KR101374945B1 - The tension control device of grain kneader - Google Patents

Abstract

The present invention allows the drive motor to be separated from the main body of the device so that the suspension can be installed in the interior of the main body of the device to prevent the vibration of the driving motor directly transmitted to the main body of the device, and the suspension of the drive motor is installed in the same radius The present invention relates to a tension control device for a grain kneader that allows the standardization of a chain by adjusting a chain tension between a driven sprocket of a drive motor and a driven sprocket of a drive shaft while rotating. Its configuration includes a vertical fixing plate for fixing a chuck portion rotatably supporting both ends of the drive shaft to the apparatus main body; A movable plate rotatably coupled to a hinge shaft at a lower side of the fixed plate and having a driving motor installed at a lower side thereof; It consists of; an angle adjusting unit for adjusting the rotation angle of the movable plate.

Description

The tension control device of grain kneader

The present invention relates to a tension adjusting device for a grain kneader, and more particularly, the drive motor is separated from the device body so that the suspension of the drive motor can be directly transmitted to the device body by being suspended in the device body. The tensioning device of the grain kneading machine, which is designed to standardize the chain by adjusting the chain tension between the motive sprocket of the drive motor and the driven sprocket of the drive shaft while rotating the suspended drive motor with the same radius. It is about.

In general, the kneader is to mix the water and grain powder, such as wheat flour and kneading water and grain powder by the impeller inside the kneading container, Figure 1 is a longitudinal cross-sectional view showing a conventional grain dough machine.

As shown therein, the grain kneader is usually a device main body 100 having a pair of the support (100a) on both sides of the upper, the dough container 110 provided between the support (100a), and the dough ( A drive shaft 120 having both ends supported by the support body 100a and having a plurality of impellers 120a on the outside through the 110, and a power for transmitting power of the drive motor 131 to the drive shaft 120. It is composed of a delivery device (130).

Both ends of the drive shaft 120 are rotatably supported by the support housing 100a by the bearing housing 140, and the bearing housing 140 is one side outside the kneading container 110 as shown in FIG. 2. Is fixed, the other side is fixed to the support (100a), a plurality of bearings (B) is provided therein is configured so that the drive shaft 120 is rotatably supported by the bearing (B).

The power transmission device 130 is a driving sprocket 133 that rotates by receiving power from the drive motor 131 and the reducer 132 in the output shaft 30, and the drive shaft (133) corresponding to the driving sprocket 133 ( The driven sprocket 134 is installed at one end of the 120, and the chain 135 to connect between the driven sprocket 133 and the driven sprocket 134.

In this configuration, the power transmission device 130 rotates the driven sprocket 133 by the drive motor 131 and the reducer 132, and the driven sprocket 133 pulls the chain 135 to rotate the driven sprocket 134. By the rotation of the driven sprocket 134, the driving shaft 120 together with the impeller (120a) inside the dough container 110 is to be made of dough. Here, reference numeral 100b is a pedestal for supporting the rear of the kneading container 110.

However, such a conventional grain kneader because the drive motor is directly connected to the bottom surface of the machine main body, the vibration of the drive motor is directly transmitted to the machine main body to generate a severe noise together with the vibration, thereby causing the user to use There was a problem that the deterioration of the device causes the performance and reliability of the device.

In addition, since the connection length between the drive motor and the main body of the device is not constant, each time a machine is manufactured, a chain between the driven sprocket of the drive motor and the driven sprocket of the drive shaft must be purchased and used selectively, thereby making it cumbersome and inconvenient. Of course, the inefficiency of the work, and also caused a rise in cost by installing a separate tension control device has caused a problem of lowering the price competitiveness.

Accordingly, the present invention has been made to solve the conventional problems as described above, the object is that the drive motor is separated from the device main body so that it can be installed suspended in the interior of the device main body of the drive motor The grain is designed to block the transmission of vibration and to adjust the chain tension between the driven sprocket of the drive motor and the driven sprocket of the drive shaft while the suspension-driven drive motor rotates at the same radius. It is to provide a tension control device of the kneader.

One aspect of the tension regulating device of the grain dough machine according to the present invention for achieving the object of the present invention comprises: a vertical fixing plate for fixing the axial support portion rotatably supporting both ends of the drive shaft to the machine body; A movable plate rotatably coupled to a hinge shaft at a lower side of the fixed plate and having a driving motor installed at a lower side thereof; Characterized in that consisting of; an angle adjusting unit for adjusting the rotation angle of the movable plate.

In addition, the angle adjusting portion is formed by forming at least one fixing hole in the other side fixing plate of the hinge shaft, the movable plate to form an angle adjusting hole corresponding to the fixing hole and forming an arc-shaped long hole. .

In addition, the angle adjusting unit forms a support jaw in the middle between the hinge shaft and the fixing hole of the fixed plate, and between the hinge axis of the movable plate and the angle adjustment hole adjustment bolt for pressing the support jaw of the fixed plate from below It is provided, the adjustment bolt is characterized in that configured to be supported on the movable plate by a bolt support that is installed on the movable plate.

