KR100877422B1 - plastic board drain supply control apparatus of soft ground imprivement machine - Google Patents

Abstract

The present invention relates to a drain material supply controller of a soft ground improvement construction equipment for supplying the drain material in the state in which the tension is maintained in the hollow of the drain casing is lowered along the longitudinal direction of the leader from the supply reel, the drain material is wound, The first switch is configured to allow and block the transfer of the drain material to the transfer path depending on whether or not an external force greater than the traction force set in the direction of the transfer path leading into the hollow of the drain casing is applied to the drain material. At least one freely installed freely lifting and lowering so as to apply a lowering force due to its own weight from above to below along the topping portion and the guide member provided on the conveying path from the first stopper to the drain casing. A tension holding part having a lifting roller to maintain the tension of the drain material; It is installed on the conveying path from the tension holding part to the drain casing, so that the drain material is blocked when the drain casing reaches the set target height, and the drain material is allowed to be allowed when the drain casing falls below the target height. A second stopping part is provided. According to the drain material supply controller of the soft ground improvement construction equipment, it is possible to maintain the tension of the drain material during the construction of the drain material and to suppress the retreat of the drain material when cutting the drain material for subsequent work, thereby improving the construction efficiency. Can be.

Description

Plastic board drain supply control apparatus of soft ground imprivement machine

1 is a side view showing a construction equipment for improving the soft ground applied drain material supply controller according to the present invention,

FIG. 2 is a view illustrating an element disposed along a drain material conveying path of the drain material supply controller of FIG. 1;

Figure 3 is a perspective view showing the lifting structure of the free up and down rollers on the guide member of the tension holding portion of Figure 2,

4 is a view illustrating some elements of the first and second stopping portions of FIG. 2.

<Description of Symbols for Main Parts of Drawings>

110: tracked vehicle 120: main body

131: boom 135: the first vertical adjustment cylinder

139: second vertical control cylinder 145: track track

151: first motor 152: second motor

210: leader 230: drain casing

300: drain material supply controller 320: drenin material

330: supply reel 340: first stopper

350: tension holding part 360: second stopping part

The present invention relates to a drain material supply controller of a construction equipment for soft ground improvement, in detail, it is possible to maintain the tension of the drain material during construction of the drain material into the soft ground and to suppress the retreat of the drain material during cutting. It relates to a drain material supply controller of the construction equipment for improving the soft ground.

In general, a vertical drain method and a sand compaction method are widely used as methods for improving soft ground such as wetlands and mudflats.

The vertical drain method inserts a band-shaped plastic board drain (hereinafter referred to as a drain material) wrapped with a plastic core with synthetic fabric fibers into a drain casing which is lifted up and down by a leader, and then binds to an anchor plate, and then drain casing. After a certain depth is entered into the soft ground, only the drain casing is raised to embed the drain material together with the anchor plate in the soft ground. Through the drain material constructed in this way, it sucks moisture in the soft ground and compacts the soft ground.

In such a vertical drain method, a major factor that determines the construction quality is determined by how efficiently the tension of the drain material is maintained in the drawing process of the drain casing. When the tension of the drain material decreases and the drooping phenomenon occurs, the inner wall of the drain casing and the drain material generate mutual interference and friction in the rising process of the drain casing, and the drain material follows (fancy) phenomenon. It may not be buried, or alternatively, a problem arises in that the drain material is cut in the drain casing, causing the sub-holes.

In order to improve this problem, in recent years, the operator pulls the drain material to adjust the tension, but in this case, since the construction quality is determined according to the skill of the operator, it is difficult to secure the reproducibility of the process and additional labor is required for the labor cost. There is a disadvantage that the weight is increased, the construction period is long.

In order to improve this problem, Korean Patent No. 0622529 discloses a tension control device for maintaining the tension of the drain material by the lifting and lowering of the tension roller. However, the tension adjusting device is a drain material because the drain material is retracted into the drain casing by the lowering of the tension roller or the load of the drain material itself when the drain material is cut at the lower end of the drain casing for the next operation after the drain casing is fully raised. There is an inconvenience in that cutting and anchor plate binding work should be carried out while holding the drain material against tension so as not to retreat.

In addition, if the drain material is missed due to the carelessness of the operator and the drain material enters the drain casing, there is a problem that the work for drawing the drain material out of the drain casing again is very cumbersome.

The present invention has been made to improve the above problems, the soft ground to maintain the tension of the drain material during the construction of the drain material and to suppress the retreat of the drain material when cutting the drain material for subsequent work It is an object of the present invention to provide a drain material supply controller of an improved construction equipment.

