KR20080075241A - Multi shaft auger machine - Google Patents

Abstract

A multi-shaft auger machine is provided to increase the working speed at construction of an earth retaining wall by rotating many rods simultaneously, and to cut off poor construction by leaning a road toward one side. A multi-shaft auger machine comprises first and second motors(110,112) provided to the inside of a case(101), first and second speed reducers(111,113) decreasing the rotating speed of the first and second motors, a gear box(120) transferring the rotary force of the first and second speed reducers, and many stirring rods provided to the lower part of the case.

Description

Multi-axis auger device {multi shaft auger machine}

1 is a view showing a crane equipped with a multi-axis auger device according to the present invention.

2 is a front view of the multi-axis auger equipment according to the present invention.

3 is a side view of the multi-axis auger equipment according to the present invention.

4 is a cross-sectional view taken along the line 'A'-'A' of FIG.

5 is an enlarged view of the rod according to the present invention;

Figure 6 is a cross-sectional view of the gearbox shown for explaining the rotational relationship of the rod according to the present invention.

7 is a plan view showing another embodiment of the multi-axis auger equipment according to the present invention.

*** Explanation of symbols for main parts of drawing ***

100: multi-axis auger device 101: case

110: first motor 111: first reduction gear

112: second motor 113: second reduction gear

120: gearbox 130,132,134,136: rod

121a: first driving gear 121b: second driving gear

122a: first driven gear 122b: second driven gear

123a: third driven gear 123b: fourth driven gear

124a: 1st Interlocking Gear 124b: 2nd Interlocking Gear

125a: 34th interlocking gear 125b: 4th interlocking gear

The present invention relates to a multi-axis auger equipment, and more particularly to a multi-axis auger device having a plurality of rods and can be stably constructed by distributing the rotational force evenly.

Recently, in the various works such as water supply and sewerage, river renovation, subway construction and offshore ground works, pile casting and heating method of soil cement mixed with grout liquid and raw ground is widely used for soil wall construction.

However, in the auger device used in the pile casting method, a plurality of stirring blades are fixedly installed at a predetermined angle, direction, and interval at the lower part of the rod, and a bit is fixedly installed at the end of the rod so that the rod rotates by the rotational force of the motor. When the bit is dug into the ground, the grout liquid is discharged into the rod, and the stirring blade mixes the grout liquid with the soil sand generated by digging the ground to form a pile.

However, the conventional auger device consists of one rod, and the rod is rotated in one direction due to the rotational force of the motor, causing a phenomenon of pulling to one side. If there is a relatively large rock at the bottom of the ground, the grout is not properly made. There is a disadvantage in that it is not uniformly mixed with the soil and the strength of the pile is not uniform, causing poor construction.

In addition, in the case of using a single auger type auger device using only such a rod has a disadvantage in that the working time is long when forming a thick earth wall, thereby resulting in low economic efficiency.

 Therefore, to solve these problems, the object of the present invention is to rotate the plurality of rods at the same time to improve the working speed when constructing the earth wall, etc., the rod is directed to one side to block the poor construction It is to provide a multi-axis auger device.

The present invention relates to a multi-axis auger device;

First and second motors provided in a case of a predetermined size; First and second reduction gears for reducing rotational speeds of the first and second motors; The first and second drive gears to which the first and second output shafts of the first and second reducer are directly connected to each other are provided side by side on both sides of the first drive gear, and the first and second rods for stirring are axially formed. First and second driven gears integrally coupled to the first and second driven gears, which are provided side by side on both sides of the second driving gear and are engaged, but the third and fourth follower, the third and fourth rods for stirring are integrally coupled to the shaft. It consists of a gear box for transmitting a rotational force; characterized in that consisting of.

With reference to the accompanying drawings, a multi-axis auger device according to the present invention will be understood by the embodiments described in detail below.

1 is a view showing a crane equipped with a multi-axis auger device according to the invention, Figure 2 is a front view of the multi-axis auger equipment according to the invention, Figure 3 is a side view of the multi-axis auger equipment according to the invention, Figure 4 3 is a cross-sectional view taken along line 'A'-'A', FIG. 5 is an enlarged view of the rod according to the present invention, and FIG. 6 is a diagram illustrating the rotational relationship of the rod according to the present invention. 7 is a cross-sectional view of the gearbox, and FIG. 7 is a plan view showing another embodiment of the multi-axis auger equipment according to the present invention.

First, FIG. 1 illustrates a crane 1 as an example of equipment in which the multi-axis auger apparatus 100 according to the present invention may be installed. Of course, the multi-axis auger device 100 may be installed on a barge when working on the sea, and can be installed and used in various equipment.

In more detail, the crane 1, in which the multi-axis auger device 100 according to the present invention is installed, is provided with a guide rail 2 for guiding when the multi-axis auger device 100 moves up and down along the longitudinal direction. A leader 3 is provided, and a back stay 4 supporting the leader 3 to prevent it from tipping or falling down is provided.

