KR200301404Y1 - Pressure device for sewing machine press rod - Google Patents

Abstract

As a pressure mechanism for a sewing machine press rod, the press rod is disposed at the front end of the machine arm via a bolt for freely lifting and lowering the shaft bearing. The press plate is arranged on an axis base inside the machine arm and uses a pivot axis as a support point. The other end of the press plate is connected to a groove at the upper end of the fixed sliding sleeve. The central part of the press plate is arranged with a spring holder fixed by bolts and a compression spring is placed there. When tightly secured to the bolt, the compression spring is compressed to increase the pressure load on the press plate and to transfer the pressure to a pressure rod for generating a pressure function.

Description

PRESSURE DEVICE FOR SEWING MACHINE PRESS ROD}

The present invention reduces the compressive load generated by the spring when the press load rises, which affects the elevating device and the job tiredness of the operator.

1 and 2 show the pressure structure of a conventional sewing machine press rod. The press rod 1 is freely raised and lowered through the support of the shaft bearing 2 and the bolt 3. The sliding sleeve 4 and the fixed sliding sleeve 5 are unitary structures.

As shown in FIG. 1, the resilient press plate 11 uses a coater 13 as a supporting point. A pressure screw 12 is arranged near the central part and the end is connected to a groove 5a at the upper end of the fixed sliding sleeve 5. The tightly fixed screw 12 allows the resilient press plate 11 to provide steel resilient pressure to the fixed sliding sleeve and the sliding sleeve 4. , And to the press rod 1 of the pressure structure of the press rod 1.

As shown in FIG. 2, the compression spring 11a uses the adjustment of the bolt 3 to deliver a compressed axial load to the fixed sliding sleeve 5.

A control rod 9 is connected to the elevating cam 10 and the lower end of the fan-shaped connecting plate 6. In the case of turning, the fan-shaped connecting plate 6 is turned using the bolt 7 as a supporting point. A convex post 6a is in contact with the fixed sliding sleeve 5 and starts to move upwards, causing the press rod 1 to move from the tension spring to the sliding sleeve 4. To pass through.

The crank 15 is fixed to a shaft 17 supported by a shaft bearing (not shown) which is arranged on a machine arm. The coater 16 is connected to a link rod 14 and a fan-shaped connecting plate groove 6b. When the shaft 17 rotates in the radial direction, the fan-shaped connecting plate 6 rotates using the bolt 7 as a support point to lift the fixed sliding sleeve 5 and applies the force. It transfers to the tension spring 44 and the sliding sleeve 4 to raise the press rod 1.

The fabric holding device of the conventional structure described above, which is arranged at the lower end of the press rod 1, presses and moves the sewing workpiece placed on the mechanism for conveying forward. The elevation is transmitted to the press rod 1 and increases the elastic pressure in accordance with the climbing ratio. When stitching thick workpieces to thin workpieces, especially leather, undesirable pressing damage can occur to thicker workpieces. In addition, when another workpiece is added for sewing or the sewing direction is changed, the operation of the elevating device becomes heavy and adds to the worker's fatigue.

The present invention aims to solve the above problems.

The main object of the present invention is to put practical use of a lever link rod connected to a press rod, and to arrange a pressure spring in the central portion of the lever. By this device, the reaction pressure transmitted from the compression of the spring due to the elevating press rod when the predetermined elastic pressure acting on the press rod is equal to the conventional elastic pressure. ) Is reduced.

BRIEF DESCRIPTION OF DRAWINGS To better understand the structural features and technical details of the present invention, it is illustrated by a brief description of the drawings and preferred embodiments.

1 is a conceptual diagram illustrating the mechanism of one embodiment of the prior art.

2 is a conceptual diagram illustrating a mechanism of another embodiment of the prior art.

3 is a view showing an assembly mechanism of an embodiment of the present invention.

4 is a view for explaining an embodiment of the present invention.

5 is a diagram comparing the amount of elastic pressure between the prior art and the present invention.

It demonstrates with reference to FIG. 3 and FIG. The press rod 1 is supported by a bolt 3 at the upper end, and the lower end is supported by a shaft bearing 2. In the vicinity of the center part, it engages with the groove of the guide rod 8 and the upper part is arranged by a fixed sliding sleeve 5 which can stop the rotation. The fixed sliding sleeve 5 and the sliding sleeve 4 are connected as a unit with a tension spring 44 through the fixing of screws. The bolt 25 fixes the upper end of the press rod 1. Rotation of the bolt 3 limits the press rod 1 to move in the axial direction. The lifting position adjustment of the bolt 3 limits the upward movement of the fixed sliding sleeve 5.

A fan-shaped connecting plate 6 rotates using bolts 7 as support points. A convex post 6a at the lower end is engaged and fixed with the fixed sliding sleeve 5 so that the rotational movement of the fan-shaped connecting plate 6 linearly moves the fixed sliding sleeve 5. Convert to exercise Additionally, pulling the link rod 14 transfers it through the groove 6b to the fan-shaped connecting plate 6. The control rod 9 is supported from the shaft bearings 9a and 9b to freely rotate. The cam 10 is arranged at the lower end of the fan-shaped connecting plate 6 to move frictionally.

