KR101118616B1 - The auto clamp for attachable and removable to pile using construction - Google Patents

Abstract

The present invention relates to an automatic clamp for attaching and detaching piles for construction.

The pile clamp of the present invention is installed on the bottom of the auger device of the pile driver or excavator and is fixed to two springs which are pressed in linkage with the operation of the hydraulic cylinder that forms the length of the rod by the hydraulic action. Inner and outer jaw fixing holder fixed to the lower end of the second spring guide means together with the first and second spring guide means inserted into each spring while being connected to the rod in a vertical state through the secondary elastic action Each of the inner jaw and outer jaw that are bound to descend to each other at a 120-degree angle around the circumference of the cam rod and the inner circumferential surface of the lower casing is fixed to the lower end of the pin guide rod spaced apart from the lower end of the second spring guide means The inner jaw and each outer jaw are separated from each other, and conversely, when the length of the rod is shortened due to the hydraulic release of the hydraulic cylinder, the reverse order of each spring The inner and outer jaw fixing holders and the inner and outer jaws are raised together with the first and second spring guide means through the first and second spring restoring, and the inner and outer jaws are the cam rod and the lower casing. It is characterized in that it is configured to fasten and secure the upper end of the pile while retracting each other through a cam action.

Therefore, according to the present invention, compared to the conventional file clamping device, the process of tightening the file for carrying out the drawing operation by rotating and pulling up the pile embedded in the pile hole or the drilling operation by rotating the pile in the ground is very simple and Through this, the working time can be shortened. In particular, the clamp is rotated as a result of the rotation of the file driver or excavator, and the drilling and withdrawal work of the file are performed together. Withdrawal and drilling of piles can be performed at one time as a clamp without the need, thus reducing the overall air and significantly reducing the cost.

Pile, clamp, bite action, hydraulic cylinder, sequential elastic action, first and second spring guide means, pin guide rod, cam rod, cam action, inner, outer

Description

The auto clamp for attachable and removable to pile using construction}

The present invention relates to an automatic clamp for fastening or releasing a file for construction construction, and more particularly, to two springs which are interlocked with and installed in a lower part of an auger device of a file driver or excavator to operate and release a hydraulic cylinder. According to the sequential or inverse sequential elastic action, the inner and outer jaws move together with the first and second spring guide means and the inner and outer jaw fixing holders in the same direction, and come to each other through the cam action with the cam rod and the lower casing. By making the upper part of the file to be fastened, fixed, or released while being raised or unrolled, it is possible to perform a drilling operation for retracting and releasing the file on the ground by rotating and extracting the file embedded in the file hole compared to the conventional file clamp device. The fastening process of the file is very simple and the working time can be shortened. In particular, the entire clamp as a result of the rotation of the file driver or the excavator rotates and the drilling and withdrawal operations of the pile are performed together. The automatic clamp for attaching and detaching piles for construction and construction, which can carry out drawing work and drilling work at once, can significantly reduce the overall air and the required cost.

In general, when constructing reinforced concrete structures or other buildings, foundation work is carried out by embedding PHC, steel pipe piles or H-beams in the ground to strengthen the foundation of the ground. Buried construction of such piles is very important in constructing structures and buildings.

In addition, when the pile is embedded in the ground, a pile driver or excavator auger device is used. In this case, the conventional file drilling operation for embedding a pile in the ground using the pile driver or excavator auger device is primarily performed. Drilling work to form pile holes in the ground, such as installing drilling screw rods in pile drivers or augers of excavators and drilling the ground through them to drill pile holes, and then inserting piles and laying them in the ground. As the laying work for laying the file in the perforated pile is carried out separately, there is a big problem such as the increase in air, the time required for the construction of the pile, and the increase in the cost of the pile.

Then, in order to take out and remove the pile buried in the perforated pile hole, the upper end of the pile buried in the pile driver of the pile driver or excavator is temporarily welded, and the pull-up cable is pulled up using a fixed seeker or pulley. The work is made, which is also very cumbersome and inconvenient for the removal of the buried files, and the cost of the work is increased along with the work process and work time for performing the preparation work. .

Thus, in order to solve the above-mentioned problems, "steel file drawing machine (Utility Model Registration No. 0283374)" and "Ground excavation organ drive device (Patent Registration No. 0447143)" have been proposed, respectively. In the case of the conventional steel file drawing machine, it is a dedicated machine mainly used to take out H-shaped steel, and is not suitable for drawing out circular steel pipe piles other than the H-shaped steel, and despite this, the square plate press contact is attached to the end of the moving cylinder. If the outer diameter of the steel pipe pile is pressed out by using a plate, the binding force of the steel pipe pile through the moving cylinder is weakened, and the drawing work of the file is inevitably impossible.

