prevention network, comprising: a body frame forming an outer appearance; A slant supply unit provided at the rear of the body frame to supply a slant; A slant conveying unit having slant conveying chains provided on both sides of the main body frame to convey the slant supplied from the slant feeding unit and to be knitted together with the weft; A weft supply unit for supplying weft yarn to the main body frame; A weft transferring unit having a weft transferring unit for transferring the weft supplied from the weft supply unit in the transverse direction in the inclined transfer direction; A sewing thread supply unit provided in the main body frame to supply a sewing thread for binding points where warp and weft meet; A plurality of sewing threads supplied from the sewing thread supply unit are arranged at a position where the warp yarns and the weft yarns meet at a position where the warp yarns come in contact with each other, And a lower needle loop provided horizontally in a transverse direction in a transverse direction in the lower direction is horizontally reciprocated horizontally left and right along the upper needle loop and is vertically reciprocated, A knitting section provided to hang the sewing thread caught by the upper needle loop by the upward movement and to be lowered downward by the downward movement; And an integrated driving unit provided at one side of the body frame to simultaneously provide the driving force to the warp feeder, the weft transferring unit, and the knitting unit.

Here, a hook is formed in the form of a loop so that the sewing thread is inserted into the lower portion of the upper needle loop, and a hook is formed in the form of a hook so that a sewing thread is caught on the lower needle loop.

The weft feeding unit includes a tilting conveying unit that transmits the driving force provided by the integrated driving unit to the tilting conveyance unit to intermittently convey the tilting, and a driving unit that transmits the driving force to the tilting conveyor to continuously guide the weft in a transverse direction And a weft feeder driving unit for feeding the weft yarn fed from the weft feeder to the yarn feeder, wherein the weft yarn feeder includes a weft yarn feeder, It is preferable that a pulley is provided.

According to the present invention, it is possible to provide a fiber rope knitting apparatus for fabricating a fall-prevention-prevention network capable of quickly and firmly binding warp yarns and weft yarns to a sewing thread when fabricating a pro-rockfall preventing net with fibers including natural fibers.

In addition, it is possible to provide a textile rope knitting machine for manufacturing a fall-resistant-fiber-mesh, which is capable of improving the overall productivity by allowing a transfer process for weaving weft yarns to be performed quickly, and at the same time, have.

In addition, it is possible to provide a fiber rope knitting apparatus for fabricating a fall-resistant stone capable of preventing a fall-preventing network manufactured by weaving the same material from a natural fiber material such as a coconut yarn from being easily unwound after a construction process or after construction .

BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 is a front view of a fiber rope knitting apparatus for fabricating a fall-protection-preventing net according to the present invention,
FIG. 2 is a side view of a fiber rope knitting apparatus for manufacturing a fall-protection-preventing net according to the present invention,
FIG. 3 is an enlarged view of a portion of a main body frame of a fiber rope knitting apparatus for fabricating a fall-protection network according to the present invention,
FIG. 4 is an enlarged perspective view of a part of the fabric rope knitting apparatus for fabricating a fall-protection-preventing net according to the present invention,
FIG. 5 is an enlarged perspective view of a part of the lower knitting transferring portion of the fiber rope knitting machine for manufacturing a fall-protection-preventing net according to the present invention,
FIG. 6 is an enlarged perspective view of a part of the upper portion of a textile rope knitting machine for manufacturing a fall-protection-preventing net according to the present invention,
FIG. 7 is an enlarged perspective view of a part of the lateral rolling axis of the fiber rope knitting apparatus for fabricating a fall-protection-prevention net according to the present invention,
FIG. 8 is an enlarged perspective view of a portion of the fiber rope knitting apparatus for fabricating a fall-protection network according to the present invention, in which a portion for interlocking the tilting conveying driving portion, the weft conveying driving portion, the upper knitting driving portion,
FIG. 9 is an enlarged perspective view of a part of the fibrous rope knitting machine for fabricating a fall-protection network according to the present invention,
FIG. 10 is an enlarged perspective view of a part of the weft transferring and weft transferring part of the fiber rope knitting machine for manufacturing a fall-protection-protection net according to the present invention,
FIG. 11 is an enlarged perspective view of a part of the lower loop transferring portion of the fiber rope knitting machine for manufacturing a fall-protection-resistant net according to the present invention,
FIGS. 12 to 15 illustrate a process in which a point where warp and weft meet each other by the upper needle loop and the lower needle loop of the knitting section according to the present invention,
16 is an enlarged side view of an upper needle ring and a lower needle ring according to the present invention,
FIGS. 17 and 18 are views showing a process in which a weft-pushing guide according to the present invention assists knitting a sewing thread by a knitting portion, FIG.
19 is a view showing a weft guide pulley according to the present invention.