In order to achieve the above object, the drain material supply controller of the construction equipment for soft ground improvement according to the present invention has tension of the drain material in the hollow of the drain casing which is lowered along the longitudinal direction of the leader from the supply reel in which the drain material is wound. In the drain material supply controller of the soft ground improvement construction equipment for supplying in a maintained state, an external force equal to or greater than a traction force set in a direction of a conveying path leading the drain material withdrawn from the supply reel into the hollow of the drain casing is applied to the drain material. A first stopping portion configured to allow and block the transfer of the drain material to the transfer path depending on whether or not it is applied; At least one free lift installed freely to lift and lower the drain material from above to downward along a guide member provided on a transfer path from the first stopper to the drain casing. A tension holding part including a lowering roller to maintain the tension of the drain material; It is installed on the conveyance path from the tension holding portion into the drain casing, and the transfer of the drain material is interrupted when the drain casing reaches the set target height, and when the drain casing falls below the target height, And a second stopper part adapted to permit the transfer.

Preferably, the first stopping part is installed in a space between the first and second transfer guide rollers spaced apart from each other to guide the transfer of the drain material drawn out from the supply reel. A first pressurizing unit having a first pressurizing roller installed to be in close contact with and separated from the conveying guide roller and a first support body rotatably supporting the first pressurizing roller; And a first elastic member for elastically biasing the first support body in a direction in which the first pressing roller is in close contact with the first and second conveying guide rollers, wherein the second stopping part is passed through the tension holding part. A second pressurization installed in a separation space between the third and fourth transfer guide rollers spaced apart from each other to guide the transfer of the drain material and installed to be in close contact with and separated from the third and fourth transfer guide rollers; A second pressurizing unit having a roller and a second support for rotatably supporting the second pressurizing roller; A second elastic member for elastically biasing the second support body in a direction in which the second press roller is separated from the third and fourth feed guide rollers; And an interference part interfering with the second support body such that the second pressing roller comes into close contact with the third and fourth feed guide rollers when the drain casing reaches the target height.

More preferably, when the traction force is set along the conveyance path of the drain material, the first elastic member has the first and second conveyance guide rollers. It is formed to be separated from the.

In addition, the guide member is formed in the guide member of the tension holding portion formed in the vertical direction, the free lifting roller is installed to be elevated along the long hole.

Hereinafter, with reference to the accompanying drawings will be described in more detail the drain material supply controller of the construction equipment for soft ground improvement according to an embodiment of the present invention.

1 is a side view showing the construction equipment for the soft ground improvement applied drain control controller according to the present invention.

Referring to the drawings, the drain material construction equipment 100 includes a crawler vehicle 110, a reader 210, a drain casing 230 and a drain material supply controller 300.

The leader 210 is supported by the boom 131, the first and second vertical adjustment cylinders 135 and 139 in front of the crawler vehicle 110 and is installed vertically.

The drain casing 230 is raised and lowered in the longitudinal direction of the leader 210 and the drain material 320 is inserted therein.

The driving unit 240 has been applied so that the reader 210 coupled with the wire can be lifted up and down by controlling the rotation direction of the driving source for rotating the wire wound drum.

The crawler vehicle 110 includes a main body 120, a boom 131, a support frame 142, a tracked track 145, a width adjusting cylinder 147, a boom lifting cylinder 133, and a first vertical degree adjustment. The cylinder 135 and the first and second motors 151 and 152 are provided.

The main body 120 is provided with a cab 122, and a counter weight 126 is provided at the rear to move back and forth along the guide rail 124.

The counter weight 126 is applied to use when moving the center of gravity of the body 120 to the rear. Reference numeral 128 denotes a cylinder for advancing and adjusting the counterweight 126.

The support frame 142 is installed to be advanced in a direction in which the width thereof is extended with respect to the base frame 123 provided at the center bottom of the main body 120.

The first drive sprocket 153 is installed in front of the support frame 142, and the second drive sprocket 154 is installed in the rear.

The first driving sprocket is driven by the first motor 151, and the second driving sprocket is driven by the second motor 152.

Accordingly, the first and second driving sprockets 153 and 154 are driven by the two motors 151 and 152 to sufficiently secure the driving force due to the widening of the crawler track 145.