One end of the link rod 14 is coupled to a groove of the fan-shaped connecting plate 6. The other end is connected with an E-shaped retaining ring at the rotary arm of the crank 15 via a cotter 16 and the base of the machine arm. It is supported by the shaft and guided by the freely rotating shaft 17. The shaft 46 is fixed perpendicularly to the lower end of the shaft 17 via the connector 45. One end of the shaft 46 uses a tray 49 through a connecting block 47 to transmit the rotational force of the shaft 46 connected to the end of the shaft 17. To fix the shaft 48 tightly.

The press plate 18 uses a pivot shaft 20 as a support point and a shaft base 19 at the machine arm 38 via a screw 21. It is fixed to). A convex portion 22 is disposed at the center portion and the spring holder 23 is disposed at the center portion of the protrusion portion 22. The compression spring 11b is tightly disposed in the vertical direction on the spring holder 23 via the bolt 24. The other end engages with the groove 5a of the fixed sliding sleeve 5. The tightly fixed bolt 24 compresses the compression spring 11b to exert a resilient pressure on the press plate 18 and the workpiece.

A description with reference to FIG. 1, FIG. 2, and FIG. The prior art uses the press rod for fixing the compression spring 11a or through the fixing action of a bolt to the central portion of the elastic press plate 11 on the fan-shaped connecting plate 6 coupled on the press rod. An elastic pressure (action force) is exerted on the press rod 1 through the action of the bolt disposed at the upper end of the (1). The elastic pressure P, which has already been determined, is calculated by the formula:

P = k (elastic coefficient) * δ (compression amount of spring) ------------- (a)

In the case of sewing operations, the actuation or groove of the elevating cam 10 on the end of the control rod 9 to satisfy the direction change as well as the mixing of the thickness change and the workpiece to be sewn. move the link rod 14 connected to the groove 6b to cause the fan-shaped connecting plate 6 to rotate by centralization in the bolt 7, the lifting of the fixed sliding sleeve 5 and the By raising the press rod through a tension spring coupled on the sliding sleeve. Therefore, the elastic pressure P 'of the elastic press plate 11 or the spring 11a is calculated by the following formula.

P '= P + k * δ' (change amount of the press rod) --------- (b)

With reference to Figures 3 and 4 will be described the structure of the subject innovation. The press plate is based on the pivot axis 20 as a support point and the other end engages on the groove 5a on the fixed sliding sleeve 5. In order to apply pressure to the compression spring disposed in the center portion, and to transmit the elastic pressure to the fixed sliding sleeve (5) and the slide sleeve (4) to obtain the elastic pressure in which the press rod (1) acts downward To do this, a fastening bolt 24 is used. At this time, the predetermined elastic pressure P and the elastic pressure F of the compression spring 11b are calculated by the following formula.

F = P * {(L1 + L2) / L2} -------------------------------- (c)

(L1 and L2 are shown in Figure 4)

Thus, the elastic pressure F is (L1 + L2) / L2 times larger than the predetermined elastic pressure P. The amount of compression δ '' using the compression spring 11b is calculated by the following formula.

δ '' = δ * {(L1 + L2) / L2} ------------------------------ (d)

In order for the press rod 1 to obtain a predetermined elastic pressure P, it is necessary to increase the elastic pressure on the bolt 24 by (L1 + L2) / L2 times.

According to the above-described structure, the pressure change caused by the thickness change of the workpiece compressed for sewing, the mixed workpiece or the sewing direction change is caused by the control rod 9 raising the cam 10 or the shaft. It is required to actuate the tray 49 to rock 17. Furthermore, the crank 15 and the link rod 14 are rotated so that the fan-shaped connecting plate 6 has a fixed sliding sleeve 5, a tension spring 44 and the sliding sleeve 4 with the press rod. (1) transmit the force to lift. Observing the change in the elastic pressure transmitted from the press rod 1 to the compression spring 11b, the elastic pressure P determined at the preliminary stage of lifting the press rod 1 is Determined by

P = F * {L2 / (L1 + L2)} --------------------------------- (e)

The amount of compression varies as follows.

δ '' / L2 = δ / (L1 + L2) to δ '' = δ * {L2 / (L1 + L2)}-(f)

If the change amount of the press rod 1 is Δδ, the formula (e) can be rewritten as follows.

P = F + {ΔδK * L2 / (L1 + L2)} * L2 / (L1 + L2)

As shown in Fig. 5, the elastic pressure (indicated by the "invented" line in the hatched line) due to the elevating quantity of each part of the press rod 1 is reduced compared to the prior art.

The embodiments described herein illustrate the technical idea of the present invention, and it is apparent to those skilled in the art that a wide range of changes are possible.

In the case of sewing, the present invention reduces the elastic pressure generated by the lifting and lowering motion of the press rod and achieves a uniform quality against the predetermined elastic pressure generated by the change of thickness, the mixing material of the workpiece and the change of the sewing direction. The objective of reducing maintenance and worker fatigue can be achieved.

Claims (1)

A pressure mechanism for a sewing machine press rod comprising a press rod that can freely move up and down and a lifting mechanism disposed on the machine arm of the sewing machine, The press plate is disposed on an axis base inside the machine arm using a pivot axis as a support point; The protrusion is disposed at the center portion of the press plate, and the spring holder is disposed on the center portion of the protrusion portion; The compression spring is disposed vertically on the spring holder and fixed by bolts; The other end of the press plate is coupled to the groove of the fixed sliding sleeve of the press rod; The compression spring is a compression mechanism for a sewing machine press rod, characterized in that when the bolt is tightly fixed, it is compressed to apply an elastic pressure to the press plate and the workpiece.