In addition, in the case of the conventional ground excavation Oga driving device, a clamp device is installed at the bottom of the Oga driving device by applying a circular steel pipe pile, and in the case of the clamp device in the link rotation method by the operation of the clamping cylinder The movable clamp is rotated to the fixed clamp side to bury the outer circumferential surface of the steel pipe pile through the jaw, and is configured to be pulled out, but the conventional clamping device of such an operation method is operated by the link rotation method by the operation of the clamping cylinder as described above. Since the clamp is rotated to the fixed clamp side to fix only the outer diameter of the steel pipe pile through the jaw, the binding force is weak and relatively weak compared to the method of fixing both the inner and outer diameter of the steel pipe pile through the jaws. Problems such as not working smoothly There was this.

In addition, when the pile's adhesion force, i.e., the earth pressure, is greater than the jaw's binding force by the clamping cylinder operation, the buried pile cannot be pulled out and the jaw that is bound from the outer diameter of the pile slips and is no longer pulled out. There was also a problem that the work could not be progressed and stopped.

In addition, both the section steel pile extractor and the ground excavation organ driving device for drilling work to form a pile hole in the ground and a laying operation for embedding a pile in the perforated pile hole, or a withdrawal operation for drawing the buried pile to the ground It is not configured to perform the back at once, but because each device is configured for a separate task, the above-mentioned problems, that is, the time required for the construction of the pile along with the increase of air, resulting in increased cost There was also the same problem.

The present invention has been made in order to solve the above problems, the installation is fixed to the lower portion of the auger device of the pile driver or excavator to be applied to the sequential or reverse sequential elastic action of the two springs linked to the operation and release of the hydraulic cylinder In accordance with the first and second spring guide means and the inner and outer jaw fixing holder, the inner and outer jaws are lifted and lowered in the same direction, and the upper and lower portions of the pile are lifted and opened by cam action with the cam rod and the lower casing. The fastening work process of the file for carrying out the drawing work by rotating and pulling up the pile embedded in the pile hole or the drilling work by rotating the pile in the ground compared to the conventional pile clamping device is very easy. Its purpose is to enable simplicity and shorten working time.

In addition, in the case of the present invention, as described above, the entire clamp according to the rotation of the file driver or the excavator is rotated, and the drilling and withdrawal work of the file is performed together, such as the need to replace the corresponding clamp for each progress operation for the file. Another purpose is to allow the extraction and drilling of the pile as a single clamp without a single clamp, as well as to reduce the overall air and significantly reduce the cost required.

The automatic clamp for the construction file attachment and detachment of the present invention, two springs that are installed and fixed to the lower end of the pile driver or excavator auger device is pressed in linkage with the operation of the hydraulic cylinder forming the length of the rod by the hydraulic action Internally fixed to the bottom of the second spring guide means together with the first and second spring guide means interpolated to each spring while being connected in two vertical stages to the rod through sequential primary and secondary elastic action to The outer jaw fixing holder and the inner jaw and the outer jaw, which are attached thereto, are lowered so as to be fixed to the lower end of the pin guide rod installed at the lower end of the second spring guide means, respectively. Each inner jaw and each outer jaw facing each other are opened to each other, and conversely, when the length of the rod is shortened due to the hydraulic release of the hydraulic cylinder, Through the reverse sequential primary and secondary elastic restoring of each spring, both the inner and outer jaw fixing holders and the inner and outer jaws are raised together with the first and second spring guide means, and each inner jaw and each outer jaw are It is characterized in that it is configured to tighten the upper end of the pile while retracting each other through a cam action with the cam rod and the lower casing.

According to the present invention, compared to the conventional pile clamp device, while the drawing work of the pile to rotate and pull up the pile buried in the pile hole or the drilling operation for the drilling to rotate the pile in the ground is very simple and at the same time This also has an excellent effect, such as shortening the working time.

In addition, in the case of the present invention, as described above, the entire clamp according to the rotation of the file driver or the excavator is rotated, and the drilling and withdrawal work of the file is performed together, such as the need to replace the corresponding clamp for each progress operation for the file. It is possible to carry out the drawing and drilling work of the file as a clamp without a single clamp, as well as to reduce the overall air and significantly reduce the cost required.

An automatic clamp (hereinafter referred to as a pile clamp) for attaching and detaching a construction file of the present invention will be described in detail with reference to the accompanying drawings.

1 is a perspective view schematically showing a pile clamp according to the present invention, FIG. 2 is an exploded perspective view of a pile clamp according to the present invention, and FIG.