Hereinafter, the present invention will be described in detail with reference to the accompanying drawings.

As shown in FIGS. 1 and 2, the fiber rope knitting machine for fabricating a rockfall preventing net according to the present invention includes: a main body frame 100 forming an outer appearance; A warp supply portion 193 for supplying warp yarns 3 made of a natural fiber material such as coconut yarn to the main body frame 100 and a weft supply portion 193 for supplying warp yarns 3 made of a natural fiber material, A sewing yarn feeder 195 for feeding a sewing thread 5 that knits a point where the warp yarns 1 and the weft yarns 3 meet with each other and a warp yarn feeder 210 and a weft yarn feeder 220, (230), and an integrated driver (240).

Accordingly, it is possible to provide a fiber rope knitting apparatus for fabricating a fall-protection network capable of producing a fall-preventing network using a natural fiber material such as coconut yarn so that the loosening property can be improved and the material cost can be reduced.

As shown in FIGS. 1 to 3, the main body frame 100 is formed of a plurality of steel frames to form an outer appearance of the fiber rope knitting machine according to the present invention. The rear portion adjacent to the slant feeding portion 191 The inclined supply guide bar 110 is provided horizontally horizontally across the main body frame 100 to guide the plurality of inclined yarns 1 supplied from the inclined supply unit 191 to be aligned in a line.

As shown in Fig. 3, on both sides of the body frame 100, warp yarns 1 are fed to the main body frame 100 and weft yarns 3 arranged in the warp yarns 1 are pressed. And a pressing guide 120 for guiding the retaining member 3 in a state in which it is disposed on the inclined surface 1 is provided.

As shown in FIG. 2, the warp feed section 191 is provided at the rear of the main body frame 100, and a plurality of warp-wound bundles wound therein are disposed on the floor, and each warp- The slopes 1 drawn out from the slits 1 are arranged in a row so as to be arranged to be transported to the main body frame 100.

As shown in FIG. 1, the weft supply unit 193 is provided at one side of the main body frame 100, and one weft wound bundle is disposed inside, and the weft yarn 3 drawn out from the weft bundle bundle And is prepared to be fed to the main body frame 100 through the pulley provided on the upper portion of the main body frame 100.

1 and 2, the sewing thread supply unit 195 is provided on one side of the front upper portion of the main body frame 100 so that the sewing thread winding bundles each wound with the sewing thread 5 are wound on the left and right sides of the main frame 100 So that the sewing threads 5 are prepared to be fed to the knitting part 230.

In one embodiment of the present invention, the sewing thread 5 supplied from the sewing thread supply part 195 preferably includes a synthetic resin material.

2 to 5, the warp feeder 210 is provided on both sides of the main body frame 100 to feed the warp yarn 1 fed from the warp feeder 191 and to be knitted together with the weft yarn 3. [ And an inclined conveyance chain 211 which is inclined.

For this purpose, the left and right sides of the body frame 100 are recessed from the upper portion along the movement path of the inclined conveyance chain 211 so as to prevent the inclined conveyance chain 211 from being released during conveyance, And a chain rail groove for guiding the guide rail.

Thus, the transfer of the warp yarns 1 and the warp yarns 3 is performed by the chain transmission structure, so that the transfer process for binding the weft yarns 3 to the warp yarns 1 can be performed quickly, thereby improving the overall productivity And the manufacturing process can be simplified so that the production cost can be reduced.

3 to 6, it is preferable that the weft guide bracket 213 is provided at an upper portion of the warp feed chain 211 so as to protrude upward at regular intervals.

The weft yarn 3 is wound on the weft guide bracket 213 so that the weft yarn 3 is shifted in the warp direction by the warp yarn transfer unit 220, The slope 1 can be transferred together with the weft yarn 3 by the movement of the slant conveyance chain 211 in a state where the weft yarns are arranged in the transverse direction staggered left and right with respect to the weft yarn 1. The weft guide 3 is wound around the weft guide bracket 213 to prevent the weft yarn 3 from being detached from the weft guide bracket 213 when the direction is changed, The positions where the weft yarns 3 and the warp yarns 1 meet with each other in the weaving portion 230 can be maintained completely without being disturbed until they are woven with the sewing thread 5.

