KR200316941Y1 - Cylindrical Inclination Structure of Cylindrical Sewing Machine - Google Patents

Abstract

The present invention discloses a cylindrical inclined structure of a cylindrical sewing machine. The pedestal is set on the lower axle (x-axis) of the sewing machine column, and the sliding feeding mechanism, the spin shuttle, the upper and lower cams, the feeder at the base of the sewing machine column. Connect the axle connector with the y-axis at the intersection to split the lower axle in two with parts such as a stand, a small gear, and a large gear, so that the base of the sewing machine column is tilted toward the axial direction of the lower axle. The intersection of the x- and y-axes can be used as the axle center for its rotation to provide and avoid the sliding of the feeding mechanism as the feeding structure of a conventional cylindrical sewing machine.

Description

Cylindrical Inclination Structure of Cylindrical Sewing Machine

The present invention relates to a feeding structure of a sewing machine, in particular a feeding structure of a cylindrical sewing machine, in which a workpiece can be easily loaded and unloaded into the sewing machine.

1 shows a diagram of a cylindrical sewing machine inclined for operation. This sewing machine has a synchronous upper feed / lower feed, and a needle movement feeding mechanism in which the swing is driven through the link rod 19 by means of an arm 24 fixed to the horizontal feeding axis 25 as the lower axle 14. And the sliding motion of the sliding board linked to the groove 21a of the guide board 21 and the link rod 19 disposed on the base 9 of the sewing machine column is converted into a linear movement. The sliding movement of the horizontal feeding axis 25 is concentrated on the lower axle so that at the base 9 of the sewing machine column a rotating pedestal can be arranged at the axle center of the lower axle 14, the base 9 of the sewing machine column 9. May be inclined toward the radial direction of the lower axle 14.

As described above, a conventional inclined cylindrical sewing machine slides in a plane perpendicular to the lower axle and perpendicular to its axis. When the sewing position of the sewing object is set, the position of the sewing object in front of the operator and the sewing machine column 10 should be moved toward the needle feeder 5 of the sewing machine, and generally out of a predetermined position. In order to solve this problem, the inclined structure of the cylindrical sewing machine has an object of improving the alignment convenience of the sewing position of the sewing object.

The cylindrical inclined structure of the cylindrical sewing machine of the present invention sets the inclination pedestal to the axle center of the lower axle of the sewing machine column, and this axle center has a vertical line, and the axle connector disposed at the intersection of the axle center divides the lower axle. do. The divided lower axles are disposed at the base of the sewing machine column at two intersections with the y-axis and connected to the other end of the divided axle with the axle connector; The divided lower axle is arranged at the base of the sewing machine column to establish the vertical sliding part of the feeder and the horizontal sliding part of the moving structure. The horizontal sliding part of the feeder uses a sliding board to guide the swing to the horizontal and vertical movements, and the second sliding board of such vertical movement part can fall without removing the structural agent.

The main object of the present invention is to drive the sewing machine column with the feeder sliding structure to move in a plane perpendicular to the axial direction of the lower axle without removing all connecting structures for feeding and sliding while easily aligning the sewing position of the sewing object. In providing an inclined structure of a cylindrical sewing machine.

Other features and advantages of the present invention will become apparent from the following detailed description of the preferred embodiments in conjunction with the accompanying drawings.

1 is a diaphragm showing a conventional sewing machine column when the sewing machine column is in the vertical position and the inclined position.

2 is a diaphragm showing a sewing machine column of a preferred embodiment of the present invention when the sewing machine column is in a vertical position and an inclined position.

3 is a diagram of the lower axle structure of the present invention.

4 is a plan view of the structure of the present invention.

5, 6, and 7 are diagrams showing the movement of the present invention.

8 is a perspective view showing a sewing machine column of the present invention.

9 and 10 are exploded perspective views of a preferred embodiment of the present invention.

[Explanation of symbols on the main parts of the drawings]

9: base 10: sewing machine column

11: feeder 13: chain wheel

14: lower axle 15: axle connector

17: Gear 19: Link Rod

20, 22: sliding board 21: guide board

21a: Groove 23: Axle

24: arm 25: horizontal feeding axle

27, 28: bearing 31: center axle

32: screw 33: axle screw

36: pivot connection hole 35, 37: latch axle

39: nut 40: rotary shuttle

EMBODIMENT OF THE INVENTION Hereinafter, preferred embodiment of this invention is described in detail with attached drawing.

1 shows a sloped structure perpendicular to a conventional lower axle. 2-10 show an inclined structure inclined to the lower axle according to a preferred embodiment of the present invention.

