KR20100108698A - The reversible apparatus of loom and the manufacturing method of fabrics thereof - Google Patents

Abstract

PURPOSE: A manufacturing method of a fabric using a reverse gear is provided to produce a fabric which is applicable to various blind structures by repetitively forming a projected slat part for a plane-shaped cotton part. CONSTITUTION: A reverse gear of the weaving machine includes a power transferring part which is selected among a pulley, a gear, and a sprocket. The reverse gear includes a power transmission part(50) installed in a shaft(20), a normal and reverse rotating motor(11) connected to the shaft, and an electronic clutch(40) transferring/disconnecting the driving power of the motor. The counter-rotating process of the weaving machine is applied through the motor. A supporting portion(30) is included in the reverse rotation device. The fabric is manufactured by repeating the reverse rotation and normal rotation processes.

Description

The reversible apparatus of loom and the manufacturing method of fabrics etc.

The present invention relates to a reverse weaving device of a weaving machine and a method for producing fabric paper using a reverse weaving device. A pair of warp beams are provided in a conventional weaving machine, and a reverse warp device for rotating the warp beams in reverse is provided. And weaving the curtain section of the intersection of all the supplied warp yarns and the supplied weft yarns to a predetermined width, and then forming two layers of the slat part and the connecting part by the other warp beams, wherein the slat part comprises the intersection of the weft yarn and the warp yarns. Woven, the connecting portion constitutes a connecting portion consisting of only the inclination supplied from the inclined beam provided with the reverse rotating device to a predetermined width, and then operates the reverse rotating device, by pulling the connecting portion in reverse rotation, with respect to the curtain portion of the flat structure Protruding slats repeatedly constitute a woven paper integrally formed, cut the woven paper into a predetermined area, vertical Rind, is capable of providing jikmulji that can be used for various applications, such as Venetian blinds, roll-blind, not only the blind, such as shades, or, bedding, curtains not.

In general, weaving machines (looms) refers to a machine for weaving fabrics, and the warp yarns that are sent side by side from the beam wound as many as the width of the fabric, are inserted into the eyes of the heald. These slopes are divided into two or more groups by separate apparatuses. When the slopes are opened upwards and downwards to form openings, the drums pass through the openings, and the wefts, Vi) crosses up and down of all the inclinations across the opening, and then enters the weft, and then presses the weft with the body and pushes it to the end of the already woven fabric, finally The fabric is completed. In this way, the weft yarn is knitted with one series of yarns, and the yarns of two series of warp and weft yarns are used to repeat the operations such as opening, upward, and body, It is a woven fabric of a rectangular shape.

And a look at the general power transmission structure of the weaving machine, the weaving machine, a discharge part consisting of a warp beam for supplying a warp inclined a plurality of warp, supplying a weft perpendicular to the direction of the warp supplied, the warp and weft A weaving portion for weaving the fabric through the intersection of the winding portion is configured to wind the woven fabric.

In addition, power transmission is required to rotate each axis of the inclined beam, the weaving part, and the winding part. The power transmission is performed by the operation of the main motor and each axis consists of sequential power transmission by gears, pulleys, and belts. The general weaving machine has a main motor and a winding part located at the front of the weaving machine, a sending part is located at the rear of the weaving machine, and constitutes a weaving part between the sending part and the winding part.

In the Korean Utility Model Publication No. 004027, a number of pouch-shaped pouches are formed on the one side of the curtain paper, which is formed in the horizontal direction, and the spaces on the back of the puff are connected by a connecting thread to protrude the pits. It is disclosed for a Roman shade curtain curtain characterized in that it is to be maintained.

However, in the case of the general weaving machine, the main motor can only rotate the warp beam in one direction, and with respect to the general fabric structure, there is a limitation in having the fabric structure according to the deformation of the cross structure of the warp weft by the program of the weaving part. There was.

In addition, in the case of the curtain shade for the Roman shade disclosed above, in the manufacture of force meat, a specific manufacturing method is not specified, but looking at the general manufacturing method, first, simply to fold the fabric fabric can be manufactured by sewing the strength meat However, the manufacturing method, there is a problem that the manufacturing process to sew is further added, the production time is long, the cost is high, and the sewing traces deteriorate aesthetics.

In addition, the power transmission of the warp beam and the winding part is temporarily stopped, and the weaving part is allowed to operate, and the fabric of a certain width can be squeezed while passing the drum thread a plurality of times through the opening made by the warp. According to the width of the weft yarn is not drawn in more, and when the weft hit the body, it can be manufactured to protrude to the upper by pushing the cloth woven in a predetermined width, but the width of the force was extremely small, there was a problem in the process. .

Therefore, the present invention, in order to solve the above problems, to install a pair of inclined beam in a conventional weaving machine, install a reverse rotation device for rotating the one inclined beam in reverse, all the inclined and supplied weft and Weaving the curtain portion of the intersection of a certain width, and then constitute the two layers consisting of the slat portion and the connecting portion by the other inclined beam, the slat is woven at the intersection of the weft and the slope, the connecting portion is inclined with the reverse rotation device After forming the connecting portion consisting of only the inclination supplied from the beam to a predetermined width, and then operating the reverse rotation device, and pulling the connecting portion in reverse rotation, the fabric paper consisting of the integrally repeating slats protruding to the curtain portion of the flat structure By cutting the textile paper to a certain area, vertical blinds, venetian blinds, roll blinds, roman Such as if the blind of Id, and the like, or, bedding, curtains and not to provide jikmulji that can be used for various applications.

As described above, the present invention provides a conventional weaving machine with a pair of inclined beams, a reverse rotation apparatus for rotating the one inclined beams in reverse, and the intersection curtain portion of all the inclined supplies and the wefts supplied. Weaving the width, and then forming the two layers consisting of the slat portion and the connecting portion by the other inclined beam, the slat is woven at the intersection of the weft and the inclined, the connecting portion is inclined supplied from the inclined beam provided with the reverse rotation device After forming the connection portion consisting of only a predetermined width, and then operating the reverse rotation device, by pulling the connection portion in reverse rotation to form a textile paper integrally composed of the slat portion protruding repeatedly to the curtain portion of the flat structure, To a certain area, blind paper such as vertical blinds, venetian blinds, roll blinds, Roman shades, Is, bedding, can provide jikmulji that can be used for various applications, such as a curtain support, and products made from the jikmulji is not required sewing or bonding a highly aesthetic effect.

The present invention relates to a reverse weaving device of a weaving machine and a method for producing fabric paper using a reverse weaving device. A pair of warp beams are provided in a conventional weaving machine, and a reverse warp device for rotating the warp beams in reverse is provided. And weaving the curtain section of the intersection of all the supplied warp yarns and the supplied weft yarns to a predetermined width, and then forming two layers of the slat part and the connecting part by the other warp beams, wherein the slat part comprises the intersection of the weft yarn and the warp yarns. Woven, the connecting portion constitutes a connecting portion consisting of only the inclination supplied from the inclined beam provided with the reverse rotating device to a predetermined width, and then operates the reverse rotating device, by pulling the connecting portion in reverse rotation, with respect to the curtain portion of the flat structure Protruding slats repeatedly constitute a woven paper integrally formed, cut the woven paper into a predetermined area, vertical Rind, is capable of providing jikmulji that can be used for various applications, such as Venetian blinds, roll-blind, not only the blind, such as shades, or, bedding, curtains not.

The reverse rotation apparatus of the weaving machine according to the present invention comprises a power input unit 10, a device shaft 20, a support unit 30 (30 '), an electromagnetic clutch 40, a power transmission unit 50, First, the device shaft 20 is composed of a general shaft, the power transmission unit 50, the electromagnetic clutch 40, the power input unit 10 to the device shaft 20 and the support portion 30 (30 '). Is supported, installed, assembled, or fixed, and the device shaft 20 is provided with a step, a key seat, and the like at an appropriate position in order to support or fix the devices.