The crawler track 145 is rotatably mounted to the support frame 142. The tracked track 145 may be applied to a plurality of both sides according to the width to be applied, of course. In this case, the support frames 145 are formed to be connected in parallel to each other by a detachable joint so that each crawler track 145 can be interlocked and rotated by the first and second motors 151 and 152. It is desirable to be. In addition, drive sprockets 153 and 154 are provided on the support frame 142 provided corresponding to each caterpillar track 145, and the rotary shafts 153a and 154a of the drive sprockets 153 and 154 are interconnected. It can be built to be shared by.

In addition, the rotation shafts 153a and 154a of the support frame 142 and the drive sprockets 153 and 154 may reduce the width of the equipment when traveling on the road or when mounted on a transport vehicle when the equipment 110 is not in use. Applying a detachable coupling structure to detach a portion of the track track 145 and the support frame 142 and the rotating shaft (153a, 154a) corresponding to the outer side of the plurality of track track 145 It is preferable.

The width adjusting cylinder 147 is installed to move the support frame 142 in the width direction of the tracked track 145 with respect to the base frame 123 provided at the center bottom of the main body 120.

The main body 120 of this structure can drive the tracked track 145 by the first and second motors 151 and 152, so that the tracked track 145 can be widened and the ground pressure with the ground accordingly. Can be reduced.

One end of the boom 131 is rotatably installed in front of the main body 120, and the other end of the boom 131 is rotatably coupled to the bracket 222 installed on the leader 210.

The shape of the boom 131 is a structure having a first portion extending from the main body 120 by a predetermined length, and a second portion bent from the first portion and coupled to the bracket 222.

The boom lowering cylinder 133 has one end coupled to the main body 120 so as to raise and lower the boom 131 in the vertical direction, and the other end is coupled to the boom 131.

The first vertical degree adjustment cylinder 135 has a first coupling hole 213 at a predetermined height above the bracket 222 at the rear of the main body 120 opposite the boom 131 with respect to the center of the main body 120. It is coupled with the leader 210 through.

Reference numeral 138 denotes a support guide member extending vertically from the rear of the main body 120 at a predetermined height to rotatably support one end of the first vertical degree adjustment cylinder 135.

The support reinforcing cylinder 137 is rotatably coupled to one end on the support guide member 138, and the other end is coupled to the vicinity of the boundary between the first and second portions of the boom 131 to support the bearing force of the boom 131. Reinforce.

One end of the second vertical adjustment cylinder 139 is coupled to the second portion of the boom 131, and the other end of the second vertical adjustment cylinder 139 is provided at the leader between the bracket 222 and the first coupling hole 213. 215 is coupled through to reinforce the support for the leader 210.

On the other hand, although not shown, an auxiliary coupler is formed on the leader 210 between the first coupler 213 and the second coupler 215, and can be supported through the auxiliary coupler from the boom 131. Of course, the auxiliary cylinder can be further installed.

In this structure, both ends of the boom 131 and the first and second vertical adjustment cylinders 135 and 139 may be tilted within a predetermined angle range with the coupling target portion of the main body 120 and the leader 210. Combined.

Drain material supply controller 300 will be described with reference to FIG.

The drain material supply controller 300 includes a supply reel 330, a first stopper 340, a tension retainer 350, and a second stopper 360. The first stopper 340, the tension maintaining part 350, and the second stopper 360 are installed in the leader 210.

The supply reel 330 may be formed to have a structure in which the drain material 320 can be wound around and the drain material can be drawn out by rotation by a traction force.

The frame of the supply reel 330 may be a structure that can be supported on the ground, or a structure that can be coupled to the leader 210 may be applied.

The first stopper 340 has an external force equal to or greater than a traction force set in a direction of a transfer path leading from the supply reel 330 to the drain material 320 drawn into the hollow 232 of the drain casing 230. If not applied, the transfer of the drain material 320 can be interrupted.

The first stopper 340 includes a first pressure unit 342 and a first spring 346.

The first pressing unit 342 is rotatably installed on the basis of the first pressing roller 343 and the hinge 345, and at one end thereof to rotatably support the first pressing roller 343, and the other end of the first pressing roller 343. And a first support 344 coupled to 346.

The first press rollers 343 are first and second transfer guide rollers 311 which are spaced apart from each other to guide the transfer of the drain material 320 drawn out from the supply reel 330 by the rotation of the first support 344. In and out of the space between the (312) is installed to be accessible.

The first spring 346 is applied as the first elastic member, and the first support body 3 can elastically bias the first pressing roller 343 in a direction in which the first pressing roller 343 is in close contact with the first and second transfer guide rollers 311 and 312. 344 is coupled.

