KR100569200B1 - Fuselage division structure of water jet loom - Google Patents

Abstract

The present invention relates to a waterjet loom that interweaves the weft and warp to produce a fabric. The configuration has the following characteristics. The auxiliary frame 20 is installed at regular intervals so as to divide the body of the loom 10, and the body shaft 30, the drive shaft 40 is divided into two sides with respect to the auxiliary frame 20, and connected thereto It characterized in that the drive by the connecting means.

Accordingly, by dividing the body of the loom and installing auxiliary frames at regular intervals to prevent bending and vibration of the shaft during weaving, the quality and productivity of the fabric is improved, and partly easy to disassemble and assemble, thus reducing the cost of maintenance. And the convenience of providing convenience.

Waterjet Loom, Fuselage, Frame, Body Shaft, Body, Drive Shaft, Weft, Slope

Description

Fuselage division structure of water jet loom

1a to 1b is a block diagram showing a conventional water jet loom and fabric.

2a to 2b is a schematic view showing a water jet loom and fabric according to the present invention.

3 is a perspective view showing a water jet loom according to the present invention.

Figure 4 is a block diagram showing a state in which the body axis is operating according to the present invention.

Figure 5 is an exploded perspective view showing the decomposition of the water jet loom according to the present invention.

Figure 6 is a longitudinal cross-sectional view showing a part of the auxiliary frame according to the present invention.

7a to 7b are plan views showing one embodiment of a water jet loom according to the present invention.

※ Explanation of main parts of drawing ※

10: loom 11: stand

12: support rod 20: auxiliary frame

22: fixed frame 30: body axis

40: drive shaft 50: connecting shaft

The present invention relates to a waterjet loom that produces a fabric by interweaving the weft and the warp yarn, and more particularly, by dividing the body of the loom and installing auxiliary frames at regular intervals to prevent bending and vibration of the fabric during weaving. The present invention relates to a fuselage split structure of a water jet loom which improves quality and productivity, and also partially disassembles and assembles to provide cost reduction and convenience according to maintenance.

Normally, weaving machines are already divided into two layers of inclination running along the fabric length to form a tunnel, an inlet motion to pass the weft reciprocating along the fabric width into the tunnel, and a warp inserted into the weft tunnel. Three main movements of the weaving machine, such as the body movement that pushes into the interwoven fabric, interact with precise timing, and weaving the fabric continuously through the tilt control movement and the fabric control movement.

1a to 1b is a block diagram showing a conventional water jet loom and fabric.

Conventional loom 1 is a bar as shown in Figure 1a is mounted on a pair of fixed frame (1a) a plurality of shafts 3, 4 formed as a single body is interlocked with the gear train (not shown) At this time, the body 3a is installed on the horizontal line of the body shaft 3. The body 3a is a guide through which the north needle (not shown) passes when the weft yarn W is inserted by setting the density of the inclination S, and the weft yarn which is reciprocated in a predetermined section by the rotation of the drive shaft 4 is introduced. The process of adhering W) into the already woven fabric F is carried out.

On the other hand, the shaft (3) (4) to be mounted on the fixed frame (1a) is produced with a long axis of at least 2000mm, depending on the maximum weaving width (for example, 1600, 2100, 2600mm) of the fabric (F), 650 ~ 800rpm As the body shaft 4 reciprocates a certain section in conjunction with the drive shaft 3 rotating at a high speed, the shafts 3 and 4 are bent or vibrated during weaving, and the shafts 3 and 4 are bent. Over-vibration increases the working speed or gives a lot of load to the loom (1) when weaving high-density fabrics, such that obstacles such as smooth weaving are impossible.

In particular, the bending of the body shaft (3) is directly connected to the quality of the fabric (F), the body material in close contact with the weft yarn (W) in the already woven fabric (F) with the body shaft (3) of the loom (1) bent. When the exercise is performed, as the weft (W) is woven in a curved form on the inclined (S) as shown in Figure 1b, the quality of the fabric (F) is extremely degraded, thereby losing the market competitiveness.

In addition, the body shaft (3) and the drive shaft (4) is made of a long axis of a single unit to repair the inside of the loom (1) or to replace a number of damaged shaft (3) (4) dedicated equipment such as a number of manpower or crane (shown Maintenance work is cumbersome, transportation costs are additionally burdened, and partial replacement is impossible, and even if only part of the shaft is damaged, the maintenance cost increases due to the increase of parts cost due to the total replacement.

Accordingly, the present invention is to fundamentally solve the conventional problems as described above, by dividing the body of the loom and installing the auxiliary frame at regular intervals to prevent the bending and vibration of the shaft during weaving to improve the quality and productivity of the fabric It is also an object of the present invention to provide a fuselage split structure of a water jet loom which is partially disassembled and easy to provide cost reduction and convenience due to maintenance.

In order to achieve the above object, the present invention provides a waterjet loom interweaving the warp yarn and the warp yarn: an auxiliary frame 20 installed at regular intervals so as to divide the body of the loom 10, and the auxiliary frame With the body shaft 30, the drive shaft 40 is divided into two sides based on the (20), characterized in that the drive by the connecting means for connecting it.

At this time, the connecting means is inserted into both ends so that the through hole 20a formed on the auxiliary frame 20, the connecting shaft 50 inserted through the through hole 20a, and the connecting shaft 50 are rotatable. It is characterized by comprising a bearing (B) to be.

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

Figure 2a to 2b is a block diagram showing a water jet loom and fabric according to the present invention, Figure 3 is a perspective view showing a water jet loom according to the present invention, Figure 4 shows a state in which the body axis according to the invention operating Figure 5 is an exploded perspective view showing the decomposition of the water jet loom according to the present invention.