The support parts 30 and 30 'appropriately support the device shaft 20, the support parts 30 and 30', the power transmission part 50, the electromagnetic clutch 40, and the power input part 10. For the sake of clarity, the support part 30, 30 ′ is a bearing 31 coupled to the device shaft 20, a bearing housing 32 surrounding the bearing 31, and the bearing housing 32. While supporting at a certain height, it consists of a support frame 33 capable of supporting other components of the reverse rotation apparatus, which may be appropriately changed according to the structure of the reverse rotation apparatus.

And the power input unit 10, to obtain the power of the reverse rotation generated in the reverse rotation device, the power input unit 10 receives the rotational force of the main motor 600 of the existing weaving machine to reverse the existing rotational force There is a structure for supplying, or by installing a separate motor 11, to supply a rotation force in the opposite direction to the existing rotation force.

In addition, the electromagnetic clutch 40 controls transmission and release of the power between the power input unit 10 and the power transmission unit 50, and the power input unit 10 and the power during the forward rotation of the weaving machine. In order to prevent the load from being transmitted between the transmission unit 50 and, conversely, at the time of reverse rotation, the power is transmitted between the power input unit 10 and the power transmission unit 50. The electromagnetic clutch 40 is preferably controlled using a conventional electromagnetic clutch.

The power transmission unit 50 transmits the reverse rotation generated by the reverse rotation device to the discharge unit 500 and the winding unit 300 of the weaving machine. For this purpose, the power transmission unit 50 may be a general power source. And a gear, a pulley, or a sprocket is installed in the device shaft 20 as the power transmission means uses gears and gears, a pulley and a belt, a sprocket and a chain, and the like. .

In the following description, a lot of power transmission means are mentioned in the reverse rotation apparatus and the weaving machine described. This is a general means for transmitting power from the shaft to the shaft, and the gear and the gear engagement, the pulley and the belt, the sprocket and Since it is composed of a chain or the like, a detailed description thereof will be omitted.

In addition, the weaving machine in which the reverse rotation device is installed is a conventional weaving machine. When the structure of the weaving machine is briefly described with reference to Fig. 3, the weaving machine supplies the warp yarns by the inclined beams 501 and 501 '. A weaving unit 400 for supplying the weft yarn to the discharge unit 500 and the inclined direction to be supplied perpendicularly to each other and weaving the fabric through the intersection of the warp yarn and the weft yarn, and a winder for winding the woven fabric ( The winding unit 300 constituting the 301 is configured, the power of the weaving machine is made to the main motor 600.

First, at least one inclined beam 501 is configured to supply the inclination beam 501 to supply the inclination for weaving by the inclined beam 501. The inclined beam 501 is along the longitudinal direction thereof. , Having a structure in which a plurality of strands are wound in correspondence with the width of the fabric paper to be woven, and supplying the inclination while the inclination wound on the inclined beam 501 is released, and if necessary, two or more in one weaving machine, that is, Also, a plurality of inclined beams 501 and 501 'may be installed, and the inclination beam 501 is rotated by the main motor 600.

And the weaving part 400, in accordance with the weaving program (weaving programming), by supplying the weft in the vertical direction with respect to the warp, to obtain a fabric structure of the desired state as the supplied weft intersects the warp, usually a weaving machine The inclination of is fitted to the heald (usually one to three inclinations in one heald), each heald depends on a plate heald, the heald consisting of a plurality depending on the texture of the desired fabric, The tissue is determined by the vertical movement of the heald, that is, the opening movement, and the weaving is supplied by weaving the weaving yarn according to the movement of the opening movement. In addition, a cam is generally used to move the opening frame of the heald, and the cam is operated by the rotation of the cam shaft 401, and the power of the cam shaft 401 is transmitted from the main motor 600. Therefore, the weaving structure of the woven fabric is determined by the weaving program of the weaving unit 500 and the opening motion, and, depending on the weaving program, the weaving motion of the weaving device 402 is carried out at a specific position while the opening motion is made to the opening device 402. It is also possible to limit the supply of (no weft supply, consisting only of warp).

In addition, the winding unit 300, by winding the fabric woven by the weaving unit to the winder 301, the power of the winder 301 is received from the main motor 600.

Thus, the power of the weaving machine, that is, the power of the main motor 600, the power to the output unit 500, the weaving unit 400 and the winding unit 300 by a plurality of shafts and various power transmission means. And sequentially transmit, and the plurality of main clutch 502 is provided between each of the power transmission means, even if the main motor 600 is operated, by the main clutch 502, the sending unit 500 As the power transmission can be released from the weaving part 400 and the winding part 300, the main clutch 502 may be installed at an appropriate position to selectively transmit and release power.

And a general weaving machine, the main motor 600 and the winding unit 300 is located on the front of the weaving machine (the direction in which the fabric is woven), the sending unit 500 is located on the rear of the weaving machine, the sending unit 500 ) And the weaving part 400 between the winding part 300.

Looking at the power transmission of the conventional weaving machine, the power of the main motor 600 is directly transmitted to the weaving unit 400, the power of the weaving unit 400 is the density control box 503 and the main clutch ( 502, a main shaft 601 is connected to the main clutch 502, and the power of the weaving unit 400 is transmitted through the main shaft 601 to the delivery unit 500 and the winding unit 300. Sequentially transmitted power, the power of the transmitting unit 500 and the winding unit 300 has a structure controlled by the main clutch 502.

In more detail, the main motor 600 transmits power to the camshaft 401, and then transfers power to the warp beam 501 and the winder 301, and the warp beam 501 at the camshaft 401. And between the winder 501, the density control box 503, the main clutch 502 and the main shaft 601 is further configured, the main shaft 601 is the shaft receiving the power of the cam shaft 401 To one end of the main shaft 601, power is transmitted to the inclined beam 501 and the winder 301, and the other end of the main shaft 601 is the same as the power transmission means of the power transmission unit 50. Install power transmission means.

In addition, between the cam shaft 401 and the main shaft 601 of the weaving unit 400, a density control box 503 for adjusting the rotational speed of the main shaft 601 is configured, the density control box 503 There is an input shaft 503a to which power is transmitted and an output shaft 503b to which the rotation speed is changed by changing the rotation speed by using a gear or a belt and a pulley, and the density control box 503 therein. Receives power from the cam shaft 401 of the weaving unit 400 to the input shaft 503a, the output shaft 503b transmits power to the main shaft 601, to adjust the rotational speed of the main shaft 601 By adjusting the number of rotations of the inclined beam 501 mainly by the density control box 503, by controlling the inclined delivery speed, it is possible to adjust the density of the fabric weaving machine.

In addition, the main clutch 502 is provided between the cam shaft 401 and the main shaft 601, or between the density control box 503 and the main shaft 601 to transmit power from the cam shaft 401. It serves to control the transfer or release to the main shaft 601, in the weaving process in the normal weaving machine, as the power of the cam shaft 401 moves to the main shaft 601 via the main clutch 502, When the main clutch 502 is turned on, the rotational force is transmitted to the warp beam 501 and the winder 301 by the power of the weaving unit 400, and when the main clutch 502 is turned off, the weaving unit Since the power of 400 is not transmitted to the main shaft 601, the inclined beam 501 and the winder 301 does not rotate.

In the weaving machine structure as described above, the reverse rotation device is installed, and the reverse rotation device may form a reverse rotation device having various structures according to the structure of the power input unit 10 and the support units 30 and 30 '. First, a device shaft 20 that is a general shaft is configured, and the power input unit 10, the electromagnetic clutch 40, and the power transmission unit 50 are sequentially formed on the device shaft 20. In the present invention, according to the structure of the power transmission unit 50 of the reverse rotation device, divided into the first embodiment and the second embodiment, each structure will be described as follows.

First, the reverse rotation apparatus according to the first embodiment will be described with reference to FIGS. 1 to 3. The reverse rotation apparatus according to the first embodiment provides power for reverse rotation by a separate independent motor 11. First, the motor 11 is constituted by the power input unit 10, the device shaft 20 and the support unit 30 are configured, and the power transmission unit 50 is provided to the device shaft 20 and the support unit 30. ), The electromagnetic clutch 40 and the power input unit 10 are sequentially installed, and the control unit 60 controls the electromagnetic clutch 40 and the motor 11.