The lower axle 14 is transmitted by a rotation created by an upper axle (not shown) that drives a gear transmission belt (not shown) to secure the chain wheel 13 at one end; The second lower axle 16 and the lower axle 14 share the same axle center, and the bearings 27, 28 engage the rotary axle connector 15, to couple to the base of the sewing machine column that rotates the lower axle 14. 15a, 15b).

The center of the axle connector 15a overlaps the center of the pivot connection hole 36 of the base 9 of the sewing machine column in the horizontal plane of the axle center of the lower axle 14, 16. In other words, if the axle centers of the lower axles 14 and 16 are on the x-axis, the intersections of the x-axis, y-axis, and z-axis are disposed at the rotational axle center of the sewing machine column on the z-axis and the axle center of the axle connector 15a. The axial arrangement of the lower axle 16 can be minimized when the base of the sewing machine column is rotated.

The small gear 17 is arranged at the lower end of the central axle 31 of the sewing machine column 10, the rotary shuttle 40 is coupled to the upper end of the axle and the lower axle 16 to transmit the rotation of the lower axle 16. It is connected vertically to a large gear.

The upper and lower transmitting cams are fixed to the lower axle 16 and are connected to the link rod 19 on the first sliding board 20 by screws 32. The vertical movement is transmitted to the feeder 11 via the axle screw 33 and nut 39.

The slider 20a perpendicular to the lower axle 16 is fixed to the base 9 of the sewing machine column and connected to the groove 21a of the guide board 21 and moves in a horizontal plane perpendicular to the lower axle (z axis). To the first sliding board 20 which can be provided and at the same time has a groove 20b. The second sliding board 22 is installed on the link rod structure (not shown) and the cam of the lower axle 14 and converts the rotation of the base 8 into a swing and is supported by a bearing not shown in the figure. It consists of an arm 24 of the axle 25 and is fixed to the axle 23 cross section for free rotation. The swing of the horizontal feeding axle 25 is transmitted to the first sliding board 22; The second sliding board 22 is always in the swing range of the horizontal feeding axle 25 in the vertical condition (y axis). When the swing is in the range between the second sliding board 22 and the groove 20b, the swing can be transmitted regardless of the movement of the plane perpendicular to the lower axle.

The U-shaped base 34 is installed at the bottom of the base 8 and connected to the lower axle plane (z-axis) of the sewing machine hole (not shown) in the opposite direction, and has a sewing axle 35 and 37. It is connected to the pivot hole 36 at the base of the column, so that the base 9 of the sewing machine column can be rotated by using the latch axles 35, 37 as the axle center.

As described in the above structure, in Figs. 2 and 3, (A) shows the sewing machine column 10 in the sewing state when it is vertical, and (B) shows when the sewing object is loaded or unloaded. Indicates a picture state; 5, 6, and 7 (A) shows an elliptical track of sliding of the feeding under the sewing state, constitutes a front view of the components, and the center track of the axle screw 33 in the middle of the link rod 19 shows the elliptical sliding. ; (B) is a side view, and an arrow direction shows a sliding direction. The lower axle is the x-axis, and the positions of the y- and z-axes are set on that line for the inclined pedestal when the fixation of the sewing machine column not shown in the figure is removed. FIG. 5A shows the position of the arm 24 when the horizontal parts of the feeding of the second sliding board 22 and the slider 22a are largest, and FIG. 7A shows the smallest position. Although the arm 24 is positioned as shown in FIG. 7C, it is not necessary to unload the second sliding board and the slider 20a for tilting in a plane perpendicular to the lower axle, The axle center of the axle connector 15a (z-axis) is used as the center so as to be inclined toward the intersection of the z-axis.

In summary, the structure of the improved decorative fixture of the ceiling lamp disclosed by the present invention is novel and can perform the function as described above.

Although the present invention has been described by way of examples, the present invention is not limited thereto. On the contrary, various changes and modifications can be made within the scope of the claims.

According to the description of the present invention, if the link rod sliding downward is connected and the rotation of the sewing machine column of the feeder rotates in the axial direction of the lower axle, the needle can be rotated while maintaining the position of the sewing object and thus improve the operating efficiency. Can be.

Claims (2)

Dividing the lower axle of the sewing machine base into two, comprising an axle connector at the axle center of the lower axle, the center of the axle connector is disposed in the inclined center of the sewing machine column cylindrical inclined structure. The method of claim 1, further comprising a first sliding board vertically connected to the base of the sewing machine column for sliding the base of the sewing machine column, the second sliding board is installed horizontally on the sliding guide rod, the lower axle and A cylindrical inclined structure of a cylindrical sewing machine, which can be slid in a direction perpendicular to the parallel direction, wherein the second sliding board transmits a swing axial movement.