1 and 10, the weft transferring unit 220 includes a weft transferring chain 221 for transferring the weft yarn 3 fed from the weft supply unit 193 in the transverse direction in the inclined feeding direction, And a weft transferring bracket 223 protruding from the top of the chain 221 to receive the weft yarn 3 supplied from the weft supply unit 193 and to transfer the weft yarn 3 by the movement of the weft transferring chain 221 .

2 and 4, the knitting portion 230 is provided so that the sewing thread 5 supplied from the sewing yarn supplying portion 195 is knitted at the point where the warp 1 and the weft yarn 3 meet each other, 15, a plurality of upper needle rings 231 arranged in a line in the transverse direction in the oblique feeding direction from the upper portion are formed in a state in which the sewing thread 5 supplied from the sewing yarn supplying portion 195 is vertically hooked And a plurality of lower needle hooks 235 provided in the horizontal direction in the horizontal direction at the lower portion are horizontally reciprocated left and right along the upper needle hook 231 and are vertically reciprocated The left and right horizontal reciprocating motion is provided so as to be performed in a state in which the sewing thread 5 caught by the upper needle ring 231 is hooked up by the upward movement and descended downward by the downward movement.

This makes it possible to quickly and firmly bind the warp yarns 1 and the weft yarns 3 to the sewing thread 5 when fabricating the prophylaxis prevention net with fibers including natural fibers such as coconut yarn, Device can be provided.

12 shows a state in which the upper needle ring 231 of the knitting part 230 according to the present invention is attached to the sewing thread 5 supplied from the sewing yarn supplying part 195 and is viewed from the back to the front of the knitting machine, The lower needle ring 235 is horizontally moved to the left in the state of being horizontally moved to the left with reference to the inclination 1 of the upper needle ring 231 and then raised vertically to be in a state immediately before the sewing thread 5 hooked to the upper needle ring 231 is hooked 13 is a view showing a state in which the lower needle ring 235 is vertically lowered by hanging the sewing thread 5 hooked to the upper needle ring 231 and FIG. 14 is a view showing the upper needle ring 231 The lower needle ring 235 is moved horizontally from the lower side of the inclination 1 to the upper side by hooking the sewing thread 5 and then the upper needle ring 231 is moved horizontally to the right side with respect to each inclination 1. [ To sew the sewing thread 5 at another position, Showing the W state diagram, and Fig. 15 is a view showing a state in which the lower needle ring 235 to make a sewing thread (5) which pass on to the upper needle ring 231 again lowered vertically.

For this, a plurality of upper needle rings 231 are coupled to the upper support 233 horizontally arranged across the main frame 100 at regular intervals, The upper support body 233 is horizontally reciprocated as the upper support body 233 is horizontally reciprocated by the upper support body 233 and the lower support body 233 is horizontally reciprocated as the upper support body 233 is horizontally reciprocated horizontally, A plurality of sliding blocks 237a (refer to FIG. 11) horizontally slidable on the support body 237 are horizontally coupled to each other at regular intervals to be coupled to a lower lift arm 611 of a lower knitting- The sliding block 237a provided on the lower support body 237 is moved in the left and right directions by the lower electric motor 660 of the lower knitting motor unit 600, which will be described later, as the lower support body 237 ascends / On a horizontal return The lower needle ring 235 is reciprocated horizontally and the lower support 237 is fixed to both ends of the lower support 237 by engaging with the engaging portion 130 provided at both ends of the main frame 100, The upper support 233 and the lower support 237 are horizontally disposed to cross the main body frame 100 and guide the lower needle ring 235 up and down on the rear side A knitting guide block 239 in which the needle elevating guide groove is recessed is provided.

That is, the upper needle ring 231 of the knitting part 230 according to the present invention is horizontally reciprocated right and left by the transmission of the upper knitting power transmitting part 500, and the lower needle ring 235 is connected to the lower knitting driving part 600 in a substantially U-shaped path.