First, the device shaft 20 and the support unit 30, the support unit 30, the device shaft 20, the support unit 30, the power transmission unit 50, the electromagnetic clutch 40, the power input unit ( In order to properly support 10, the support part 30 includes a bearing 31 coupled to the apparatus shaft 20, a bearing housing 32 surrounding the bearing 31, and the bearing housing 32. And a support frame 33 capable of supporting other components of the reverse rotation apparatus while supporting the device at a predetermined height. As shown in FIG. 1, the support frame 33 has a power input unit 10 to be reared up. That is, the motor 11 is installed and fixed.

In addition, the power input unit 10 constitutes a motor 11, and the motor 11 is directly connected to the device shaft 20, or the motor 11 and the device shaft 20 are power transmission means. Connected, it can change direction, change position and change speed.

For example, as shown in Figures 1 and 2, the pulley 12 is provided on the motor shaft of the motor 11, the pulley 13 is installed on the device shaft 20 to be supported by a bearing, Each of the pulleys 12 and 13 is connected to the belt 14, and the pulleys 13 of the device shaft 20 are assembled with a plurality of different diameters, depending on the diameters of the pulleys 12 and 13; , So that the speed can be changed, the motor 11 is installed on the support frame 33 of the support 10.

On the other hand, the motor 11, it is preferable to use a motor (forward rotation motor) capable of both forward rotation and reverse rotation, the rotation of the device shaft 20, the rotation of the main shaft 601 of the weaving machine The rotation (reverse rotation) in the opposite direction with respect to the rotating direction is implemented, and the pulley 13 is coupled to the device shaft 20 by a bearing, the motor through the power transmission during the forward rotation of the weaving machine In order to minimize the load transfer of (11), it is preferable to install so that it may be supported by a bearing also when using a power transmission means other than the pulley 13.

In addition, referring to the electromagnetic clutch 40, first, the electromagnetic clutch 40 is composed of a coil housing 41, a rotor 42, and a disk 43 as a conventional electromagnetic clutch, and the coil housing 41. ) Is formed in a ring shape on one side of the flange (41a), the inside of the other side of the coil 41b is formed in a circular shape, is fixed to be insulated, respectively, the coil 41b is supplied through the lead wire The coil 41b is energized by electricity to generate magnetic flux.

In addition, the rotor 42 has a shape penetrated in the center, and the center has a centering groove 42a and a recess formed in a circumferential direction of the hub to form a groove that surrounds a portion in which the coil 41b of the coil housing 41 is formed. The unit 42b is integrally formed so that the hub is fitted into the coil housing 41, and the seating portion 42b is assembled to surround one end (the other end of the flange) of the coil housing 41. In the penetrating inner circumference of the hub 42a, a key seat is formed along the longitudinal direction, and the rotor 42 is assembled by the device shaft 20 and the key.

In addition, the disk 43 has a structure in which a leaf spring is formed integrally with the rotor 42 while keeping surface contact with the rotor 42.

In other words, as shown in FIG. 2, the electromagnetic clutch 40 is sequentially coupled between the apparatus shaft 20, precisely, between the support 30 and the power input unit 10, and the apparatus shaft. Bolted to the flange (41a) of the coil housing 41 to the bearing housing (32) assembled in the (20), while the rotor 42 is coupled to the through portion of the center of the coil housing 41 Combining the key in the key seat, so that the rotor 42 is fixed to the device shaft 20, the disk 43 is coupled to the rotor 42 adjacent to the rotor 42, the disk 43 is the power input unit Coupled to the power transmission means of (10), as shown in Figure 2, the disk 43 is coupled to the pulley 13 to be fixed.

In addition, the control of the electromagnetic clutch 40 and the control of the motor 11 are to be made by the control unit 60, and the control unit 60 is to be interlocked with the control unit of the weaving machine. ) Controls the operation of the motor 11 and the electromagnetic clutch 40 and the timing thereof. In the case of the forward rotation of the weaving machine, the output part 500 and the weaving part 400 of the main motor 600 in the weaving machine. When the power transmission through the main clutch 502 to control the transmission of the power transmission is made, the electromagnetic clutch 40 maintains a state in which the power transmission is released, and when the reverse rotation device is operated, the main clutch 502 While releasing the power transmission through the), at the same time to operate the electric clutch 40 and the motor 11 of the power input unit 10.

In this way, the power transmission unit 50, the electromagnetic clutch 40, the power input unit 10 and the control unit 60 are sequentially formed on the device shaft 20 and the support unit 30 of the weaving machine according to the first embodiment. The reverse rotation device, as shown in Figure 3, connects the power transmission unit 50 to the main shaft 601 of the weaving machine, for this purpose, the main shaft 601 ) Is preferably installed to correspond to the power transmission means of the power transmission unit 50, for example, as shown in Figure 3, when the power transmission means of the reverse rotation device is a gear 51 Gears 52 are provided on the main shaft 601 of the weaving machine so that the gears 51 and 52 are engaged with each other. Similarly, when the power transmission means of the reverse rotation device is a pulley and a belt, the weaving machine A pulley is also installed on the main shaft 601 of the belt, and a belt is attached to each pulley, and a power transmission means of the reverse rotation device is provided. In the case of a sprocket and a chain, a sprocket is also installed on the main shaft 601 of the weaving machine, the chain is hooked to each pulley so that power is transmitted, and the control unit 60 of the reverse rotation apparatus sends information according to the control of the weaving machine. In this way, the installation of the reverse rotation apparatus according to the first embodiment of the weaving machine is completed.

Next, the reverse rotation apparatus according to the second embodiment will be described with reference to FIG. 4. The reverse rotation apparatus according to the second embodiment is substantially the same as the reverse rotation apparatus according to the first embodiment, but the power input unit ( 10 is a structure in which the reverse rotation through the power transmission means receives the power of the weaving unit 400 received power from the main motor 600, the device shaft 20 of the reverse rotation device according to the second embodiment ), The electromagnetic clutch 40, the power transmission means 50, the control unit 60 and the like, so the additional description is omitted.

First, in the reverse rotation apparatus according to the second embodiment, first, the support portion 30, the bearing 31 is coupled to the device shaft 20, the bearing housing 32 surrounding the bearing 31 and the While supporting the bearing housing 32 to a certain height, it is composed of a support frame 33 that can support other components of the reverse rotation device, as shown in Figure 4, the support frame 33, It is preferable to configure a structure in which the power transmission means of the power input unit 10 is supported.

And the power input unit 10 of the reverse rotation device according to the second embodiment uses the rotational force of the main motor 600, the main motor 600 is located in front of the weaving machine, to install the reverse rotation device Since it is not easy, in practice, the power of the power input unit 10 uses the power of the weaving unit 400, in detail, the camshaft 401, or, if there is a density control box 503, of the density control box 503. The input shaft 503a is used, and in the following description, the power input unit 10 is installed as the input shaft 503a of the density control box 403.

And the reverse rotation of the power input unit 10 with the weaving unit 400 is configured by combining a plurality of power transmission means, most basically, the input shaft 503a of the device shaft 20 and the density control box 403 ), Or the pulley is installed and the pulleys are staggered, and the respective pulleys are staggered so that reverse rotation occurs in power transmission. (20) and the input shaft 503a of the density control box 403 is simple, but in the general weaving machine, the distance between the device shaft 20 and the input shaft 503a of the density control box 403 is simply a gear or a pulley. It is not easy to connect, it is difficult to change the number of revolutions, and the axial direction of the input shaft 503a of the device shaft 20 and the density control box 403, etc. do not match, the power input unit 10, Multiple power transmission means can be connected to And to.

First, an example in which the power input unit 10 generates reverse rotation through engagement of gears will be described with reference to FIG. 4. First, gears 17b and 17b 'are formed on one shaft 17a and 17a'. ) And a pair of reverse rotation means 17 (17 ') in which the pulleys 17c and 17c' are sequentially coupled, and the power transmission part 50 is composed of a pulley 13, and the power transmission part The pulley 13 of the 50 is installed on the apparatus shaft 20 (the pulley is installed to be supported by the bearing as in the first embodiment), and the pulley is formed on the input shaft 503a of the density control box 403. Install (15).