In addition, Figure 4 shows a detailed view and a flat, cross-sectional view of the guide casing, the guide plate housing and the guide plate of the first spring guide means for the pile clamp of the present invention, Figure 5 is a cam for the pile clamp of the present invention Details of the rod and the flat, cross-sectional view is shown, Figure 6 shows a detailed detailed view, flat, cross-sectional view of the inner and outer jaw fixing holder for the pile clamp of the present invention, Figure 7 is a pile clamp of the present invention It shows a detailed view and a plan view of the inner jaw and the outer jaw for.

Pile clamp (1) of the present invention, the inner and outer jaws (65a, 65b) installed and fixed to the lower end of the auger device (75) of the pile driver or excavator to operate through the hydraulic cylinder (25) of variable length by the hydraulic action ) Is a device used to fasten, fix or release the upper end of the pile (P), the two springs that are pressed in conjunction with the operation of the hydraulic cylinder (25), which extends the length of the rod 26 by the hydraulic action First and second spring guide means 30 inserted into each spring 39 and 49 while being connected in two vertical positions to the rod 26 through sequential primary and secondary elastic actions with respect to (39 and 49). In addition, the inner and outer jaw fixing holder (60a, 60b) and the inner jaw (65a) and the outer jaw (65b) that is attached to the descending pin guide spaced apart at the lower end of the second spring guide means (40) Two circumferences of the cam rod 55 fixed to the lower end of the rod 50 and the inner circumferential surface of the lower casing 70 Each inner jaw (65a) and each outer jaw (65b) facing each other at an angle of 120 degrees to each other open to each other, on the contrary, each spring when the length of the rod 26 is reduced by the hydraulic release of the hydraulic cylinder (25) The inner and outer jaw fixing holders (60a, 60b) and the inner jaw (65a) together with the first and second spring guide means (30,40) through the reverse sequential primary and secondary elastic restoring action of (39,49) At the same time as both the outer jaw (65b) is raised, each inner jaw (65a) and each outer jaw (65b) retract each other through the cam action with the cam rod 55 and the lower casing 70, pile (P) By configuring the upper end of the fastening to fasten, compared to the conventional file clamping device to perform the drilling operation to pull out by rotating the pile (P) buried in the drilled pile hole or to rotate the pile (P) in the ground Fastening work process of file (P) is very simple and the working time can be shortened through this. The entire clamp is rotated by the pile driver or the excavator, and the drilling and drilling work of the pile P is carried out together. Withdrawal and drilling of the pile (P) as a clamp can be performed at a time, thereby reducing the overall air and has a technical feature that can significantly reduce the cost required.

Detailed configuration of the pile clamp 1 of the present invention having these technical features will be described in more detail. As shown in FIGS. 1 to 3, the auger device of a pile driver or excavator is provided with a flow passage 12 therein. (75) a clamp mounting holder (10) fixed to the bottom of the installation; A hydraulic cylinder (25) installed and fixed at the lower end of the clamp mounting holder (10) in communication with the flow passage (12) and forming a length of the rod (26) according to the hydraulic action through the flow passage (12); A hollow casing 20 installed and fixed around the lower end of the clamp mounting holder 10 in a state in which the hydraulic cylinder 25 is embedded; One end of the rod 26 is fixed to be installed in the state coupled with the spring 39, while pressing the rod 26 while descending in the same direction with the length of the rod 26 in accordance with the operation of the hydraulic cylinder 25 First spring guide means (30) for guiding the spring (39) which is primarily compressed by; The rod is fixed to the lower end of the first spring guide means 30 in combination with the spring 49, and descends together with the first spring guide means 30 in accordance with the operation of the hydraulic cylinder 25. (26) second spring guide means (40) for guiding the spring (49) to be secondary compressed by pressurization; The second spring guide means 40 is fixed to the lower end of the installation and fixed in the inner, outer jaw fixed state coupled to the lower end thereof with the second spring guide means 40 descending in accordance with the operation of the hydraulic cylinder (25). A pin guide rod 50 for guiding the screw pins 47a and 47b respectively fastened to the holders 60a and 60b; A cam rod 55 installed and fixed to a lower end of the pin guide rod 50 and having a cam action with an inner jaw 65a fastened to the inner jaw fixing holder 60a; Installed and fixed at the lower end of the casing 20, the outer jaw (65b) and the cam action is fixed to the outer jaw fixing holder (60b) while the upper and lower ends are opened so that the pin guide rod 50 and the cam rod (55) is built A hollow lower casing 70 forming a portion; The inner circumferential surface of the lower casing 70 and the cam rod 55, respectively, are installed at 120 degrees apart and are sequentially or two springs 39 and 49 interlocked with each other when the hydraulic cylinder 25 is operated and released. According to the reverse sequential elastic action, the inner and outer jaws 65a and 65b move up and down in the same direction together with the first and second spring guide means 30 and 40 and the inner and outer jaw fixing holders 60a and 60b. An inner jaw 65a and an outer jaw 65b for fastening, fixing or releasing the upper end of the pile P while retracting or opening each other through a cam action with the rod 55 and the lower casing 70; It is coupled to the second spring guide means 40 through the respective screw pins (47a, 47b) in the state inserted into the pin guide rod 50, the key 61 is coupled to each other in a coupled state, the inner side on each outer peripheral surface Inner jaw fixing holder (60a) and outer jaw fixing holder (60b) formed through each of the jaw coupling holes (62a, 62b) for coupling the jaw (65a) and the outer jaw (65b) at a 120-degree angle, Consists of.