The upper needle ring 231 is received by the sewing thread 5 supplied from the sewing yarn supplying portion 195 and is horizontally reciprocated horizontally by sewing the sewing thread 5. The upper needle loop 231 is guided by the warp 1 and the weft The sewing thread 5 is inserted into the lower needle loop 235 which is vertically moved up and down when the lower needle bar 3 is conveyed to the lower portion of the upper needle loop 231 so that the sewing thread 5 is inserted into the point where the warp and weft meet And the lower needle ring 235 is reciprocated horizontally and vertically with the sewing thread 5 sandwiched between the upper needle ring 231 and the points where the warp 1 and the weft yarn 3 meet each other are bundled with the sewing thread 5 .

As shown in FIG. 16 (a), a ring 232 is formed in the form of a ring so that the sewing thread 5 is inserted into the lower portion of the upper needle ring 231, It is preferable that the hook portion 236 is formed in the shape of a hook so that the sewing thread 5 is hooked on the upper portion of the lower needle ring 235 as shown in (b) of FIG.

Accordingly, it is possible to prevent the sewing thread 5 from being separated from the upper needle ring 231 by the ring part 232 formed in the form of a closed curve, and it is possible to prevent the sewing thread 5 from being detached from the upper needle ring 231, The lower needle ring 235 can be hooked on the sewing thread 5 by the hook 236 so that the sewing thread 5 can be easily transferred and weaved.

16 (b), in the lower needle ring 235, a hooking guide 235a is formed below the hooking portion 236 so as to extend downward toward the open region of the hooking portion 236 .

13 to 15, when the lower needle ring 235 is lowered by the sewing thread 5 from the left side of the warp yarn 1, the loop of the sewing thread 5 hooked to the catching portion 236 The state of the sewing thread 5 hooked first in the form of a ring when the lower needle ring 235 is lifted again from the right side of the inclination 1 is caught by the interlocking guide 235a, The sewing thread 5 at another position sandwiched between the upper needle thread 231 and the lower needle thread 235 is newly hooked through the hooking part 236 and is lowered and horizontally moved again so that the sewing thread 5 is tightly woven.

As shown in FIGS. 2 and 8, the integrated drive unit 240 is provided with a drive motor having a rotation axis that is rotated in the transverse direction in the inclined transport direction at one side of the main body frame 100, and includes the inclined transport unit 210, And the driving force is provided at one time by the conveying unit 220 and the knitting unit 230.

The warp feeder 210, the weft feeder 220 and the knitting machine 230 are all operated by the driving force provided by the single integrated driver 240 so that the loss of driving energy is minimized, The operation of the rope knitting machine can be made much easier and easier.

4 to 11, the fiber rope knitting machine for fabricating a rockfall preventing net according to the present invention is characterized in that the driving force provided by the integrated driving part 240 is transmitted to the warp conveying part 210, A weft transferring driving unit 300 for transferring a driving force to the weft transferring unit 220 so that the weft yarns 3 are successively transferred in a lateral direction to the left and right with respect to the warp yarns 1, A lower needle ring 231 and a lower needle ring 235. The upper needle ring 231 is continuously reciprocated by horizontally reciprocating the upper needle ring 231 by transmitting a driving force to the upper needle ring 231, And a lower knitting speed transmission portion 600 for continuously rotating the needle ring 235 horizontally and vertically.

Thereby, all of the manufacturing processes of transferring the warp yarn 1, the transfer of the weft yarn 3, and the points where the warp yarns 1 and the weft yarns 3 meet with the sewing thread 5 are all sequentially carried out, And the integrated driving unit 240, as shown in FIG.

1 and 2, the inclined conveying driving unit 300 includes a horizontal rotating crank 310 (see FIG. 1) having an inclined lifting arm 311 rotated in conjunction with the integrated driving unit 240 and vertically lifted up and down on one side, A sprocket bracket 320 rotatably provided at one end of the inclined lifting arm 311, a slanting electric sprocket 330 rotatably installed at the other end of the sprocket bracket 320, A ratchet 340 which is hung on one side of the electric sprocket 330 to prevent reverse rotation of the inclined motor sprocket 330 and a ratchet 340 which is interlocked with the horizontal rotation crank 310 and rotates across the body frame 100 And transmits the driving force provided by the integrated driving unit 240 to the weft transporting power transmission unit 400, the upper knitted power transmission unit 500 and the lower knitted power transmission unit 600, And includes an electric shaft 350.