Then, the reverse rotation means (17) (17 ') is installed on the support frame (33) of the support portion 30 so that each gear (17b) (17b') is engaged with each other, the one reverse rotation means (17) The pulley 17c is assembled by hanging the belt 14 on the pulley 13 of the device shaft 30, the pulley 17c 'of the other reverse rotation means 17' of the density control box 403 The belt 16 is assembled to the pulley 15 of the input shaft 503a so that reverse rotation is generated by engagement of the gears 17b and 17b 'of the reverse rotation means 17 and 17'.

In addition, the meshing of the gears 17b and 17b 'may replace the gears 17b and 17b' of the reverse rotation means 17 and 17 'with a pulley stagger. 17) Replace the gears 17b and 17b 'of the 17' with pulleys (not shown), and install the counterrotating means at a predetermined distance while installing the support frame 33, and the counterrotating means When the belt is staggered between the pulleys, the power passes through the reverse rotation means and generates reverse rotation.

In addition, used pulleys assembled on shafts 17a and 17a ', in addition to gears 17b and 17b' and pulleys (not shown), to generate reverse rotation to the reverse rotation means 17 and 17 '. (17c) (17c ') is for facilitating the change of the rotation speed and shortening the power transmission distance of the reverse rotation means (17) (17'), and actually raises the pulley (17c) (17c '). Other power transmission means, for example, gear to gear connection, chain and sprocket modifications are possible.

Thus, the power transmission unit 50, the electromagnetic clutch 40, and the power input unit 10 are sequentially formed on the device shaft 20 and the support unit 30 to form the reverse rotation apparatus of the weaving machine according to the second embodiment. do.

The reverse rotation apparatus according to the first embodiment and the second embodiment is installed in the weaving machine, but the reverse rotation apparatus according to the first embodiment, the power transmission unit 50 of the reverse rotation device and the main shaft 601 Once connected, installation is complete.

In the reverse rotation apparatus according to the second embodiment, the power transmission unit 50 and the main shaft 601 of the reverse rotation apparatus are connected to each other, and the cam shaft 401 of the power input unit 10 and the weaving unit of the reverse rotation apparatus, Installation is completed when connected to the input shaft 503a of the density control box, and the control of the weaving machine and the control of the reverse rotation device is performed by the controller 60 together with the installation of the reverse rotation device.

Therefore, the weaving machine provided with the reverse rotation apparatus according to the first embodiment or the second embodiment supplies a warp through the warp beams 501 and 502 'of the delivery unit 500, and the weaving unit 400 Weaving as the weft and the inclined to cross weaving, all the operation by the forward rotation of the operation of the main motor 600 and the power transmission of the main clutch 502, weaving the fabric like a conventional weaving machine In this case, the weaving machine transfers power to the main motor 600, the weaving part 400, the sending part 500, and the winding part 300 in the forward rotation, and at this time, the electromagnetic clutch 40 of the reverse rotation device. Is a state in which power transmission is released, and the power input means 10 according to the first embodiment, that is, the motor 11 does not operate.

In addition, in the forward rotation process, the main shaft 601 of the sending unit 500 operates in the forward rotation, the main shaft 601 is connected to the power transmission unit 50 of the reverse rotation device, The device shaft 20 rotates in the forward rotation direction, but the electromagnetic clutch 40 is in a released state, and the device shaft 20 has a power transmission means of the power input unit 10, that is, the pulley 13 is bearing. (In both the first and second embodiments), in fact, the power input unit 10, i.e., the motor 11 (for the first embodiment) or the reverse rotation means (for the second embodiment). ) Will not be loaded.

Next, when the reverse rotation apparatus is operated in the weaving machine, the control unit 60 releases the power transmission of the main clutch 502 and at the same time, the main motor 600 controls the power of the weaving unit 400. While maintaining the forward rotation of the camshaft 401, the operation of the winder 301 of the winding unit 300 and the inclined beam 501 of the sending unit 500 is stopped, and at the same time, The electromagnetic clutch 40 is operated to transmit power.

Then, in the case of the reverse rotation device according to the first embodiment, by the operation of the motor 11 of the power input unit 10, the power input unit 10, the electromagnetic clutch 40, the device shaft 20 and the power transmission unit. While transmitting power of reverse rotation in the order of 50, the main shaft 601 is reversely rotated, and the reverse rotation of the main shaft 601 is performed by the winder 301 and the discharge unit of the winding unit 300. Reverse rotation of the inclined beam 501 of 500 is performed together.

In addition, in the reverse rotation device according to the second embodiment, at the same time the electromagnetic clutch 40 is operated, the power of the input shaft 503a of the density control box 403, the power input unit 10, the electromagnetic clutch 40 In order for the device shaft 20 and the power transmission unit 50 to sequentially transmit power of reverse rotation, the main shaft 601 is reversely rotated, and the reverse rotation of the main shaft 601 is wound. Reverse rotation of the inclined beam 501 of the winder 301 and the sending unit 500 of the unit 300 is performed together.

In other words, in the reverse rotation by the reverse rotation device, the cam shaft 401 is maintained in the forward rotation by the operation of the main motor 600, the weaving unit 400 is made as usual, the weaving unit ( 400 and the winding unit 300 is the reverse rotation is made by the reverse rotation device, as usual, weaving in the reverse direction as programmed by the supply and inclination of the weft can be made, or a plurality of inclined beams (501) (501 '), but only one inclined beam 501 to rotate in reverse, the weaving unit 400 in the state immediately before the reverse rotation to continue to supply the weft through the weaving program While maintaining, the inclination of the inclined beam 501 reversely rotated in the woven fabric can be taken out to form the wrinkles of the woven fabric by forward rotation.

In addition, when the reverse rotation of the inclined beam 501 and the winding unit 300 by the reverse rotation device is completed as described above, the operation of the electromagnetic clutch 40 of the reverse rotation device is released and at the same time, In the case of the reverse rotation apparatus, since the operation of the motor 11 is also stopped, the reverse rotation of the main shaft 601 is stopped, and the main clutch 502 of the weaving machine is operated to power the main motor 600. Again, power is transmitted to the sending unit 500 and the winding unit 300, and weaving is performed by forward rotation in a normal weaving process.

’의 단면을 가지는 입체 구조의 제직물을 제직할 수 있으며, 상기 돌출 직물의 길이도 역회전 시간에 따라 짧거나 또는, 더 길게 구성할 수 있고, 또한, 상기 제직기의 제직부(400)의 위사의 굵기 및 공급 조절을 통해서, 상기 돌출 직물의 구조를 다양하게 구성할 수 있으며, 평면구조의 직물에 대해서 돌출 구조의 직물이 다양한 문양을 형성할 수 있으므로, 상기 제직기의 역회전을 통해서 기존보다 좀더 다양한 직물지를 구성할 수 있는 것이다.Through this weaving process, when weaving a fabric having a conventional planar structure and weaving a protruding fabric protruding with respect to the fabric having a planar structure through the reverse rotation, the cross section is cut in an oblique direction.

It is possible to weave a three-dimensional woven fabric having a cross-section, and the length of the protruding fabric may be shorter or longer depending on the reverse rotation time, and also, of the weaving part 400 of the weaving machine Through the control of the thickness and supply of the weft, the structure of the protruding fabric can be configured in various ways, and the fabric of the protruding structure can form a variety of patterns with respect to the fabric of the flat structure, the existing through the reverse rotation of the weaving machine It is possible to construct more diverse fabrics.

For example, the reverse rotation apparatus may be applied to a weaving machine to manufacture textile paper, and the textile paper may be applied to blind paper such as vertical blinds, venetian blinds, roll blinds, roman shades, or the like, and beddings and curtain papers. First, the manufacturing method of the blind using the fabric paper using the reverse rotation device is described as follows according to the process diagram of Figure 5, the manufacture of the blind is an example of a product using the textile paper according to the present invention, in fact The manufacturing process is made of a weaving machine setting step (S1) to a post-treatment step (S4), the detailed description of the manufacturing process of the woven paper is as follows.