The present invention relates to a waterjet loom that interweaves the weft and warp to produce a fabric. Loom 10 of the present invention, along with the auxiliary frame 20, which is installed at regular intervals so as to divide the body, and the body shaft 30, the drive shaft 40 is divided into both sides based on the auxiliary frame 20, The connecting means for connecting the same as the main configuration.

The auxiliary frame 20 according to the present invention is installed at regular intervals so as to divide the body of the loom 10. The auxiliary frame 20 is cast in the form of a hollow hollow inside, and forms a space portion 20b that is open upward in the center portion. The space portion 20b has a suitable width so that a heald frame (not shown) which forms a tunnel by separating the slope S traveling along the fabric length during the opening movement of the loom 10 into two layers can be reciprocated in the vertical direction. Is formed. At this time, the auxiliary frame 20 is installed on the pair of pedestal 11 in accordance with the maximum weaving width of the loom 10 is divided into a plurality of bodies at regular intervals, a plurality of support rods between the frame 20, 22 (12) is provided. As shown in FIG. 3, the support rod 12 maintains the position of the frames 20 and 22 installed at regular intervals, and improves the overall durability of the loom 10.

In addition, the body shaft 30 and the drive shaft 40 according to the present invention is divided into both sides with respect to the auxiliary frame (20). The body shaft 30 and the drive shaft 40 are manufactured to have a predetermined length as a hollow pipe shape, and couplings 30a and 40a are integrally provided at both ends. Couplings 30a and 40a of the body shaft 30 and the drive shaft 40 are mounted to the connecting means described later, and are divided on both sides of the auxiliary frame 20. Accordingly, the body shaft 30 and the drive shaft 40 which are linked to each other on both sides of the auxiliary frame 20 by the connecting means are engaged by a power unit (not shown) and a gear train (not shown), and by the operation of the power unit. As the drive shaft 40 rotates at a high speed, as shown in FIG. 4, the body shaft 30 reciprocates within a predetermined section and performs a body movement.

In addition, the body shaft 30 and the drive shaft 40 according to the present invention is driven by the connecting means. The connecting means is installed on the auxiliary frame 20 which is installed at regular intervals so as to divide the body of the loom 10, and the body shaft 30 and the drive shaft 40 made in a predetermined length in the coaxial operation bar, Detailed description thereof will be described with reference to FIG. 6.

Figure 6 is a longitudinal cross-sectional view showing a part of the auxiliary frame according to the present invention.

In FIG. 6, the connecting means includes a through hole 20a formed on the auxiliary frame 20, a connecting shaft 50 inserted into the through hole 20a, and both ends of the connecting shaft 50 so as to be rotatable. It is provided with the bearing B inserted in the. A plurality of through holes 20a are formed on the horizontal line of the auxiliary frame 20 to impart a connecting shaft 50. The connecting shaft 50 is formed in a round bar shape so as to be rotatably installed at both ends via a bearing B, and the body shaft 30 and the driving shaft 40 are mounted at both ends, respectively. Therefore, the body shaft 30 and the drive shaft 40 are cooperatively operated coaxially by the connecting shaft 50 on the auxiliary frame 20.

2 to 6 will be described the assembly state of the water jet loom according to the present invention.

First, the fixing frames 22 are fixed to both ends of the pedestal 11 having a length suitable for the maximum weaving width of the fabric F, and the auxiliary frames 20 are installed at regular intervals between the fixing frames 22. do. Subsequently, the body shaft 30, the drive shaft 40, and the support rods 12 are mounted between the frames 20, respectively, and the body shaft 30 and the drive shaft 40 connect the through holes 20a of the auxiliary frame 20. Linked operation in a fixed state on each end of the connecting shaft 50 is interposed through, and maintains the position of the frame 20, 22 installed at a perfect interval by the support rod 12.

Subsequently, when the body D is fixed on the body shaft 30 and the weaving process of the loom 10 is performed, vibration or bending of the body shaft 30 and the driving shaft 40 by the auxiliary frame 20 and the connecting means is performed. This prevents the high-speed operation as well as producing a high quality fabric (F).

7A to 7B are plan views showing one embodiment of a water jet loom according to the present invention.

As described above with reference to FIGS. 2 to 6, the fuselage of the loom 10 is divided according to the weaving width of the fabric F, which is varied in various sizes as the fuselage of the loom 10 is manufactured at regular intervals. As described above, it is also possible to separate or assemble for each section to adjust the maximum weaving width of the loom 10.

According to the above configuration and operation, the present invention relates to a waterjet loom for producing a fabric by interweaving the weft and the warp yarn, and more specifically, to split the fuselage of the loom and to install auxiliary frames at regular intervals to warp and vibrate the shaft during weaving. As it prevents the quality and productivity of the fabric is improved, and also partially disassembly and assembly, there is an effect of providing a cost reduction and convenience according to maintenance.

It is apparent to those skilled in the art that the present invention is not limited to the described embodiments, and that various modifications and variations can be made without departing from the spirit and scope of the present invention. Therefore, such modifications or variations will have to belong to the claims of the present invention.

Claims (2)

For waterjet looms that interweave the weft and warp to produce fabric: The auxiliary frame 20 is installed at regular intervals so as to divide the body of the loom 10, and the body shaft 30, the drive shaft 40 is divided into two sides with respect to the auxiliary frame 20, and connected thereto The fuselage split structure of a water jet loom, characterized in that the drive by the connecting means for the connection. The method of claim 1, The connecting means has a through hole 20a formed on the auxiliary frame 20, a connecting shaft 50 inserted into the through hole 20a, and a bearing inserted into both ends of the connecting shaft 50 so as to be rotatable. (B) is a fuselage split structure of a water jet loom.

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