Accordingly, when the integrated driving unit 240 is operated, the driving force is smoothly transmitted to the inclined conveyance unit 210 through the inclined conveyance power transmission unit 300, and the inclined conveyance chain 211 and the weft guide bracket 213 guide the inclined one And the weft yarns 3 arranged in the transverse direction on the warp yarns 1 can be easily transferred together.

2 and 7, a transmission belt 140 is provided between the integrated drive unit 240 and the horizontal rotation crank 310, and the sprocket bracket 320 and the ratchet 340 And a bearing portion 150 is provided between the inner side of the main body frame 100 and the center portion of the transverse electric motor shaft 350. [

2, the teeth 331 formed on the outer circumferential surface of the warp electric sprocket 330 are formed such that a pair of long teeth 331 of one long and one short tooth of a long tooth 331 form a pair Is preferably formed.

Thus, when the sprocket lock 320 is engaged with the teeth 331 of the tilting motor sprocket 330, the tilting of the tilting 1 is interrupted by the tilting conveyor chain 211 intermittently The weft yarns 3 can be smoothly transported and arranged in the transverse direction in the transport direction of the warp yarns 1 by sufficiently allowing the weft yarn guide 3 to be wound on the weft guide brackets 213. [

As shown in Figs. 1 and 8, the weft transferring driving unit 400 includes a third bevel gear 410 which is engaged with and rotated by a second bevel gear 510 of the upper knitting motor 500, The third bevel gear 410 is provided at one end of the third bevel gear 410 and rotates about the axis line disposed in the transverse direction on all of the horizontal rotation axis 520 of the upper transmission section 500 and the horizontal transmission axis 350, 9 and 10, a first weft-wound motor sprocket 430 provided at the other end of the front-rear rotating shaft 420 and a second weft motor spooler 430 provided at the other end of the first weft motor sprocket 430, And a second weft motor sprocket 440 interlocked with the first weft motor sprocket 430 via the electric chain 160 to transfer the weft transport chain 221.

The transfer of the weft yarn 3 for disposing the weft yarn 3 in the transverse direction in the conveying direction of the warp yarn 1 is thus performed by the transmission structure of the chain so that the conveyance of the weft yarn 3 is performed smoothly and smoothly And the transfer process for weaving the weft yarn 3 on the warp yarn 1 can be performed quickly.

8 and 9, both end portions of the front and rear rotation shaft 420 can be smoothly rotated by the bearing portion 150 provided at the lower portion of the main body frame 100 And the weft yarn 3 is wound around the weft guide bracket 213 when the weft conveyance bracket 223 of the weft conveyance unit 220 is conveyed by the power transmission through the weft conveyance driving unit 400 as shown in FIG. The weft yarn feeder 220 is wound around the weft yarn feeder 220 to detect whether the weft yarn transferring bracket 223 has been transferred to the position where the weft yarn transferring direction is switched to the left or right, As shown in FIG. 2, when the weft yarn 3 is not properly conveyed on one side of the side surface of the main body frame 100 on the basis of the result detected by the weft yarn transfer detecting unit 170, It can be used to inform That the printer control controller 180 that receives the commands provided is preferable.

The weft transfer detecting unit 170 may be provided as a proximity sensor that combines a lamp or a light emitting diode with an optical sensor.

19, the weft supply unit 193 and the weft transporting unit 400 are rotated by the driving force of the weft transporting power transmission unit 400, 3 to guide the feed direction of the weft guide pulley 194.

Accordingly, the feed of the weft yarn 3 can be performed more smoothly and stably by the weft guide pulley 194.

19, guide grooves guiding the weft yarns 3 are formed in the outer circumferential surface of the weft guide pulley 194, and lubricant oil flows through the weft guide pulley 194, and a lubricant oil passage formed by the lubricant oil discharge holes formed in the guide grooves is formed And a lubricating oil injecting portion 194a is provided on one side so as to supply lubricating oil from the outside to the lubricating oil passage.

Thus, lubricating oil is supplied to the inside of the weft guide pulley 194 through the lubricating oil injecting section 194a to be discharged to the guide groove in which the weft yarn 3 is guided, so that the natural fibers such as coconut yarn, Even if the weft guide pulley 194 is suddenly transported at a high speed by the rotation of the weft guide pulley 194 when the conveyance is guided to be knitted as a rope, the weft guide pulley 194 is kept in a fully intact state So that the conveyance can be smoothly guided.