In the case of the clamp mounting holder 10 of the pile clamp 1 of the present invention configured as described above, the pile clamp 1 is coupled to the bottom of the auger device 75 of the pile driver or excavator, and the pile clamp 1 is connected to the pile clamp 1 at the same time. As a cover element for the cover, a flange portion 13 having a passage 12 therein and a screw insertion hole 14 penetrated therein is formed, and an upper auger device 75 of a pile driver or an excavator. The holder coupling part 11 for fastening to the lower end is formed in a shape of “ㅗ”, such that the holder coupling part 11 protrudes to a predetermined length. In this case, the center of the upper end of the clamp mounting holder 10, that is, the holder coupling part The supply valve 15 for supplying oil into the hydraulic cylinder 25 through the flow passage 12 is fixed to the center of the upper end of the (11), the outer peripheral surface of the holder coupling portion 11 of the pile driver or excavator Auger Unit (75) Bottom Pin for file clamp (1) to lock pin (not shown) engaging grooves 16 are formed.

In addition, in the case of the casing 20 of the pile clamp 1 of the present invention, the entire shape is formed of a hollow cylindrical body, wherein the upper and lower end surfaces of the casing 20 have clamp mounting holders 10 and lower casings ( Screw holes 21 for fixing the screws 70 are formed, respectively, and the first spring guide means 30 and the second spring guide means 40 are respectively partitioned vertically in the inner center of the casing 20. At the same time, a hollow collar bushing 22 having upper and lower locking jaw rings 23 is provided to support each spring 38 and 49.

In addition, in the case of the first spring guide means 30 of the pile clamp 1 of the present invention, as shown in FIG. 4, a threaded portion 31a is formed at the upper end, and the lower end of the pile clamp 1 is formed on the circumferential surface together with the inner locking jaw 32. Hollow guide casing 31 formed with a cutting groove 33 in a diagonal form at intervals of 90 degrees to each other; Inserted and fixed at the lower end of the guide casing 31 in the state of being caught by the locking jaw 32, a screw hole 34a is formed at the lower end, and the upper circumferential surface for closing the incision groove 33 of the guide casing 31 A hollow guide plate housing 34 in which a coupling groove 35 is formed in a cross shape while being moved at 90 degrees from the cutting groove 33; A guide plate 36 having a coupling protrusion 37 formed in a cross shape on a circumferential surface of the guide plate housing 34 so as to be inserted into and fixed to the coupling groove 35; A hollow guide shaft 38a fixedly installed through the guide casing 31 and the guide plate housing 34; The nut member 38b is fastened to the screw portion 31a formed at the upper end of the guide casing 31 and prevents the spring 39 from being inserted into the guide casing 31.

Here, when the guide casing 31 and the guide plate housing 34 are fitted, the cutting groove 33 at the bottom of the guide casing 31 and the coupling groove 35 at the top of the guide plate housing 34 are 90 ° to each other. Positioned alternately at an angle, both the cutting groove 33 and the coupling groove 35 are formed to be sealed to each other.

In addition, in the case of the second spring guide means 40 of the pile clamp 1 of the present invention, as shown in Figure 3, the upper end of the threaded portion (34a) and the screw hole (34a) of the lower end of the guide plate housing 34 ( 41a) is formed, and a hollow inner guide 41 which is screwed with a screw pin 47a fastened to the inner jaw fixing holder 60a through a pin guide rod 50 at a lower end thereof; The inner guide 41 and the lower end of the guide plate housing 34 screwed thereto are fitted to be interpolated, and a threaded portion 44a is formed at the upper end and penetrated through the pin guide 50 at the lower end to fix the outer jaw. A hollow outer guide 44 screwed with a screw pin 47b fastened to the holder 60b; It is fastened to the threaded portion (44a) formed on the upper end of the outer guide 44, it is composed of a nut member 48 to prevent the separation of the spring 49 inserted into the outer guide (44).

Here, in the case of the inner guide 41 and the outer guide 44, the hollow having the flanges 42 and 45 at the lower end of the overall shape so as to smoothly tighten the screw while widening the contact area with respect to the pin guide rod 50. It is formed of a cylindrical body, the screw inserts for screwing each of the flange portion (42,45) around the inner guide fixing holder (60a) and the outer jaw fixing holder (60b) through the pin guide rod 50 The holes 43 and 46 are formed penetrating radially at regular intervals.