As described above, the present invention allows the drive motor to be detached from the device main body so that the drive motor can be installed in the interior of the device main body, thereby preventing the vibration of the drive motor from being directly transmitted to the device main body. It is minimized so that the user can use it with confidence without any anxiety, and thus has the effect of further increasing the performance and reliability of the device.

In addition, the present invention allows the chain drive between the drive sprocket of the drive motor and the driven sprocket of the drive shaft while adjusting the chain tension between the drive sprocket of the drive motor and the driven sprocket of the drive shaft while rotating in the same radius as described above to produce a chain of different length every time the machine is manufactured. It is possible to standardize the chain without having to use it separately, so it is possible to secure the efficiency and speed of the work as well as the simplicity of work, and further increase the price competitiveness by reducing the cost by eliminating the need for a separate tension control device. There is also an advantage.

1 is a longitudinal sectional view showing the internal structure of a general grain dough machine.
2 is a cross-sectional view showing the bearing housing structure of FIG.
Figure 3 is a side cross-sectional view showing a power transmission device of the grain kneader to which the present invention is applied.
Figure 4 is an exploded perspective view showing the overall configuration of the present invention.
5 (a) and 5 (b) shows the use state of the present invention,
Figure 5 (a) is a front view showing a state before the tension adjustment.
Figure 5 (b) is a front view showing a tension control state.

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

The grain kneader is a device main body 100 having a pair of the support (100a) on both sides of the upper portion as usual, the dough container 110 provided between the support (100a), and the dough container 110 A drive shaft 120 penetrating laterally and supported at both ends by the support 100a and having a plurality of impellers 120a on the outside, and a power transmission device for transmitting power of the drive motor 131 to the drive shaft 120 ( 130).

Both ends of the drive shaft 120 is rotatably supported by the support housing 100a by the bearing housing 140. The bearing housing 140 has one side fixed to the outside of the kneading container 110 and the other side of the support shaft. It is fixed to (100a), a plurality of bearings (B) is provided inside the drive shaft 120 is rotatably supported by the bearing (B).

The power transmission device 130 is a driving sprocket 133 that rotates by receiving power from the drive motor 131 and the reducer 132 in the output shaft 30, and the drive shaft (133) corresponding to the driving sprocket 133 ( A driven sprocket 134 installed at one end of the 120 and a chain 135 connecting between the driven sprocket 133 and the driven sprocket 134 (see FIGS. 1 and 2).

In the grain kneader, the present invention is a drive motor 131 is suspended by the present invention as shown in Figure 3, the distance between the shaft between the drive shaft 120 and the drive motor 131 is always constant. It is characterized in that it is possible to adjust the tension of the chain 135 between the driven sprocket 133 of the drive motor 131 and the driven sprocket 134 of the drive shaft 120 in the state maintained so that, the present invention A vertical fixed plate 1 and a movable plate 2 assembled to the lower portion of the fixed plate 1 are provided.

The fixing plate 1 is fixed to the bearing housing 140, the upper surface and the left and right sides are fixed by welding or bolt fastening to the main body of the device to rotatably support both ends of the drive shaft 120, the movable plate (2) ) Forms a structure in which a vertical plane () coupled to and assembled under the fixed plate 1 and a horizontal plane () on which the driving motor 131 is installed are integrally formed.

Referring to this in more detail with reference to Figure 4, Figure 4 is an exploded perspective view showing the overall configuration of the present invention, as shown in the present invention the fixed plate 1 and the movable plate (as described above) 2) and the angle adjustment unit (3).

The fixing plate 1 has an installation hole 11 in which the bearing housing 140 penetrates in the center of the upper side in a square plate shape, and a first hinge hole 12 in the lower side of the installation hole 11. At least one fixing hole 31 constituting the angle adjusting unit 3 is formed in the upper and other side portions of the first hinge hole 12.

The movable plate 2 has a structure in which a vertical plate 22 coupled and assembled to the fixed plate 1 and a horizontal plate 21 on which a driving motor 131 is installed at the lower side are integrally formed. A second hinge hole 22a corresponding to the first hinge hole 12 of the fixed plate 1 is formed at one side of the direct plate 22 so that the movable plate 2 is fixed to the fixed plate 1 by the hinge shaft H. It is configured to be rotatably hinged to one side of the lower side.

In addition, the vertical plate 22 has an angle adjusting hole 32 corresponding to the fixing hole 31 of the fixing plate 1 is formed in the upper and the other side of the second hinge hole (22a) fixing bolt 36 By the fastening of the vertical plate 22 is configured to be fixed to the fixing plate 1, the angle adjustment hole 32 is formed in the shape of an arc-shaped long hole. In addition, the horizontal plate 21 has a motor fixing hole 21a of the long hole shape for fixing the drive motor 131 in each corner portion.