6 and 8, the upper knitted power transmitting portion 500 includes a second bevel gear 510 which is rotated by being engaged with the first bevel gear 351 of the transverse electric motor shaft 350, A vertical rotation shaft 520 vertically installed on an upper portion of the gear 510 and rotated around a vertical axis, and an upper electric arm 531 provided on an upper portion of the vertical rotation shaft 520 and reciprocating left and right, (Not shown).

Thus, the upper support body 233, which is reciprocally connected to the lower portion of the lower arm body 531, is reciprocally driven with respect to the lower support body 237 by the power transmission of the upper transmission arm 531 The upper needle loop 231 is horizontally reciprocated and an upper knitting process is performed in which the sewing thread 5 is sandwiched between the warp yarns 1 and the weft yarns 3 so that warp yarns 1 made of a natural fiber material such as coconut yarns The weft thread 3 is woven into the warp yarns 1 so that the weft thread 5 is woven together at the position where the weft yarns 3 of the same material are woven together so as to prevent the weft loosening preventing thread The present invention can provide a fiber rope knitting apparatus for fabricating a fall-prevention-protection network.

8, the vertical rotation shaft 520 is supported by a bearing part 150 provided on a side surface of the main body frame 100 to be capable of smoothly rotating. As shown in FIG. 6A, A vertical rotating plate 540 having an area larger than that of the vertical rotating crank 530 is provided at a lower portion of the vertical rotating crank 530. A pair of upper cams 540 are provided on the upper surface of the vertical rotating plate 540, The vertical rotation plate 540 is formed on the upper surface of the vertical rotation plate 540 in the body frame 100 so as to be symmetrical with respect to the vertical rotation plate 540, An upper seesight unit 550 is provided in which the seesaw ascending operation is repeated when the upper seesaw unit 550 comes into contact with the upper cam 541 in a rolling contact relationship with the upper seesaw unit 550, 100, a seat return spring 551 is provided The weft pressing guide 560 repeatedly rotated by the seesicking operation of the upper seesaw unit 550 is mounted on the rotation axis of the upper seesaw unit 550 as shown in Figures 2 and 6, It is preferable that the knitted fabric 230 is provided in front of the knitting portion 230 in a direction crossing the knitting portion 230.

Thus, not only the upper needle loop 231 can be horizontally reciprocated by the upper knitting electromotive section 500 but also the warp 1 and the weft yarns 3 can be more stably carried out by the sewing thread 5.

6 and 17, the weft pushing guide 560 includes a pivot shaft 561 connected to the upper seesaw unit 550 and a pivot shaft 561 extending rearwardly from the lower portion of the pivot shaft 561 And a bracket portion 563 formed of a metal plate.

17 and 18, when the pivot shaft 561 of the weft pushing guide 560 is pivoted to move the lower portion of the bracket portion 563 forward, the bracket portion 563 is extended toward the rear of the bracket portion 563 The sewing thread 5 is more smoothly and easily woven by the knitting yarn 230 without interference at the point where the weft yarn 3 and the warp yarn 1 meet each other .

As shown in FIGS. 5 and 9, the lower knitted power transmission unit 600 includes a lower elevating arm (not shown) connected eccentrically to both ends of the horizontal transmission shaft 350 and vertically moved up and down when the horizontal rotating crank 310 rotates, A lower elevating crank 610 provided at an upper portion of the lower elevating crank 610 and a lower elevating crank 610 provided at an upper portion of the lower elevating crank 610. The lower elevating crank 610 is coupled to the transverse electric shafts 350 by a transmission chain 160, And a bottom cam 631 formed on the outer circumferential surface of the lower motor 631. When the lower motor 631 is in rolling contact with the outer circumferential surface of the lower motor 631 when the lower motor sprocket 630 rotates and comes into contact with the lower cam 631, The lower seesaw unit 640 provided on the upper portion of the sprocket 630 and the upper portion of the lower seesaw unit 640 are pivotally connected to the upper portion of the lower seesaw unit 640, And a lower link unit (6 And a lower electric arm 660 which is rotatably connected to the lower link unit 650 so as to be laterally horizontally reciprocated by the rotation of the lower link unit 650 and which horizontally reciprocates the lower needle ring 235 horizontally, .