First, the weaving machine setting step S1 is a step of installing the reverse rotation apparatus in the general weaving machine. The method of installing the reverse rotation apparatus has been described with reference to the reverse rotation apparatus, and thus a detailed description thereof will be omitted.

In addition, at least two warp beams 501 and 501 ′ used in the weaving machine are used, and the number of the warp beams varies according to the method of manufacturing the woven paper. According to the weaving method of the woven paper, the first, second and third embodiments have different numbers, and the number of the inclined beams 501 and 501 'varies. First, in the case of the first embodiment, FIG. As shown in FIG. 4, the two inclined beams 501 and 501 'have three inclined beams 501 and 501'. In the second and third embodiments, as shown in FIG. (501 ″).

First, the inclined beams 501 and 501 'according to the first embodiment are provided with two inclined beams 501 and 501', up and down, as shown in FIG. ′) Is provided to be supported by the bearing on the left and right, and the structure is free to rotate, the other inclined beam 501, the forward rotation is made by the main motor 600, the reverse rotation is made by the reverse rotation device For the sake of convenience, the inclined beam 501 which can be reversely rotated is referred to as inclined beam 1, and the inclination wound on the inclined beam 1 is referred to as inclined 1 (1), and the freely inclined beam 501 'is rotated. It is referred to as the inclined beam 2, the inclination wound on the inclined beam 2 is called inclined 2 (1), preferably, the inclined beam 1 is located in the lower portion, it is preferable that the inclined beam 2 is installed in the relatively upper portion. In the drawing, the number corresponding to each weaving part is indicated, as well as the part. Gradient is used to display the type of brackets ([]) after the number, it was calculated by expressing the number of the gradient is applied.

In addition, in the second and third embodiments according to the weaving method of the woven paper, as shown in Fig. 4, three inclined beams 501, 501 'and 501 " The beam 501 is capable of forward rotation by the main motor, as well as reverse rotation by the reverse rotation device, and two other inclined beams 501 'and 501 ″ are supported by bearings on the left and right sides. For the sake of convenience, the inclined beam 501, which can be reversely rotated, is referred to as an inclined beam 3, and the inclined wound to the inclined beam 3 is referred to as an inclined 3 (3). 501 'and 501 " are referred to as inclined beam 4 and inclined beam 5, respectively, and the inclinations wound around the inclined beam 4 and inclined beam 5 are referred to as inclined 4 (4) and inclined 5 (5), respectively. In the bottom, the inclined beam 3 is positioned, and the inclined beam 4 and the inclined beam 5 are sequentially installed in the relatively upper portion. In the drawings, the number corresponding to each weaving part is indicated, as well as the type of inclination used for the part, and the brackets ([]) are shown after the number to indicate the number of the inclination to be applied. .

Next, the forward rotation weaving step S2 and the reverse rotation step S3 have a first embodiment, a second embodiment, and a third embodiment according to the weaving method of the woven paper and the woven paper as described above. According to each embodiment, the weaving method of the woven paper according to the forward rotation weaving process (S2) and the reverse rotation process (S3) will be described in sequence, first, the forward rotation process (S2) according to the first embodiment for weaving the woven paper And a reverse rotation process is as follows.

Thus, the forward rotation process (S2) according to the first embodiment for weaving paper fabric, as shown in Figure 6, through the forward rotation of the weaving machine and the main motor 600, by the inclination 1 and the inclination 2 In the process of weaving parallel section A ', protrusion section B', and fixed section C 'with intersections with the weft yarns sequentially, first, the parallel section A' includes the warp yarn 1, the warp yarn 2, and the weft yarn. A section of weaving the curtain portion 100 of the mesh structure in a predetermined width by the combination of the curtain portion 100 is inclined 1 (1) and inclined 2 (2) that is commonly supplied at a predetermined interval separately from each site Each of the weaving intersections with the weaving yarn is supplied, and the curtain portion 100 is woven in a state in which weft yarns are maintained at a predetermined interval, such as the inclination 1 (1) and the inclination 2 (2), and the curtain portion of the mesh structure Weaving (100), the section weaving into the curtain portion 100 of the one plane is a parallel section (A ').

 Subsequently, the projecting section B 'is formed of two layers (two layers consisting of the slat portion 102 and the connecting portion 101 relatively up and down by the inclination 1 (1) and the inclination 2 (2)). First, the slat portion 102 that is woven in the upper part is filled with all the intervals of the inclination 2 (2) by using the supplied warp 2 (2) and a relatively thick weft. Both of these structures can be shielded by supplying the weft yarn of the same thickness as the interval of the warp yarn 2 (2) or thicker weft yarns, and the space of the weft yarn through the intersection (weaving) of the warp yarn 2 (2) and the weft yarn. Weaving the slat portion 102 having a light shielding structure all filled with a predetermined width, the width of the slat portion 102 can be appropriately configured according to where to use the woven paper, for example, the vertical blind In the case of manufacturing the width of the slat portion 102, even if the width of the curtain portion 100 has more than twice It is preferable that, when used with other products in other it is possible to variously modifying the width.

At the same time as weaving the slat part 102, the lower part of the slat part 102 constitutes a connecting part 101 by the inclination 1 (1), and the slat part 102 is inclined to the inclination 2 (2) and the weft thread. Weaving of the connecting portion 101, but the weaving of the connecting portion 101 is limited to the supply of the weft yarn, the actual weaving is not made, the connecting portion 101 made of the length of the inclination 1 (1) by the length of the slat portion (102) Configure.

Subsequently, the fixing section C ′ weaves the fixing portion 103 of the mesh structure at the intersection of the inclined 1 (1), the inclined 2 (2) and the weft yarn, which is formed of one layer (one It is preferable to have a structure similar to the parallel section (A '), and to weave only a few strands of weft, and to weave the fixed portion 103 of a narrow length.

Subsequently, the reverse rotation process (S3) according to the first embodiment for weaving paper fabric is a process of operating the reverse rotation device of the weaving machine. As described above, the main motor 600 is operated by the reverse rotation device. The weaving part 400 continues to operate in the forward rotation, and the main clutch 502 causes the forward rotation of the winder 301 of the winding part 300 and the forward rotation of the inclined beam 1 501 of the delivery part 500. While the transmission of power is stopped, at the same time, the winding unit 301 and the inclined beam 1 501 are reversed by the reverse rotation device.

Accordingly, as shown in FIG. 7, the inclination of the inclined beam 1 501 is pulled in the direction opposite to the direction in which the inclined beam 1 (1) is woven. 101 is pulled, while the inclined beam 2 is freely rotated and thus does not receive any force and thus remains intact, and the slat portion 102 woven by the inclined 2 is folded in half, and thus the connecting portion 101 is ), That is, during operation of the reverse rotation device, the camshaft 401 of the weaving part 400 rotates forward, but the weaving is not supplied by the programming of the weaving part 400 so that weaving is not actually performed. In this process, the lower portion of the folded slat portion 102 has a structure connected by the connecting portion 101, the connecting portion 101 by the reverse rotation device is the curtain portion 100 and the fixing portion 103 With the minimum distance between, the slat portion 102 When fully folded by, the operation of the reverse rotation stops.

Subsequently, as in the forward rotation step S2, the parallel section A ′, the projection section B ′, and the fixed section C ′ are sequentially woven, and the connection part is formed through the reverse rotation step S3. Winding the reverse 101 to make the slat portion (102) folded in half, as described above, as repeating the forward rotation step (S2) and the reverse rotation step (S3), as shown in Figure 8, The curtain part 100 and the connection part 101 of a mesh structure, and the slat part 102 folded in half by the said connection part 101 comprise the fabric paper of the structure formed repeatedly.