The tension maintaining part 350 is provided on the transfer path of the drain material 320 between the first stopper 340 and the second stopper 360 and will be described with reference to FIG. 3.

The tension holding part 350 includes a guide member 351 and a plurality of free lifting rollers 356.

The guide member 351 is formed with a plurality of long holes 351a spaced apart from each other in the vertical direction.

The free lifting roller 356 is installed to be freely moved up and down along the long hole 351a of the guide member 351.

In the illustrated example, only one guide member 351 is shown to guide the lifting of the free lifting roller 356 through the long hole 351a in order to avoid the complexity of the drawing. It is preferable that a guide member having a long hole is further provided to support the other end of the 356 so that the other end can be lifted.

Reference numeral 357 is a transfer guide roller which is installed on the guide member 351 but arranged between the free lifting rollers 356 so as to rotate in place.

The number of applications of the free lifting roller 356 applied to the tension holding unit 350, the number of corresponding long holes 351a, and the length of the long holes are from the bottom of the drain casing 230 of the drain material 320 after construction. In consideration of the cutting length and the like, it is sufficient to apply an expansion of a sufficient conveyance path such that induction of the deflection of the drain material 320 does not occur.

The drain material 320 may be installed to be transported through the lower portion of the free lifting roller 356 on the upper surface of the transfer guide roller 357.

Therefore, the free raising and lowering roller 356 applies the lowering force by the weight to the drain material 320 positioned below the long hole 351a of the guide member 351 according to the degree of the traction force of the drain material 320. The tension can be maintained by varying the transport path length of the drain material 320 leading from the first stopper 340 of the drain material 320 to the drain casing 230 by being lowered along.

The second stopping part 360 is provided on a transfer path from the tension maintaining part 350 into the drain casing 230.

The second stopper 360 blocks the transfer of the drain material 320 when the drain casing 230 reaches the set target height, and drain material 320 when the drain casing 230 falls below the target height. ) Is allowed to transfer.

The second stopper 360 includes a second pressing unit 362, a second spring 366, and an interference piece 368.

The second pressurizing unit 362 is rotatably installed on the basis of the second pressuring roller 363 and the hinge 365, and at one end thereof to rotatably support the second pressuring roller 363, and the other end of the second pressing roller 363. And a second support 364 to which 366 is coupled.

The second press rollers 363 may be arranged to be spaced apart from each other so as to guide the transfer of the drain material 320 into the drain casing 230 by rotation about the hinge 365 of the second support 364. 4 It is installed in the separation space between the transfer guide rollers 313 and 314 to be accessible.

The second spring 366 is applied as a second elastic member, and the second support body allows the second pressing roller 363 to elastically bias in a direction separate from the third and fourth transfer guide rollers 313 and 314. (364).

The interference piece 368 is applied as an interference part, and when the drain casing 230 reaches the target height, the second pressing roller 363 comes into close contact with the third and fourth transfer guide rollers 313 and 314. Protruding from the drain casing 230 so as to interfere with (364).

Unlike the illustrated example, a structure in which a non-contact sensor (not shown) for detecting whether the drain casing reaches the target height in the vertical direction may be installed and the second support 364 may be operated according to the detection signal of the sensor. Of course.

On the other hand, the first to fourth feed guide rollers (311 to 314) is preferably constructed to be retracted when the pressure is greater than the set pressing pressure when the pressure rollers (343, 363), an example thereof is shown in FIG. It is.

Referring to FIG. 4, the transfer guide rollers 311 to 314 are rotatably mounted to the movable housing 316 installed to be supported by the third spring 319 installed in the accommodation space of the fixed housing 317 having the accommodation space. It is.

Therefore, when the pressing force in close contact with the pressure guide rollers 343 and 363 to the transfer guide rollers 311 to 314 rises to an extent that may cause damage to the drain material 320, the transfer housing 316 is retracted to drain the drain material. Damage to the 320 and the rollers 311 to 314 can be suppressed.

On the other hand, when the traction force of the drain material 320 is applied along the transport path of the drain material 320 higher than the free lifting roller 356 to the drain material 320 as a whole, the first pressing roller 343 The elastic force of the first spring 346 is preferably applied so that the first and second transfer guide rollers 311 and 312 can be separated from each other.

Hereinafter, the operation by the drain material supply controller 300 will be described.