On the other hand, the angle adjuster 3 is a means for more easily adjusting the rotation angle of the movable plate (2) on which the drive motor 131 is installed, supported by the mounting hole 11 of the fixed plate (1) The jaw 33 is formed, and the adjustment bolt 34 is installed in the vertical direction on the movable plate 2 to correspond to the support jaw 33 of the fixing plate 1 to press the support jaw 33. The adjustment bolt 34 is configured to be fixed and supported by the bolt support 35 to enable the up and down spiral movement to the movable plate (2).

In the present invention configured as described above, as shown in FIG. 5 (a), the movable plate 2 is coupled to the fixed plate 1 by the hinge shaft H, and the other side fixed plate 1 of the hinge shaft H is fixed. And the movable plate 2 are mutually coupled and assembled by an angle adjusting hole 32 of the movable plate 2 and a fixing bolt 36 fastened to the fixing hole 31 of the fixing plate 1. In addition, the adjusting bolt 34 of the movable plate 2 is assembled to press the supporting jaw 33 of the fixed plate 1 from the lower side to the upper side.

In this state, first, loosen the fixing bolt 36 to loosen the engaging force of the movable plate 2 to the fixed plate (1), and then loosen the adjustment bolt 34 to move in a downward direction, the movable plate ( 2) is rotated in a clockwise direction as shown in Fig. 5 (b) around the hinge axis (H), the drive motor 131 together with the movable plate 2 rotates the chain 135 The tension is adjusted by pulling.

That is, as shown in FIG. 6, when the driving motor 131 rotates, the interaxial distance L1 between the driven sprocket 133 of the driving motor 131 and the driven sprocket 134 of the driving shaft 120 before the adjustment is made. After the adjustment, the tension of the chain 135 may be adjusted as the interaxial distance L2 between the driving sprocket 133 of the driving motor 131 and the driven sprocket 134 of the driving shaft 120 is extended. At this time, the interaxial distance h1 between the hinge shaft H and the driving sprocket 133 of the driving motor 131 before the adjustment is between the hinge shaft H and the driving sprocket 133 of the driving motor 131 after the adjustment. Since the distance between the shaft (h2) is the same, only the same length chain can be used when manufacturing the device.

As described above, the present invention allows the drive motor to be separated from the device body so that the drive motor can be installed on the inside of the device body so that vibration of the drive motor can be directly transmitted to the device body. Can be used with confidence without anxiety.

In addition, the present invention allows the chain drive between the drive sprocket of the drive motor and the driven sprocket of the drive shaft while adjusting the chain tension between the drive sprocket of the drive motor and the driven sprocket of the drive shaft while rotating in the same radius as described above to produce a chain of different length every time the machine is manufactured. It is possible to standardize the chain without having to use each separately, as well as to reduce the manufacturing cost since a separate tension adjusting device is unnecessary.

Although the tension adjusting device of the grain kneader according to the present invention has been described in detail above, this is only for describing the most preferred embodiments of the present invention, and the present invention is not limited thereto. Is determined and defined. 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: fixed plate 2: movable plate
3: angle adjuster 11: mounting hole
12: first hinge hole 21: the horizontal plate
21a: motor fixing hole 22: vertical plate
22a: 2nd hinge hole 31: fixing hole
32: angle adjusting hole 33: support jaw
34: Adjustment bolt 35: Bolt support

Claims (3)

An installation hole 11 in which a bearing housing 140 penetrates in a center of an upper side in a rectangular plate shape, and a first hinge hole 12 is formed in one lower side of the installation hole 11, and the first hinge is formed. Vertical fixing plates 1 having at least one fixing hole 31 constituting the angle adjusting part 3 at upper and other sides of the ball 12;
The vertical plate 22 coupled and assembled to the fixed plate 1 and the horizontal plate 21 on which the driving motor 131 is installed are integrally formed, and one side of the vertical plate 22 is formed. In the second hinge hole 22a corresponding to the first hinge hole 12 of the fixed plate 1 is formed, the movable plate 2 is rotated on the lower side of the fixed plate 1 by the hinge axis H. A movable plate 2 possibly hinged;
At least one fixing hole 31 is formed in the other fixing plate 1 of the hinge shaft H, and the movable plate 2 corresponds to the fixing hole 31 and forms an arc-shaped long hole. The adjustment hole 32 is formed, and the supporting jaw 33 is formed in the middle between the hinge shaft H of the fixed plate 1 and the fixing hole 31, and the hinge axis H of the movable plate 2. ) And an adjustment bolt 34 for pressing the support jaw 33 of the fixed plate 1 from the lower side between the angle adjusting hole 32 and the adjustment bolt 34 is provided on the movable plate 2. The tension adjusting device of the grain dough machine, characterized in that consisting of; an angle adjusting portion (3) to be supported by the movable plate (2) by a bolt support (35) to be installed.
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