On the other hand, the width and spacing of the slat portion 102, when the blind to be used is used as a general venetian blind, or vertical blind, weaving so as to have a width of the general slat or louver, and the slat portion 102 is simply decorated In the case of using only the slat portion 102 can be fabricated with a roll blind that is decorated with a much smaller width than the slat (or louver) of the general blind, and further, the slat portion 102 is a rod on the back of the paper The width of the slat, and weaving while maintaining the distance of the proper distance, and the support rod of the normal Roman blind to the slat portion 102, and can be used as a normal Roman blind (roman shade), the slat portion The width and spacing of 102 are preferably selected to suit the blinds to be used.

Next, the forward rotation process (S2) and the reverse rotation process (S3) according to the second embodiment for weaving paper fabrics will be described with reference to FIGS.

First, in the forward rotation process S2 according to the second embodiment, as shown in Figs. 10 and 11, the inclination 3 (3) and the inclination 4 (4) and the inclination through the weaving machine provided with the reverse rotation device The process of weaving the parallel section (A), the separate section (B), the other fixed section (C), the separate section (D), and the one fixed section (E) in the intersection with the weft yarns sequentially by 5 (5).

First, the parallel section A is woven into the curtain part in two layers (two layers) by the inclination 3 (3), the inclination 4 (4), and the inclination 5 (5), and the inclination 3 (3) and Slope 4 (4) intersects with the supplied weft yarn (crossed) Weaving the curtain portion 200 of the mesh structure in one layer, and at the same time, the slope 5 (5) has an intersection with the supplied weft yarn (crossed) The mesh part curtain part 200 'is woven into one layer, and the parallel section A is simultaneously woven two layers (two layers) of the curtain parts 200 and 200', and the curtain part 200 ) 200 'is a structure in which weft yarns are each woven into a mesh structure by feeding at intervals together with the inclination 3 (3), the inclination 4 (4) and the inclination 5 (5) supplied at regular intervals. The parts 200 and 200 ′ have a mesh structure through which light passes, and the fabric structure is similar to the mesh structure of the curtain part 100 according to the first embodiment according to the blind manufacturing method. (200 ′) Weaving and, as described above, the two layers (one sheet, two-layer), the curtain portion 200, 200 'are parallel to section (A) of the section to be woven in.

In the separate section B, the inclined 3 (3), the inclined 4 (4) and the inclined 5 (5) respectively form each layer, that is, three layers (three layers), respectively, but the inclined 3 (3) ) Is not intersected with a separate weft yarn, but constitutes a connecting portion 201 having a predetermined length as it is, and the warp yarn 4 (4) is formed by a weft yarn which is supplied separately (crossed). The slat portion 202 of the slab portion 202 has a structure in which light is blocked, and its fabric structure is similar to the shading structure of the slat portion 102 according to the first embodiment according to the blind manufacturing method. The slat portion 202 is formed in a structure, and the warp yarn 5 is woven by the curtain portion 203 of the mesh structure by a weft yarn which is supplied separately (crossed), and the curtain portion 203 is formed in the parallel section ( The structure is the same as that of the curtain part 200 'of A), but in order to explain the section separately, the slope 5 is actually a parallel section (A) and a separate section (B). Subsequently, weaving the curtains 200 'and 203 at the intersection with the weft continuously, and in this separate section B, the inclined 3 (3), the inclined 4 (4) and the inclined 5 (5), respectively, the connecting portion ( 201), the slat portion 102 and the curtain portion 203 are each woven to a different length in a different layer.

And the other fixed section (C) is woven in two layers (two layers) of the connecting portion 201 and the integral portion 204, the inclined 3 (3), as in the separate section (B), the same length as it is Consisting of the connecting portion 201 constituted by the inclined 3 (3), the integral portion 204 is woven to a certain length by the weft yarn supplied (intersected) with the inclined 4 (4) and the inclined 5 (5), The other process section (C) has two layers (two layers) of a connecting portion 201 consisting of an inclined 3 (3) and an integral part 204 woven from an inclined 4 (4) and an inclined 5 (5) and weft. The integral portion 204 is for weaving separately from the slat portion 202 of the separate section (B) and the slat portion 205 of the separate section (D) that follows, and very few strands. Only a narrow width through the weft of is sufficient, and the woven structure of the integral part 204 may have both a light shielding structure and a mesh structure.

In addition, the separate section (D), the inclined 3 (3), the inclined 4 (4) and the inclined 5 (5) to each weaving while forming each layer, the inclined 3 (3), the separate section (B) ) And the other side fixed section (C), a predetermined length is composed of the connecting portion 201 consisting of the inclined 3 (3) as it is, the inclined 4 (4) is shielded by a weft that is supplied separately (crossed) Weaving the slat portion 205 of the structure, the slat portion 205 is similar in structure to the slat portion 202 of the separate section (B), the inclined 5 (5), weaving is limited to the weaving of the weft Does not occur, and only the inclination 5 (5) exists as it constitutes the waiting part 206. Thus, in the separate section D, the inclination 3 (3), the inclination 4 (4) and the inclination 5 (5) are respectively , The connecting portion 201, the slat portion 205 and the atmospheric portion 206 are each woven to a different length to a different layer.

One side fixing section E is composed of two layers (two layers) of the integral part 207 and the waiting part 206, and the inclination 5 (5) is the waiting part 206 of the separate section D. Subsequently, the presence of only the inclined 5 (5) as it constitutes the waiting portion 206, and at the same time, the integral portion 207 by the weft thread supplied (intersected) with the inclined 3 (3) and the inclined 4 (4). ) Weaving to a predetermined length, the integral portion 207 by the inclined 3 (3) and the inclined 4 (4), preferably has the same mesh structure as the curtain portion 200 of the separate section (A), In fact, the integral part 207 is a reference point during the process of pulling the connecting yarn 201 over the one side fixed section (E) in the separate section (B), the integral part 207 is inclined 3 (3) ) And the inclined 4 (4) are sufficient to have a narrow width through only a few strands of weft. Thus, the one side fixed section (E) is a waiting portion 206 and the inclined 3 (3) and the inclined 5 (5). Weaving with warp 4 (4) and weft Consists of two layers (two layers) of the integral part 207.

Thus, through the forward rotation process (S2) according to the second embodiment, the parallel section (A) of the two layers (two layers), the separate section (B) of the three layers (three layers), two layers (two layers) The other fixed section of (C), three separate sections (D), two layers (two layers) of one fixed section (E) in sequence.

Next, the reverse rotation process (S3) according to the second embodiment for weaving paper fabric is a process of operating the reverse rotation device of the weaving machine, by the operation of the reverse rotation device, the main motor 600 and the The direct part 400 continues to operate in the forward rotation, and the main clutch 502 stops power transmission of the winder 301 of the winding part 300 and the inclined beam 3 501 of the delivery part 500. In the meantime, the winder 301 and the inclined beam 3 501 are rotated by the reverse rotation device.

Accordingly, as shown in FIG. 12, the inclination of the inclined beam 3 501 is pulled in the direction opposite to the direction in which the inclined beam 3 (3) is woven. 201 is pulled in the opposite direction, while the inclined beam 4 and the inclined beam 5 are free to rotate, so as to maintain the state, each slat portion 202 of two separate sections by the inclined 3 (3) 206 overlaps in parallel with each other, and in the process of pulling the connection part 201, that is, during the operation of the reverse rotation device, the weaving part 300 performs the forward rotation, but by programming the weaving part 400. In the process, weaving is not performed so that wefts are not supplied. In this process, both sides of the parallel slats 202 and 206 in the width direction are integral parts 201 and connecting parts 201 of the other fixed section C. ), And between the two slats 202 and 206, with adjustment to the reverse rotation device. The connection portion 201 is preferably equal to the weaving width of the integral portion 201 of the other fixed section (C), so that two layers of slats 202, 206 face in parallel, the two layers If the curtain portion 200 (200 ') has a structure facing each other, the operation of the reverse rotation device is stopped.