5, a lower lifting link 620 is rotatably connected to an upper portion of the lower lifting arm 611, and a lower lifting link 620 is coupled to a lower lifting link 620. In this embodiment, And a link return spring 651 is preferably provided between the end of the lower link unit 650 and the lower portion of the main body frame 100 as shown in FIG.

Accordingly, the lower needle rings 235 are lifted and lowered by the power transmission of the lower lifting arm 611 that is reciprocated up and down, and by the power transmission of the lower electric arm 660 horizontally reciprocating from side to side, The sewing thread 5 inserted from the upper needle ring 231 at the points where the warp thread 1 and the weft thread 3 meet each other and the lower needle thread 235 is reciprocated horizontally, The sewing thread 5 is woven together at a position where the weft yarns 3 of the same material are stitched on the warp yarns 1 made of natural fibers such as coconut yarns, Of the warp yarn (1) to prevent loosening of the warp yarn (3) from loosening during the construction process.

While the invention has been described in connection with what is presently considered to be practical exemplary embodiments thereof, it is to be understood that the invention is not limited to the disclosed embodiments, but, on the contrary, It will be understood by those skilled in the art that various changes in form and details may be made therein without departing from the spirit and scope of the invention as defined in the appended claims.

100: body frame 191: inclined feed part
193: weft supply part 195: sewing thread supply part
210: an inclined feed portion 211: an inclined feed chain
220: Weft feeder 221: Weft feeder chain
230: knitting portion 231: upper needle ring
235: Lower needle loop 240: Integrated drive
300: an inclined conveying driving unit 310: a horizontal rotating crank
311: inclined lifting arm 320: sprocket bracket
330: slant electric sprocket 340: ratchet
350: transverse electric shaft 351: first bevel gear
400: Weft feeder drive unit 410: Third bevel gear
420: front and rear rotating shafts 430: first driven sprocket
440: second weft motor sprocket 500: upper knitting transfer unit
510: second bevel gear 520: vertical rotating shaft
530: Vertical rotation crank 531: Upper transmission arm
600: lower knitting transfer section 610: lower lift crank
611: Lower lift arm 630: Lower drive sprocket
631: Lower cam 640: Lower seesaw unit
650: lower link unit 660: lower electric arm

Claims (3)

A body frame forming an appearance;
A slant supply unit provided at the rear of the body frame to supply a slant;
A slant conveying unit having slant conveying chains provided on both sides of the main body frame to convey the slant supplied from the slant feeding unit and to be knitted together with the weft;
A weft supply unit for supplying weft yarn to the main body frame;
A weft transferring unit having a weft transferring unit for transferring the weft supplied from the weft supply unit in the transverse direction in the inclined transfer direction;
A sewing thread supply unit provided in the main body frame to supply a sewing thread for binding points where warp and weft meet;
A plurality of sewing threads supplied from the sewing thread supply unit are arranged at a position where the warp yarns and the weft yarns meet at a position where the warp yarns come in contact with each other, And a lower needle loop provided horizontally in a transverse direction in a transverse direction in the lower direction is horizontally reciprocating left and right along the upper needle loop and is provided so as to be vertically moved back and forth, A knitting section provided to hang the sewing thread caught by the upper needle loop by the upward movement and to be lowered downward by the downward movement; And
An integrated driving unit provided at one side of the body frame to simultaneously provide the driving force to the warp feeder, the weft transferring unit, and the knitting unit;
Wherein the fiber rope knitting machine comprises: The method according to claim 1,
A hook is formed in the lower part of the upper needle ring in the form of a ring so as to fit the sewing thread,
Wherein a hook portion is formed in the upper portion of the lower needle loop in the form of a hook so as to catch a sewing thread. 3. The method according to claim 1 or 2,
An inclined conveying driving unit for transmitting the driving force provided by the integrated driving unit to the inclined conveyance unit to intermittently convey the inclination;
Further comprising a weft conveying power transmission unit for transmitting a driving force to the weft conveyance unit so that the weft is successively transversely shifted to the left and right with respect to the inclination,
Wherein a weft guide pulley is provided between the weft supply unit and the weft transporting driving unit to rotate by driving force transmission of the weft transporting driving unit and to guide the supplying direction of the weft supplied from the weft supply unit. Textile rope knitting device.

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