The top of the leader 3 is provided with a fixing sheave 5 to which the wire 4 for lifting up and down the multi-axis auger device 100 is fastened. Of course, the lifting sheave 102 is provided on the upper portion of the multi-axis auger device 100 is fastened to the wire 4 is fastened to the fixing sheave 100.

Therefore, when the earth wall or the like is constructed using the multi-axis auger device 100, the weight of the multi-axis auger device 100 is lowered due to its own weight. However, when the construction is completed, the fixing sieve 5 is moved in one direction. Rotation of the wire 4 causes the lifting of the lifting sheave 102 and the lifting sheave 102 and the multi-axis auger device 100 to which the lifting sheave 102 is fixed.

Hereinafter, the multi-axis auger device 100 according to the present invention will be described in detail with reference to FIGS. 2 to 6.

First, the multi-axis auger device 100 according to the present invention is a first to reduce the rotational speed of the first and second motors 110 and 112 and the first and second motors 110 and 112 inside the case 101 of a predetermined size. And a gear box 120 which transmits the rotational force of the second reduction gears 111 and 113 and the first and second reduction gears 111 and 113, and includes a plurality of stirring first to fifth portions provided below the case 101. Four rods 130, 132, 134 and 136 are provided.

In more detail, the case 101 has a side surface at which a heat dissipation hole 105 for dissipating heat generated by the driving of the first and second motors 110 and 112 is maintained at a predetermined interval. 106 is provided. Of course, it can be usefully used also when the interior of the door 106 to repair.

On the other hand, the lifting sieve 102 is fixed to the upper portion of the case 101 is fastened with a wire (4) to the fixing sheave (5) which is fixed to the top of the leader (3) of the crane (1), On the rear side of the case 101, a guide bracket 107 is fixed to the guide rail 2 of the reader 3 to prevent the case 101 from being separated. Therefore, as the fixing sheave 5 installed on the leader 3 of the crane 1 rotates, the lifting sheave 102 and the case 101 on which the lifting sheave 102 is installed rise. .

Inside the case 101, the first and second motors 110 and 112 are installed to maintain a predetermined interval and their rotation shafts (not shown) are directed vertically downwards. The first and second motors 110 and 112 are installed. The rotating shafts of are connected to the input terminals of the first and second reducers 111 and 113, respectively, to decrease the speed at a constant rate.

Of course, the first and second motors 110 and 112 and the first and second reduction gears 111 and 113 may also use a known speed reduction motor having a motor function and a deceleration function, and all adopt the same technical principle. will be.

Gear boxes 120 are provided on the first and second output shafts 111a and 113a of the first and second reducers 111 and 113. In this case, the gearbox 120 includes first and second drive gears 121a and 121b to which the first and second output shafts 111a and 113a of the first and second reducers 111 and 113 are directly connected. First and second driven gears 122a and 122b that are provided in parallel to both sides of the first driving gear 121a and third and third parts that are provided in parallel to both sides of the second driving gear 121b and engaged. It consists of four driven gears 123a and 123b.

On the other hand, the first and second rods 130 and 132 for stirring are installed on the shafts of the first and second driven gears 122a and 122b, and the stirring is provided on the shafts of the third and fourth driven gears 123a and 123b. The third and fourth rods 134 and 136 are installed on the shaft.

On the other hand, the first driven gear 122a and the third driven gear 123a is installed while maintaining a constant interval to maintain the distance between the first driven gear 122a and the third driven gear 123a First and second interlocking gears 124a and 124b for interlocking are provided. That is, the first and second interlocking gears 124a and 124b are sequentially engaged between the first driven gear 122a and the third driven gear 123a.

In addition, the second driven gear 122b and the fourth driven gear 123b are installed while maintaining a predetermined interval to maintain the distance between the second driven gear 122b and the fourth driven gear 123b. Third and fourth interlocking gears 125a and 125b for interlocking are provided. That is, the third and fourth interlocking gears 125a and 125b are sequentially engaged between the second driven gear 122b and the fourth driven gear 123b.

Therefore, when the first motor 110 rotates forward and the second motor 112 rotates reversely, the first drive gear 121a directly connected to the first output shaft 111a of the first reducer 111 rotates forwardly. The first and second driven gears 122a and 122b on both sides reversely rotate, and the second driving gear 121b directly connected to the second output shaft 113a of the second reducer 113 reversely rotates on both sides thereof. The third and fourth driven gears 123a and 123b rotate forward. At this time, the first interlocking gear 124a provided between the first driven gear 122a and the third driven gear 134 rotates forward and the second linked gear 124b rotates backward, and the second driven The third interlocking gear 125a provided between the gear 122b and the fourth driven gear 123b rotates forward and the fourth interlocking gear 125b rotates reversely, indicating that all the gears are organically interlocked. The rotation speed can also be kept constant.