12, the parallel section A, the separate section B, the other fixed section C, the separate section D, and the one side fixed section E are sequentially woven, and the reverse Through the rotation step (S3), the connecting portion 201 is reversely wound so that the slats 202 and 206 are parallel to each other. As described above, the forward rotation step S2 and the reverse rotation step S3 are performed. 13 and 14, two layers of slats 202 and 206 having a mesh structure face in parallel, and two layers of curtain portions 200 having a light shielding structure. (200 ') constitutes a woven paper having a structure formed repeatedly.

For reference, in the fabric paper woven by the forward rotation process (S2) and the reverse rotation process (S3) according to the first embodiment and the second embodiment, the curtain portions 100, 200, 200 'has a mesh structure For example, weaving a shading structure with the slats 102, 202, and 206 shows that it is easy to apply to venetian blinds or vertical blinds using the woven fabric woven by the above embodiment. In practice, according to the user's intention of using the textile paper, weaving the curtain parts 100, 200, 200 'in a shading structure, or weaving the slats 102, 202, 206 in a mesh structure Also, the curtain parts 100, 200, 200 'and the slat parts 102, 202, 206 may all be woven into a mesh structure, or the curtain parts 100, 200, 200' may be fabricated. ) And the slats 102, 202, and 206 can be woven into a light shielding structure.

In addition, the forward rotation process (S2) and the reverse rotation process (S3) according to the third embodiment for weaving paper fabrics will be described with reference to FIGS. 16 and 17 as follows.

First, the forward rotation process S2 according to the third embodiment proceeds substantially the same as the forward rotation process S2 according to the second embodiment, and parallel sections A and three of the layers (two layers) are provided. Separate section (B) of a layer (two layers), other fixed section (C) of this layer (two layers), separate section (D) of three layers (three layers), and one fixed section of this layer (two layers) ( E) in sequence, but among the two-ply curtain portion 200 (200 ') by the parallel section A, one of the two restricts the supply of the weft yarn, as shown in FIG. One curtain portion 200 (200 ') constitutes a woven paper consisting only of the inclination, and in this third embodiment, the curtain portion 200 (200') in which the supply of the weft yarn is limited is not actually a mesh structure, but a slat. It plays the part 202, 206.

In addition, when the fabric paper manufacturing method according to the third embodiment is applied, as shown in Figure 17, the inclination of the curtain portion 200 (200 ') that is limited to the supply of the weft yarn is produced by putting a little distance In this third embodiment, the curtain parts 200 and 200 ′ in which the supply of the weft yarn is restricted play a role of supporting the slat parts 202 and 206 rather than the mesh structure.

As described above, the curtain parts 100, 200, 200 'and the slat parts 102 and 202 are subjected to the forward rotation process S2 and the reverse rotation process S3 according to the first to third embodiments. 206 constitutes a repeating tissue paper.

Subsequent post-treatment step (S4) is a step in which the woven fabric is subjected to various treatments in order to increase the functionality of the woven paper such as flame retardant processing, waterproofing, electrical discharge processing, or the like by putting in a tenter or the width thereof. The treatment step (S4) may be applied to various methods of treating a conventional fabric, and thus a detailed description thereof will be omitted.

And cutting step (S5) is to cut the woven fabric to a certain size, the size of the blind to be applied, or cut to a square to a standard size.

Finally, the assembling step (S6) is to assemble the cut fabric to suit the various blind structure, the fabric is configured to be narrow, or wide, depending on the width of the slat portion (102, 202, 206). When the slats 102, 202 and 206 are simply woven in decoration, they can be applied to blinds such as roll blinds and roman blinds, and the slats 102, 202 and 206. If a larger width is configured, as shown in FIG. 9, the blinds may be configured by assembling the vertical blinds, venetian blinds, and roll blinds with adjustable light shielding.

For reference, a plate-shaped slat may be inserted into a space of the slats 102, 202, and 206 to form a shape. Since the structure of the blind is general, a detailed description of the structure will be omitted.

The blind is completed by assembling the fabric of the appropriate structure to the conventional blind structure.

Since the woven paper constituted in this way is easily woven by the reverse rotation device, after weaving and cutting and assembling, the woven paper can be constructed without sewing, thereby providing excellent productivity and aesthetics. Since the width of the slat can be configured in various ways, there is a feature that can be applied to various blind structures.

In addition, while manufacturing the fabric paper, the distance between the curtain portions 100, 200, 200 'and the slats 102, 202, 206 is relatively long, and the slats 102, 202 When forming a small space enough to fit a very small bar of (206), inserting the support into the slats 102, 202, 206, it is easy to form the structure of a conventional Roman shade, the fabric paper In the weaving of the fabric, if the low melting fiber is used for at least one of the warp yarns or the weft yarns, and the heat is applied to the melting point of the low melting fiber in the post-treatment step (S4), the warp yarns and the weft yarns have a low melting point. Since it is heat-sealed by the fiber, it is possible to increase the bonding force of the woven structure of the woven paper, and to give the stiffness of the part to be shielded.

In addition, in the forward rotation weaving process (S2), the curtain parts 100, 200, 200 'weaving by the first embodiment and the second embodiment for weaving paper fabric has a mesh or mesh structure, slat (102) 202 and 206 are woven into a light-shielding structure to control the shading by the slats 102, 202 and 206. The fabrics are blinds such as roll rolls and roman shades. When applied to paper, bedding, or curtains, the curtain portions 100, 200, 200 'can be woven to have a light shielding structure, and, if necessary, the slat portion 102 ( By having the mesh structure 202 and 206, there is a property that can be applied to various fabric products.

1 is a perspective view according to a first embodiment of the reverse rotation apparatus of the present invention.

2 is a cross-sectional view according to the first embodiment of the reverse rotation apparatus of the present invention.

Figure 3 is a schematic diagram applying a weaving machine to a first embodiment of the reverse rotation apparatus of the present invention.

4 is a schematic view of a weaving machine according to a second embodiment of the reverse rotation apparatus of the present invention.

Figure 5 is a process chart according to the manufacturing method of the blind using the textile paper according to the present invention.

6 and 7 are a perspective view showing a weaving process according to the first embodiment of the method for manufacturing fabric paper according to the present invention.

Figure 8 is a perspective view showing a woven fabric woven in accordance with the first embodiment of the blind manufacturing method according to the present invention.

Figure 9 is a perspective view showing a state applied to the vertical paper cloth produced in accordance with the present invention.

10 to 14 is a perspective view showing a weaving process according to a second embodiment of the method for manufacturing fabric paper according to the present invention.

Figure 15 is a perspective view showing a woven fabric woven in accordance with a second embodiment of the blind manufacturing method according to the present invention.

Figure 16 is a perspective view showing a woven fabric woven in accordance with a third embodiment of the blind manufacturing method according to the present invention.

Figure 17 is a perspective view showing a woven fabric woven by applying a third embodiment of the blind manufacturing method according to the present invention.

[Description of Code for Major Parts of Drawing]

10: power input unit 11: motor

20: device axis 30: support

40: electronic clutch 50: power transmission unit

300: winding 400: weaving

500: transmitting unit 600: main motor

Claims (11)

