KR101429393B1 - A grain kneader - Google Patents

Abstract

In the present invention, a force generated when a support rod of a stirrer is rotated by a chain motor to rotate a stirrer installed inside the kneader bar is dispersed without being directly transmitted to a rotary shaft, and the kneader barrel rotatably supports a rotary shaft of the stirrer The present invention relates to a grain kneader which can be dynamically stabilized without distortion, noise, and fluctuation of the kneader by making it possible to resist the force generated when the kneading water hits the inner wall of the kneader, A first bearing housing for supporting one end of the support bar on one side and the other side of the kneader bar; and a second bearing housing for supporting one end of the support bar on one side and the other side of the kneader barrel, And a second bearing housing including a pivot shaft coupled with a second bearing assembly, wherein the second bearing housing is provided with a reversing device In the grain kneader, the first bearing housing is supported by a support plate provided on one side of the kneader drum, and the outer surface of the kneader drum is directly fixed to the first bearing housing fixed and supported by the support plate The first bearing housing (1) is directly connected to a speed reducer, and a driven sprocket is provided on an input shaft of the speed reducer.

Description

A grain kneader

The present invention relates to a power transmitting device for a grain kneader, and more particularly, to a power transmitting device for a grain kneader, in which a force generated when a support rod of a stirrer is rotated by a chain transmission to rotate a stirrer provided inside the kneader barrel is not directly transmitted to a rotary shaft, And the kneader barrel is fixed and supported directly to the bearing housing that rotatably supports the rotary shaft of the stirrer barrel so that the kneader barrel can resist the force generated when the kneader barrel is kneading the inner wall of the kneader barrel, So that the kneading can be stably performed.

Generally, a kneader is a kneader in which water is mixed with a grain powder such as wheat flour, and the impeller mounted on both sides of the kneader, that is, the stirrer is rotated in opposite directions to knead the grain powder together with water, The cause is the grain kneader that has been presented.

As shown in FIG. 1, the grain kneader has a support bar 130 installed in the kneader barrel 100 in the transverse direction, and a pair of first barbs on both sides of the support bar 130 inside the kneader barrel 100 The support rod 130 is supported at both ends by a pair of the first bearing housing 1 and the second bearing housing 3, and the first and second bearing housings 120a and 120b are disposed opposite to each other. The second bearing housing (3) includes a pivot shaft (2). A drive sprocket 153a is provided at one end of the support rod 130 passing through the first bearing housing 1 to drive the drive motor 152 and the chain 159 from the drive sprocket 153b of the reduction gear 153 And a reversing device V is installed on the other end side of the support bar 130 where the pupil shaft 2 is located.

The conventional grain kneader constructed as described above is transmitted from the drive motor 152 and the driven sprocket 153b of the speed reducer 153 to the driven sprocket 153a provided at one end of the support rod 130 via the chain 159, The sprocket 153a rotates the support rod 130. [ The reversing device V reverses the input rotational force and transmits power to the pupil shaft 2 so that the pupil shaft 2 is rotated in the opposite direction The second stirrer 120b rotated in the direction opposite to the supporting rod 130 and coupled to the pore shaft 2 is rotated in the opposite direction to the first stirrer 120a.

2A and 2B, the input side spur gear 41 is coupled to a support rod 130 to which power is input into the spur gear gear box 4, The output side spur gear 42 is coupled to the output pupil shaft 2 and the first idle gear 44 is rotated in the opposite direction together with the input side spur gear 41 by the interlock spur gear 43, The second idle gear 45 is provided on the output side spur gear 42 as well as rotated in the same direction by receiving power from the first idle gear 44 via the transmission shaft 4a, The gears are axially coupled to the spur gear box 4 and the shaft is rotatably supported by the bearings B. [

2C, the power input through the support rod 130 is transmitted to the input side spur gear 41 coupled to the support rod 130, and the input side spur gear The rotational force of the input side spur gear 41 is transmitted to the associated spur gear 43 which is meshed with the input side spur gear 41 so that the associated spur gear 43 is rotated on the input side And is rotated in the direction opposite to the spur gear 41.

The rotational force of the interlocked spur gear 43 is transmitted to the first idle gear 44 engaged with the interlocked spur gear 43 so that the first idle gear 44 is engaged with the interlocked spur gear 43, So that the rotational force of the first idle gear 44 is transmitted to the second idle gear 45 connected to the first idle gear 44 via the first idle gear 44 and the second idle gear 45, The single idle gear 45 is rotated in the same direction as the first single idle gear 44 and the rotational force of the second single idle gear 45 is engaged with the second single idle gear 45, The output side spur gear 42 is rotated together with the pupil shaft 2 in a direction opposite to the second idle gear 45 so that the output side spur gear 42 rotates in a direction opposite to the supporting shaft 130, And the first stirrer section 120a and the second stirrer section 120b coupled to the pupil shaft 2 to rotate in opposite directions Which will allow.