In addition, in the case of the spring (39, 49) applied to the first and second spring guide means (30, 40) of the pile clamp (1) of the present invention, it is very preferable to use a leaf spring due to the simplification of the device and structural characteristics Of these, during the operation of the hydraulic cylinder 25, sequential primary and secondary elastic action to each spring (39, 49) of the first and second spring guide means (30, 40) that is pressed in conjunction with this is made The spring 39 applied to the first spring guide means 30 is smaller than the spring 49 applied to the second spring guide means 40 so that the elastic strength is smaller.

In addition, in the case of the pin guide rod 50 of the pile clamp 1 of the present invention, as shown in FIG. 3, the inner guide 41 and the outer guide 44 of the second spring guide means 40 and the screws respectively. Each of the screw pins 47a and 47b coupled to each other is inserted into the inner jaw fixing holder 60a and the outer jaw fixing holder 60b. The flange portion 52 through which the threaded pin insertion holes 53 and 54 for insertion are radially penetrated at regular intervals is formed, and a rod 51 having a screw hole 51a formed at the lower end of the flange portion 52. ) Is integrally formed and inserted into and fixed to the cam rod 55, and the overall shape is formed in a "T" shape.

In addition, in the case of the cam rod 55 of the pile clamp 1 of the present invention, as shown in Figure 5, the overall shape is formed in a conical shape, at this time, the pin guide rod 50 on the upper end of the cam rod 55 Rod insertion groove 56 is formed so that the lower end of the) is formed in the same step shape as the lower step of the pin guide rod 50, the pin guide rod (from the inner bottom surface of the rod insertion groove 56 to the end) A bolt insertion hole 57 is formed to penetrate the bolt 50 and the cam rod 55, and three inner jaws 65a are spaced apart at an angle of 120 degrees on the outer circumferential surface of the cam rod 55, respectively. The inner jaw operation cam unit 58 is formed at the same angle as possible but is inclined downward.

In addition, in the case of the inner jaw fixing holder (60a) and the outer jaw fixing holder (60b) of the pile clamp 1 of the present invention as shown in Figure 6 the pin guide rod 50 and the inner jaw fixing holder (60a) And a hollow cylindrical body for fitting between the inner jaw fixing holder 60a and the outer jaw fixing holder 60b, respectively, wherein the inner jaw fixing holder 60a and the outer jaw fixing holder 60b are formed. Each outer circumferential surface of the three inner jaw (65a) and the outer jaw (62a, 62b) for engaging the outer jaw (65b) is formed through a 120 degree angle, respectively, the inner jaw fixing holder (60a) and the outer A plurality of key coupling grooves 63a and 63b for coupling the key 61 are formed at predetermined intervals on each of the outer and inner sides of the jaw fixing holder 60b in a state where they are fitted to each other.

In addition, in the case of the inner jaw (65a) and the outer jaw (65b) of the pile clamp 1 of the present invention to the jaw coupling holes (62a, 62b) of the inner jaw fixing holder 60a and outer jaw fixing holder (60b). Two springs 39 and 49 interlocked with each other at an angle of 120 degrees around the inner circumferential surface of the lower casing 70 and the cam rod 55 in a coupled state to operate and release the hydraulic cylinder 25. The inner and outer jaws 65a and 65b move up and down in the same direction together with the first and second spring guide means 30 and 40 and the inner and outer jaw fixing holders 60a and 60b according to the sequential or reverse sequential elastic action. While the cam rod 55 and the lower casing (70) through the cam action to lift or open each other as a component of the clamping role of fastening or fixing the upper end of the pile (P), as shown in Figure 7 Inner jaw fixing holder (60) as three sets of 120 degree angles, one set corresponding to each other so that the biting effect on the pile (P) is achieved. a) and outer jaw fixing holders (60b) are coupled to the jaw coupling holes (62a, 62b), respectively, the overall shape is formed in the form of "concave", "iron" of the arc shape corresponding to each other At this time, each side of the inner jaw (65a) and the outer jaw (65b) corresponding to each other, that is, the convex circumferential surface of the inner jaw (65a) and the concave circumferential surface of the outer jaw (65b) bite teeth (66a, 66b) Is formed in a sawtooth shape, and the inclined portion 67a for being installed around the inner circumferential surface of the lower casing 70 and the cam rod 55 on the other side surfaces of the outer jaw 65b and the inner jaw 65a, respectively. 67b) are formed, respectively, the upper and lower ends of the outer jaw (65b) and the inner jaw (65a) through the elastic action of the inner jaw of the lower casing 70 and the outer jaw around the cam rod (55) Spring coupling grooves 68a and 68b are formed to respectively install and fix the inner and outer spring rings 69a and 69b in a ring shape so that the inner jaw 65a is in close contact with each other.