A power transmission unit 50 composed of a power transmission means selected from pulleys, gears, and sprockets is installed on the device shaft 20; To the device shaft 20, a motor 11 for forward and reverse rotation is connected; By constructing a reverse rotation device of the structure provided with the electromagnetic clutch 40 for transmitting and releasing the power of the motor 11 to the device shaft 20, Reverse rotation device of the weaving machine, characterized in that to give a reverse rotation of the weaving machine through the motor. The method of claim 1, Further comprising a bearing housing 32 surrounding the bearing 31, and a support portion 30 consisting of a support frame 33 for supporting the bearing housing 32 to a predetermined height, Assembling the support portion 30 to the device shaft 20, the structure in which the bearing 31 of the support portion 30 is assembled, The motor 11 is fixed to the support frame 33 of the support 30, The motor 11 and the device shaft 20 is connected by a power transmission means, the power transmission means is assembled by a bearing, Reverse rotation device of the weaving machine, characterized in that to minimize the load on the motor during forward rotation. A power transmission unit 50 composed of a power transmission means selected from pulleys, gears, and sprockets, and an electromagnetic clutch 40 are installed on the device shaft 20, The support part 30 which comprises the bearing housing 32 which encloses the bearing 31, and the support frame 33 which supports the said bearing housing 32 to a predetermined height is provided, and the said support part to the said apparatus shaft 20 is provided. Assemble the support part 30 in a structure in which the bearing 31 of the 30 is assembled,  The support portion 30 supports a pair of reverse rotation means 17 (17 ') in which power transmission means and gears 17b (17b') are sequentially assembled to one shaft 17a (17a '). Gears 17b and 17b 'are engaged with the frame 33, The one reverse rotation means 17 constitutes a reverse rotation means of the structure connected to the device shaft 20, The reverse rotation device of the weaving machine, characterized in that to transfer the power of the weaving machine to the reverse rotation means, by providing a reverse rotation by the engagement of the gear. A power transmission unit 50 composed of a power transmission means selected from pulleys, gears, and sprockets, and an electromagnetic clutch 40 are installed on the device shaft 20, The support part 30 comprises a bearing housing 32 surrounding the bearing 31 and a support frame 33 for supporting the bearing housing 32 at a predetermined height, and the support part is provided on the apparatus shaft 20. Assemble the support part 30 in a structure in which the bearing 31 of the 30 is assembled, A pair of reverse rotation means (17) (17 ') in which power transmission means and pulleys are assembled in sequence on one shaft (17a) (17a') and a distance from the support frame (33) of the support portion (30) Install it, Each pulley of the reverse rotation means 17 (17 ') is staggered with a belt, The one reverse rotation means 17 constitutes a reverse rotation means of the structure connected to the device shaft 20, The reverse rotation device of the weaving machine, characterized in that to transfer the power of the weaving machine to the reverse rotation means, by providing a reverse rotation through the stagger of the pulley. By power transmission of the main motor 600, Winding unit (400) for weaving the fabric of the intersection of the supplied warp and the weft yarn by supplying the sending unit 500, the weft yarn by the warp beam 501 rotation, the winder winding the woven fabric 301, but In the conventional weaving machine provided with a main clutch 502 for transmitting and releasing the power of the warp beam 501 and the winder 301, The reverse rotation apparatus according to any one of claims 1 to 4 is provided, and the inclined beam 501 and the winder 301 are reversely rotated by the reverse rotation apparatus, and free rotation is performed to the weaving machine. The inclined beam 501 'is further added to supply the inclined 1 (1) by the inclined beam 501 capable of reverse rotation, and the inclined 2 (2) by the freely inclined beam 501'. A weaving machine setting step (S1) installed to supply; A parallel section A 'for weaving the curtain portion 100 at the intersection with the warp yarn 1 (1), the warp yarn 2 (2) and the weft thread through the forward rotation of the weaving machine; A protruding section (B ′) woven into two layers of a cross section between the warp yarn 2 (2) and the weft yarn and a connecting portion 101 composed only of the warp yarn 1 (1); A forward rotation step (S2) of sequentially configuring a fixing section (C ′) for weaving the intersection fixing part (103) between the warp yarns 1 (1), the warp yarns 2 (2) and the weft yarns; A reverse rotation step (S3) of reversing the inclined beam 501 and the winder 301 through the reverse rotation of the weaving machine, and winding the slant 102 by winding the inclined beam 1 (1); By repeating the forward rotation step (S2) and the reverse rotation step (S3), characterized in that for producing a fabric of the structure formed by repeating the slat portion (102) folded by the curtain portion 100 and the connecting portion 101 Method for producing a woven paper using a reverse rotation device. The method of claim 5, In the reverse rotation step (S3), the weaving unit 400, by limiting the weaving of the woven paper through the supply control of the weft, A method for manufacturing textile paper using a reverse rotation apparatus, characterized by facilitating reverse rotation of the warp beam and folding of the slat portion. The method according to claim 5 or 6, In the forward rotation step (S2), Curtain portion 100 of the parallel section (A ') is woven into a mesh structure, The slat portion 102 of the protruding section (B ') is a manufacturing method of the fabric paper using a reverse rotation device, characterized in that weaving in a light shielding structure. By power transmission of the main motor 600, Winding unit (400) for weaving the fabric of the intersection of the supplied warp and the weft yarn by supplying the sending unit 500, the weft yarn by the warp beam 501 rotation, the winder winding the woven fabric 301, but In the conventional weaving machine provided with a main clutch 502 for transmitting and releasing the power of the warp beam 501 and the winder 301, The reverse rotation apparatus according to any one of claims 1 to 4 is provided, and the inclined beam 501 and the winder 301 are reversely rotated by the reverse rotation apparatus, and free rotation is performed to the weaving machine. In addition, two inclined beams 501 'and 501 " A weaving machine setting step (S1) which is installed so as to supply the warp yarn 4 (4) and the warp yarn 5 (5) respectively by " Through the forward rotation of the weaving machine, the warp yarn 3 (3) and the warp yarn 4 (4) weave the curtain portion 200 at the intersection with the weft yarn to be supplied, and at the same time, the warp yarn 5 (5) and the weft yarn to be supplied. A parallel section A which is woven by the intersection curtain portion 200 'and constitutes two layers of curtain portions 200 and 200'; The warp yarn 3 (3) constitutes a connecting portion 201 in which the supply of the weft yarn is restricted, and at the same time, weaving the intersection slat 202 between the warp yarn 4 (4) and the weft yarn to be supplied, and at the same time, the warp yarn 5 (5) and a separate section (B) for weaving the curtain section 203 of the intersection of the weft to be supplied and constituting the three-layer connecting section 201, the slat section 202 and the curtain section 203, respectively; The warp yarn 3 (3) constitutes a connecting portion 201 in which the supply of the weft yarn is restricted, and weaves the integral part 204 of the intersection of the warp yarn 4 (4) and the warp yarn 5 (5) with the weft yarn to be supplied. The other fixed section C constituting the connecting portion 201 and the integral portion 204 of the layer; The warp yarn 3 (3) constitutes a connecting portion 201 in which the supply of the weft yarn is restricted, and weave the slat portion 205 at the intersection of the warp yarn 4 (4) and the weft yarn to be supplied, and the warp yarn 5 (5) , Weaving the standby section 206 is limited supply of the weft, a separate section (D) constituting the three-layer connecting portion 201, the slat portion 205 and the standby portion 206; The inclined 5 (5) constitutes the atmospheric section 206 in which the supply of the weft yarn is restricted, and at the same time, the integral part 207 of the intersection of the inclined 3 (3) and the inclined 4 (4) with the weft yarn supplied is provided. Weaving, forward rotation step (S2) of sequentially configuring the one side fixed section (E) constituting the two parts of the standby portion 206 and the integral portion 207; Through the reverse rotation of the weaving machine, the inclined beam 501 and the winder 301 are reversely rotated so that the two slats 202 and 206 are in parallel to wind the inclined 3 (3). Step (S3); By repeating the forward rotation step S1 and the reverse rotation step S3, two parallel slat portions 202 and 206 and two double curtain portions 200 and 200 ′ are repeatedly formed. Method for producing a woven paper using a reverse rotation device characterized in that for producing woven paper of the structure. The method of claim 7, wherein In the reverse rotation step (S3), the weaving unit 400, by limiting the weaving of the woven paper through the supply control of the weft, A method for manufacturing textile paper using a reverse rotation apparatus, characterized by facilitating reverse rotation of the warp beam and folding of the slat portion. The method according to claim 8 or 9, In the forward rotation step (S2), Curtain portion 200 (200 ') of the parallel section (A) is woven into a mesh structure, The slat portion 202 of the separate section (B) and the slat portion (206) of the separate section (D) are each woven into a light shielding structure. The method according to claim 8 or 9, Of the two-ply curtain portion 200 (200 ') by the parallel section (A), One of the two curtain parts (200, 200 ') is limited to the supply of the weft, the curtain portion of the fabric (200, 200') reverse rotation apparatus characterized in that at least one constitutes the fabric paper consisting of only inclination Method for producing a woven paper using.

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