However, in such conventional grain kneader, since the force generated when the driven sprocket installed on the support bar is rotated by the chain and the force generated when the kneading water is kneaded on the inner wall of the kneading chamber acts together, As the tube is severely twisted and deformed, it is shaken to cause instability of the dough, as well as the unbalance between the force generated when the driven sprocket is pulled and rotated by the chain and the force generated when the kneading water is kneaded on the inner wall of the kneader. And the kneading is not properly performed due to the rotational bending phenomenon, thereby causing a problem of deteriorating the performance and reliability of the device due to the inefficiency of the kneading.

SUMMARY OF THE INVENTION The present invention has been made in view of the above problems, and it is an object of the present invention to provide a kneading apparatus for a kneading machine, And the kneader barrel is fixed and supported directly to the bearing housing which rotatably supports the rotary shaft of the stirrer so that the kneader can resist the force generated when the inner wall of the kneader hits the inner wall, And a kneader for kneading the kneaded mixture without causing noise or fluctuation.

Another object of the present invention is to provide a grain kneader in which a speed reducer for dispersing a force generated when rotating a rotary shaft of a stirrer is input and output on the same axis as a drive shaft, thereby forming a planetary gear without a separate sun gear.

To achieve these and other advantages and in accordance with the purpose of the present invention, as embodied and broadly described herein, there is provided a kneader for a kneader, comprising: a kneader having a pair of first stirrers and a second stirrer, A second bearing housing including a first bearing housing for supporting one end of the support rod on one side and a pivot shaft coupled to the second pivot shaft and a reversing device mounted on the second bearing housing, The first bearing housing is supported by a support plate provided on one side of the kneader drum and the outer surface of the kneader drum is directly fixed to the first bearing housing fixed and supported by the support plate, And a driven sprocket is provided on an input shaft of the speed reducer.

Further, the speed reducer includes an input shaft having gears formed on an outer surface thereof; A planetary gear engaged with the gear of the input shaft; A hollow output shaft having bearings for supporting both ends of the input shaft and rotating together with the planetary gear; And a frame having a bearing supporting both ends of the output shaft and having an internal gear engaged with the planetary gear.

The output shaft is divided into a first body and a second body having mutually different lengths. A flange is formed on each end side of the first and second bodies facing each other, and the space between the planetary gears A spacing jaw is formed; And the second body further includes a transmission gear on an outer surface thereof.

As described above, according to the present invention, the driving sprocket that receives power from the driving motor and rotates is pulled by the chain, so that the force for rotating the driven sprocket is dispersed by the reducer directly connected to the bearing housing and is not directly transmitted to the support bar, By the fixing force of the bearing housing, it is possible to resist the force generated when the kneading water is kneaded on the inner wall of the kneader so that the kneader can be prevented from rocking while being distorted by being severely twisted at the kneading, In addition, there is no imbalance between the force generated when the driven sprocket is rotated by the chain and the force generated when the kneading water is kneaded on the inner wall of the kneading dough during kneading, so that the rotation of the support bar can be prevented Therefore, it is possible to further increase the performance and reliability of the device due to the efficiency of the dough The effect will be.

In addition, the present invention makes it possible to support both ends of a reduction gear unit having a planetary gear type input and output coaxially with the drive shaft and without a separate sun gear, thereby increasing the straightness of the shaft, There is an advantage that accuracy of power transmission and miniaturization of the apparatus can be achieved.

BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 is a schematic diagram showing a grain kneader having its original cause. FIG.
2A to 2C show the reversing device of FIG. 1,
2A is a longitudinal sectional view.
FIG. 2B is a plan sectional view. FIG.
2C is a perspective view.
3 is a schematic view showing a grain kneader according to the present invention.
4 is an enlarged cross-sectional view of a main part of the present invention.
5A to 5C show the speed reducer of FIG. 3,
5A is an exploded perspective view.
5B is an assembled state perspective view.
Figure 5c is a sectional view of the assembled state.