Meanwhile, first to fourth rods 130, 132, 134 and 136 are provided on the axes of the first to fourth driven gears 122a, 122b, 123a and 123b. The first to fourth rods 130, 132, 134, and 136 have grout liquid flowing through the upper inlet 150 of the first to fourth rods 130, 132, 134, and 136, respectively, on which the hollow portions 160a are formed. The lower ends of the rods 130, 132, 134, and 136 are raised.

At this time, the first to fourth rods (130, 132, 134, 136) has a plurality of stirring blades 160 are arranged at a lower portion to maintain a constant interval, and the bottom is provided with a bit 172 to expand the diameter to excavate the ground . Therefore, when the first to fourth rods 130, 132, 134 and 136 are rotated due to the driving of the first and second motors 110 and 112, the bit 170 excavates the ground and discharges of the soil and the bit 170 generated at this time. The grout liquid discharged through 172 is mixed by the stirring blade 160 to form an earth wall or the like. Of course, the tip of the bit 170 is provided with a tip made of a plurality of cemented carbide to reduce the wear.

Meanwhile, the first and fourth rods 130 and 136 are formed long and the second and third rods 132 and 134 are formed short, so that the stirring blades and the bits of the first to fourth rods 130, 132, 134 and 136 are shifted from each other. It is possible to form a thick earth wall by arranging the steps so that the diameters of the stirring blades and the bits overlap each other.

Hereinafter, an operation process of the multi-axis auger device according to the present invention will be described in detail with reference to FIGS. 1 to 6.

After moving the crane (1) to the workplace and the leader (3) in the vertical direction to reinforce the backstay (4) to work to form the earth wall.

That is, when the first and second motors 110 and 112 are driven, the rotation speeds of the first and second motors 110 and 112 are decelerated by the first and second reduction gears 111 and 113 and transmitted to the gear box 120 so as to transmit the first and second motors 110 and 112. To fourth rods 130, 132, 134 and 136 rotate. At this time, the first motor 110 is rotated forward and the second motor 112 is rotated in reverse, so that the first and second rods (130, 132) are reversed, and the third and fourth rods (134, 136) are rotated Will be conveyed.

As the first to fourth rods 130, 132, 134, and 136 rotate as described above, the ground is excavated while the stirring blades and the bits overlap, and the soil and grout are mixed evenly.

On the other hand, as the first and second rods 130 and 132 are reversely rotated and the third and fourth rods 134 and 136 are rotated forward, the first to fourth rods 130, 132, 134 and 136 are prevented from being leaned to one side. It will act to prevent.

In addition, Figure 7 is a view showing another embodiment of the present invention is provided with two multi-axis auger device (100, 100 ') inside the cage 200 of a predetermined size and the crane (1) on the rear side of the cage 200 It is made by installing a guide bracket 107 guided by the guide rail of. By such a configuration, four motors are used to drive the eight rods, thereby increasing the working speed twice.

As described above, embodiments of the present invention have been described in detail, but the scope of the present invention is not limited thereto, and the scope of the present invention extends to the range substantially equivalent to the embodiments of the present invention.

As described above, the multi-axis auger device according to the present invention can construct a plurality of underground continuous walls at the same time by using a plurality of rods having stirring blades and bits to improve the working speed when constructing earth walls, and the like. As the plurality of rods are interlocked with each other, there is an advantage in that the construction of the rods can be prevented from being pulled to one side while the rods are rotated.

In addition, since such a plurality of rods overlap each other, it also has the advantage of securing economic and reliable index.

Claims (3)

First and second motors 110 and 112 provided inside the case 101 of a predetermined size; First and second reduction gears (111, 113) for reducing the rotational speeds of the first and second motors (110, 112); First and second driving gears 121a and 121b to which the first and second output shafts 111a and 113a of the first and second reduction gears 111 and 113 are directly connected, and both side portions of the first driving gear 121a. The first and second driven gears (122a, 122b) and the second driving gears (121b) and the second driving gears (121b) are provided in parallel with each other and are engaged with each other, but the first and second rods (130,132) are integrally coupled to the shaft. The gear box 120 which is provided side by side and is engaged with the third and fourth driven gears 123a and 123b which are integrally coupled to the shaft with the third and fourth rods 134 and 136 for agitation; Multi-axis auger device characterized. The method of claim 1, First and second interlocking gears 124a and 124b are further provided between the first driven gear 122a and the third driven gear 123a and are continuously engaged with each other. A multi-axis auger is further provided between the second driven gear 122b and the fourth driven gear 123b, wherein the third and fourth interlocking gears 125a and 125b are continuously engaged while maintaining a predetermined interval. Device. The method of claim 1, Each of the first to fourth rods 130, 132, 134, and 136 has a hollow shape, and a plurality of stirring blades 160 are provided at a lower side thereof, and an outlet 172 is formed at the lower end thereof to excavate the ground and discharge the grout liquid. Bit 170 is provided, and the upper end of the first to fourth rods (130, 132, 134, 136) is in communication with the outlet 172 of the bit 70 through the first to fourth rods (130, 132, 134, 136) and grout liquid is introduced Multi-axis auger device characterized in that the inlet 150 is provided.

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