In addition, in the case of the lower casing 70 of the pile clamp 1 of the present invention, the upper and lower ends of the lower casing 70 are fixed to the lower end of the casing 20 to open the pin guide rod 50 and the cam rod 55. As shown in FIG. 3, the entire shape is formed of a hollow cylindrical body. At this time, the upper end of the lower casing 70 has a screw insertion hole 72 for fixing the lower casing 70 to the lower end of the casing 20. ) Is formed through a plurality of at regular intervals, the outer jaw operating cam portion made of the same inclination angle so that the other side inclined portion (67b) of the outer jaw (65b) is installed in close contact with the inner peripheral surface of the lower casing (70) 71 are formed, respectively, which are also spaced apart from each other by 120 degrees.

Hereinafter, the embodiment of the present invention will be described in detail with reference to the accompanying drawings, the operation of the pile clamp 1 according to the present invention.

8a and 8b is a state diagram showing the operation of the pile clamp according to the present invention.

First, the pile clamp 1 of the present invention is assembled to the bottom of the auger device 75 of the pile driver or excavator to pull out the pile P drilled into the ground in the assembled state as shown in FIG. 3. After the fastening of the pile clamp 1 of the present invention, the flow path inside the clamp mounting holder 10 through a supply valve 15 installed in the upper center of the holder coupling portion 11 of the components of the clamp mounting holder 10. When the oil is supplied into the hydraulic cylinder 25 via the 12, the rod 26 of the hydraulic cylinder 25 according to the oil supply is extended, as shown in FIG. The first and second spring guide means (30, 40) inserted into the two springs (39, 49), respectively, while being connected in the vertical state of the pressure is lowered, wherein the first and second spring guide means (30, 40) In the case of the same direction as the length of the rod 26 according to the operation of the hydraulic cylinder 25 While lowering to guide the upper and lower springs 39 and 49 sequentially compressed in the first and second order by pressing the rod 26, that is, the upper spring coupled to the first spring guide means 30 ( 39 has a lower elastic strength than the lower spring 49 coupled to the second spring guide means 40, and the upper spring with the lowering action of the first spring guide means 30 according to the pressure of the rod 26. 39 is primarily compressed, and the lower spring 49 is secondarily compressed along with the lowering action of the second spring guide means 40 interlocked with it.

Then, the first and second spring guide means (30, 40) while pressing the upper and lower springs (39, 49) sequentially with the length of the rod 26 according to the operation of the hydraulic cylinder 25 as described above Inner and outer jaw fixing holder (60a) coupled to the lower end of the second spring guide means 40 through the respective screw pins (47a, 47b) installed in the state falling through the pin guide rod 50 in the same direction When the pressure 60b) is pressed, each inner jaw 65a faces each other at a 120 degree angle around the circumference of the cam rod 55 fixed to the lower end of the pin guide rod 50 and the inner circumferential surface of the lower casing 70. ) And three inner jaws 65a provided with the inclined portion 67a in close contact with the inner jaw actuating cam portion 58 formed at an angle of 120 degrees around the outer jaw 65b, that is, the outer circumferential surface of the cam rod 55. ) And the inclined portion 67b is in close contact with the outer jaw acting cam portion 71 formed at an angle of 120 degrees around the inner circumferential surface of the lower casing 70. Three outer jaws 65b are lowered along each inner jaw actuating cam part 58 and the outer jaw actuating cam part 71 while being fixed to the upper and lower ends of the inner and outer jaws 65a and 65b respectively. The inner jaw 65a and the outer jaw 65b are opened to each other by the elastic action of the spring (69a, 69b).

Then, in order to draw out the pile P embedded in the ground, the pile P embedded with the pile clamp 1 in the state where the inner jaw 65a and the outer jaw 65b are opened to each other as described above. The upper end of the pile (P) between the open inner jaw (65a) and the outer jaw (65b) is positioned and then the flow path 12 inside the clamp mounting holder (10) through the supply valve (15) When the oil supplied in the hydraulic cylinder 25 is discharged to the outside, the length of the rod 26 is extended while the length of the rod 26 of the hydraulic cylinder 25 is increased as shown in FIG. 8B. First and second springs 39 and 49, which were first and second pressure-compressed by the first and second spring guide means 30 and 40 descending together, the lower spring having a larger elastic strength than the upper spring 39 With the first elastic restoring action of 49, the second spring guide means 40 is raised, The first spring guide means 30 is raised together with the secondary elastic restoring action of the upper spring 39 which is interlocked with each other. In this case, the first and second spring guide means 30 and 40 are screwed together. Since the first spring guide means 30 and the second spring guide means 40 are separated from each other when the length of the rod 26 is increased or lowered according to the length of the rod 26, the time difference is different from each other. The descent is made simultaneously without occurrence.