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

The kneader of the kneader is generally provided with a pair of first stirrer portions 120a and a second stirrer portion 120b together with a support bar 130 in the lateral direction inside the kneader barrel 100, And a second bearing housing 3 including a first bearing housing 1 for supporting one end of the support rod 130 and a pivot shaft 2 coupled to the second stirrer 120b at one side and the other side of the support shaft 130 And a reversing device V is installed in the second bearing housing 3. (See Fig. 1)

3, the first bearing housing 1 is fixed and supported by a vertical support plate 5, and is fixed to and supported by the support plate 5, The kneading cylinder 100 is directly fixed to the first bearing housing 1 so that the fixing force of the first bearing housing 1 to the kneading cylinder 100 can act. A force generated when the reduction gear 6 is directly coupled to the first bearing housing 1 and the reduction gear 6 draws the driven sprocket 157a to the chain 159 with the power of the drive motor 152 And is dispersed without being directly transferred to the support spindle 130. Here, reference numeral 10 denotes an input shaft of the speed reducer 6, and reference numeral 157a denotes a driven sprocket provided on the input shaft 10. Since the power transmission system transmitted to the driven sprocket 157a is the same as that of the grain kneader described above, a detailed description thereof will be omitted.

4, the housing body 11 is fixed to and supported by the support plate 5 outside the kneader barrel 100. The first and the second bearing housings 1 and 6 are fixed to the first and second bearing housings 1 and 6, And the flange 12 at the front end of the housing body 11 is bolted to the outer surface of the kneader bottle 100 and is directly fixed to the kneader bottle 100. The housing body 11 is supported by the inner support rod 130, Is rotatably supported by the bearing (B), and the reduction gear (6) is directly connected to the rear end portion on the same axis as the support rod (130). A driven sprocket 157a is provided on the input shaft 10 of the speed reducer 6 so that the support rod 130 receives power from the drive motor 152 and rotates by chain transmission.

As described above, according to the present invention, the driving sprocket that receives power from the driving motor and rotates is pulled by the chain, so that the force for rotating the driven sprocket is dispersed by the reducer directly connected to the bearing housing and is not directly transmitted to the support rod, By the fixing force, it is possible to resist the force generated when the kneading water is kneaded on the inner wall of the kneader, thereby preventing the kneading kneader from being rocked while being distorted and distorted, There is no imbalance between the force generated when the driven sprocket is pulled and rotated by the chain and the force generated when the kneaded dough is knocked on the inner wall of the kneader so that the rotational bending of the support rod can be prevented in advance .

On the other hand, the speed reducer 1 is a power transmission device having a decelerating function, which is disclosed in Patent No. 725623 (Jun. 6, 2007) An input shaft 10; A planetary gear (20) meshing with the periphery of the gear (11) of the input shaft (10); A hollow output shaft 30 having a bearing B for supporting both ends of the input shaft 10 and rotating together with the planetary gear 20; And a frame (40) having an internal gear (42a) with a bearing (B) for supporting both ends of the output shaft (30) and meshing with the planetary gear (20) Flanges 31a and 32a are formed at the respective end sides of the first and second bodies 31 and 32 which are separated from each other by a first body 31 and a second body 32 having different lengths A spacing jaw 31c is formed between the space portions 31b in which the planetary gears 20 are projected to the one flange 31a; The second body (32) further includes a transmission gear (32b) on its outer surface. Here, the reference numerals 41 and 42 are the first and second frames constituting the frame 40.

Thus, according to the present invention, both ends can be supported on the shaft of a speed reducer having a planetary gear type input and output coaxially with the drive shaft and without a separate sun gear, thereby increasing the straightness of the shaft, It is possible to achieve accuracy of power transmission and downsizing of the device.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is to be understood that the scope of the invention is not limited to the disclosed embodiments, but on the contrary, Is limited. It will be apparent to those skilled in the art that various changes and modifications can be made by those skilled in the art without departing from the scope of the present invention.

1: first bearing housing 2: pupil shaft
3: Second bearing housing 4: Spur gear Gearbox
5: Support plate 6: Reducer
B: bearing 10: input shaft
20: planetary gear 30: output shaft
31, 32: first and second bodies 31a, 32a: flange
31b: space portion 31c: gap holding jaw
32b: transmission gear 40: frame
41, 42: first and second frames 42a: internal gear

Claims (3)

A pair of first stirrer portions 120a and a second stirrer portion 120b are provided in the interior of the kneader barrel 100 together with the support bar 130 in the lateral direction, And a second bearing housing (1) including a first bearing housing (1) which supports one end of the support rod (130) and is supported by a support plate (5) 3), and a reversing device (V) is installed in the second bearing housing (3)
The flange 12 of the front end portion of the housing body 11 of the first bearing housing 1 is directly bolted to the outer surface of the kneading cylinder 100 and the housing body 11 is supported by the inner support rod 130 The support shaft 130 is rotatably supported by the bearing B and the reducer 6 is directly connected to the rear end portion on the same axis as the support rod 130. The support shaft 130 is driven by the chain motor from the drive motor 152, Wherein a driven sprocket (157a) for receiving and rotating the driven pulley is provided on the input shaft (10) of the speed reducer (6).

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