First, as shown in FIG. 2, when the drain casing 230 reaches the target position, the end of the drain material 320 is bound to the anchor plate 380 exposed to the lower portion of the drain casing 230. Lowering the casing 230 releases the interference between the interference piece 368 and the second support 364 and separates the second pressing roller 363 from the third and fourth feed guide rollers 313 and 314. When the free lifting roller 356 descends by releasing the traction force, the drain material 320 also descends together, and the end of the drain casing 230 falling in this process reaches and closes to the anchor plate 380. The free raising and lowering roller 356 ascends to the upper end position of the long hole 351a by the pulling force by the lowering of the drain casing 230 is freely rotated. In addition, while the first pressing roller 343 is separated from the first and second transfer guide rollers 311 and 312 by the lifting force of the drain material 320, the drain material is conveyed while being released from the supply reel 330. Thereafter, when the drain casing 230 reaches the target depth of the soft ground, the drain casing 230 is raised. When the drain casing 230 is raised, while the anchor plate 380 remains inserted into the ground, the drain material 320 is released while the descending force of the drain casing 230 through the anchor plate 380 is released. It stops.

When the bottom of the drain casing 230 is raised to be exposed to the ground and reaches the target height, the interference piece 368 interferes with the second support 364 so that the second pressing roller 363 is the third and fourth guide rollers. It is in close contact with the (313) (314).

In this state, after cutting the exposed dray material 320 at a lower distance from the lower end of the drain casing 230 by using a cutter for the next operation, the anchor plate 380 is terminated at the end of the drain material 320. Combine through. Even after the cutting of the drain material 320, the second press roller 363 is closely pressed to the third and fourth transfer guide rollers 313 and 314 so that the rise of the drain material 320 It does not occur.

Thereafter, the reader 210 may be moved to the next work position, and then the drain casing may be lowered.

According to the drain material supply controller of the soft ground improvement construction equipment according to the present invention as described above, while maintaining the tension of the drain material during the construction of the drain material, the retreat of the drain material during cutting of the drain material for subsequent work Can be suppressed and construction efficiency can be improved.

Claims (4)

In the drain material supply controller of the soft ground improvement construction equipment for supplying the said drain material in the state in which the tension was maintained in the hollow of the drain casing which descends along the longitudinal direction of the leader from the supply reel which the drain material wound up, The drain material withdrawn from the supply reel may allow and block the transfer of the drain material to the conveying path depending on whether or not an external force greater than a traction force set in the conveying path direction leading into the hollow of the drain casing is applied to the drain material. A first stopping portion made to be able to; At least one free lift installed freely to lift and lower the drain material from above to downward along a guide member provided on a transfer path from the first stopper to the drain casing. A tension holding part including a lowering roller to maintain the tension of the drain material; It is installed on the conveyance path from the tension holding portion into the drain casing, and the transfer of the drain material is interrupted when the drain casing reaches the set target height, and when the drain casing falls below the target height, And a second stopper part adapted to permit the transfer. The drain material supply controller of the soft ground improvement construction equipment comprising the; The method of claim 1, wherein the first stopping portion It is installed in a space between the first and second feed guide rollers spaced apart from each other to guide the transfer of the drain material drawn out from the supply reel to be in close contact with and separated from the first and second feed guide rollers. A first pressurizing unit having a first pressurizing roller so as to be rotatably installed and a first support for rotatably supporting the first pressurizing roller; And a first elastic member for elastically biasing the first support body in a direction in which the first pressing roller is in close contact with the first and second feed guide rollers. The second stopping portion Installed in and out of the space between the third and fourth feed guide rollers spaced apart from each other to guide the transfer of the drain material proceeds through the tension holding unit is in close contact with and separated from the third and fourth feed guide roller A second pressurizing unit having a second pressurizing roller rotatably installed and a second support body rotatably supporting the second pressurizing roller; A second elastic member for elastically biasing the second support body in a direction in which the second press roller is separated from the third and fourth feed guide rollers; And an interference part interfering with the second support such that the second press roller is in close contact with the third and fourth feed guide rollers when the drain casing reaches the target height. Drain material supply controller. 3. The first pressurizing roller according to claim 2, wherein the first elastic member is moved by the first pressurizing roller when the pulling force set higher than the lowering force of the entire free raising and lowering roller is applied along the conveying path of the drain material. Drain material supply controller of the soft ground construction apparatus characterized in that it is formed to be separated from the guide roller. According to claim 3, wherein the guide member formed in the up and down direction is formed in the guide member of the tension holding portion, the free ground lifting construction equipment characterized in that the free lifting roller is installed to be moved up and down along the long hole Drain material supply controller.

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