Then, the first and second spring guide means 30 through the reverse sequential elastic restoring action of the upper and lower springs 39 and 49 together with the shortening of the length of the rod 26 according to the oil discharge of the hydraulic cylinder 25 as described above. When the 40 rises to the original position, the inner and outer jaws coupled to the lower ends of the second spring guide means 40 through respective screw pins 47a and 47b installed while penetrating the pin guide rod 50. On the inner jaw actuating cam part 58 and the outer jaw actuating cam part 71 of the lower casing 70 of the cam rod 55 fixedly installed at the lower end of the fixing holder 60a, 60b and the pin guide rod 50. Inner and outer jaw fixing holders (60a, 60b) attached to each other in the state of facing each other, while the inner and outer jaws (65a, 65b) are also raised while the cam acts with the cam rod (55) and the housing (70) The upper end of the pile P is fastened and fixed through the bite action between the inner jaw 65a and the outer jaw 65b, and then the pile driver or the A file (P) which is embedded in the ground through a perforated rotating action of the device 75, thereby more easily drawn out to the surface.

Although the preferred embodiments of the present invention have been described for illustrative purposes, those skilled in the art will appreciate that various modifications, additions and substitutions are possible, without departing from the scope and spirit of the invention as disclosed in the accompanying claims. .

1 is a perspective view schematically showing a pile clamp for the present invention.

Figure 2 is an exploded perspective view of the pile clamp for the present invention.

Figure 3 is a cross sectional view of the pile clamp for the present invention.

Figure 4 is a detail and flat, cross-sectional view of the guide casing, the guide plate housing and the guide plate of the first spring guide means for the pile clamp of the present invention.

Figure 5 is a detail and flat, cross-sectional view of the cam rod for the pile clamp of the present invention.

Figure 6 is a detail and flat, cross-sectional view of the inner and outer jaw fixing holder for the pile clamp of the present invention.

Figure 7 is a detail and a plan view of the inner jaw and outer jaw for the pile clamp of the present invention.

8a and 8b is a state diagram showing the operation of the pile clamp according to the present invention.

Explanation of symbols on the main parts of the drawings

1. File clamp 10. Clamp mounting holder

11. Holder coupling part 12. Flow path

13, 42, 45, 52. Flange 15. Supply valve

16. Pin coupling groove 20. Casing

22. Collar Bushing 23. Hanging Jaw Ring

25. Hydraulic cylinder 26, 51. Rod

30. First spring guide means 31. Guide casing

32. Hanging jaw 33. Incision groove

34. Guide plate housing 35. Coupling groove

36. Guide plate 37. Coupling protrusion

38a. Guide Shaft 38b, 48. Nut Member

39, 49. Spring 40. Second spring guide means

41. Inner guide 44. Outer guide

47a, 47b. Thread Pin 50.Pin Guide Rod

55. Cam Rod 56. Rod Insertion Groove

58. Inner Jaw Operation Cam Part 60a. Inner Jaw Fixed Holder

60b. Outer jaw holder 61.

62a, 62b. Jaw coupling hole 63a, 63b. Key combination groove

65a. Inner jaw 65b. Outside

66a, 66b. Bite bite 67a, 67b. Slope

68a, 68b. Spring engagement grooves 69a, 69b. Inner and Outer Springs

70. Lower casing 71. Outer jaw operation cam part

75. Auger P. File

Claims (8)

The inner and outer jaws 65a and 65b which are installed and fixed at the lower end of the pile driver or excavator auger device 75 and are variable in length by hydraulic action are fastened to the upper end of the pile P. In the pile clamp (1) configured to be fixed or released, The pile clamp 1 is a sequential 1, 2 with respect to the two springs (39, 49) pressed in conjunction with the operation of the hydraulic cylinder (25) forming the length of the rod 26 by the hydraulic action The second spring guide means together with the first and second spring guide means 30 and 40 inserted into each of the springs 39 and 49 while being connected to the rod 26 in two vertical positions through the difference in elasticity. Inner and outer jaw fixing holder (60a, 60b) fixed to the bottom of the 40 and the inner jaw (65a) and the outer jaw (65b) bound thereto is lowered and spaced apart from the bottom of the second spring guide means (40) Each inner jaw (65a) and each outer jaw (65b) facing each other at a 120-degree angle around the periphery of the cam rod (55) fixed to the lower end of the pin guide rod 50 and the inner peripheral surface of the lower casing (70) Are separated from each other, on the contrary, the reverse sequence of the springs 39 and 49 when the length of the rod 26 is shortened due to the hydraulic release of the hydraulic cylinder 25 is reversed. The inner and outer jaw fixing holders (60a, 60b) and both the inner jaw (65a) and the outer jaw (65b) with the first and second spring guide means (30,40) through the first and second elastic restoring action And each inner jaw (65a) and each outer jaw (65b) is configured to fasten and fix the upper end of the pile (P) by retracting each other through the cam action with the cam rod 55 and the lower casing (70). Auto clamp for attaching and detaching files for construction. According to claim 1, wherein the pile clamp (1) is provided with a clamp mounting holder (10) fixed to the bottom of the auger device (75) of the pile driver or excavator while having a flow path (12) therein; And a hydraulic cylinder 25 fixedly installed at a lower end of the clamp mounting holder 10 so as to communicate with the flow passage 12; A hollow casing 20 installed and fixed around the lower end of the clamp mounting holder 10 in a state in which the hydraulic cylinder 25 is embedded; One end of the rod 26 is installed and fixed in two vertical positions coupled with each of the springs 39 and 49, and descends in the same direction with the extension of the length of the rod 26 according to the operation of the hydraulic cylinder 25. A first spring guide means 30 and a second spring guide means 40 for guiding each spring 39 and 49 sequentially compressed by the rod 26 in a first and second order; The second spring guide means 40 is fixed to the lower end of the installation and fixed in the inner, outer jaw fixed state coupled to the lower end thereof with the second spring guide means 40 descending in accordance with the operation of the hydraulic cylinder (25). A pin guide rod 50 for guiding the screw pins 47a and 47b respectively fastened to the holders 60a and 60b; A cam rod 55 installed and fixed to a lower end of the pin guide rod 50 and having a cam action with an inner jaw 65a fastened to the inner jaw fixing holder 60a; Installed and fixed at the lower end of the casing 20, the outer jaw (65b) and the cam action is fixed to the outer jaw fixing holder (60b) while the upper and lower ends are opened so that the pin guide rod 50 and the cam rod (55) is built A hollow lower casing 70 forming a portion; The inner circumferential surface of the lower casing 70 and the cam rod 55, respectively, are installed at 120 degrees apart and are sequentially or two springs 39 and 49 interlocked with each other when the hydraulic cylinder 25 is operated and released. According to the reverse sequential elastic action, the inner and outer jaws 65a and 65b move up and down in the same direction together with the first and second spring guide means 30 and 40 and the inner and outer jaw fixing holders 60a and 60b. An inner jaw 65a and an outer jaw 65b for fastening, fixing or releasing the upper end of the pile P while retracting or opening each other through a cam action with the rod 55 and the lower casing 70; It is coupled to the second spring guide means 40 through the respective screw pins (47a, 47b) in the state inserted into the pin guide rod 50, the key 61 is coupled to each other in a coupled state, the inner side on each outer peripheral surface Inner jaw fixing holder (60a) and outer jaw fixing holder (60b) formed through each of the jaw coupling holes (62a, 62b) for coupling the jaw (65a) and the outer jaw (65b) at a 120-degree angle, Auto clamp for attaching and detaching files for construction, characterized in that configured. According to claim 2, wherein the first spring guide means 30 and the second spring guide means 40 in the inner center of the casing 20 is divided up and down at the same time to support each spring (38, 49) , Auto clamp for construction file attachment and detachment, characterized in that the hollow collar bushing 22 is provided with a locking jaw ring (23) at the bottom. According to claim 2, The first spring guide means 30 has a threaded portion (31a) is formed at the upper end and the lower end in the form of a mutually diagonal (90 degree interval on the circumferential surface with the inner locking jaw 32) A hollow guide casing 31 in which 33 is formed; Inserted and fixed at the lower end of the guide casing 31 in the state of being caught by the locking jaw 32, a screw hole 34a is formed at the lower end, and the upper circumferential surface for closing the incision groove 33 of the guide casing 31 A hollow guide plate housing 34 in which a coupling groove 35 is formed in a cross shape while being moved at 90 degrees from the cutting groove 33; A guide plate 36 having a coupling protrusion 37 formed in a cross shape on a circumferential surface of the guide plate housing 34 so as to be inserted into and fixed to the coupling groove 35; A hollow guide shaft 38a fixedly installed through the guide casing 31 and the guide plate housing 34; It is fastened to the screw portion 31a formed on the upper end of the guide casing 31, and construction for the construction comprising a nut member 38b for preventing the separation of the spring 39 inserted into the guide casing 31 Auto clamp for file removal. According to claim 4, The second spring guide means 40 is formed at the upper end of the threaded portion (41a) for engaging with the screw hole (34a) of the lower end of the guide plate housing 34, pin guide rod 50 at the lower end A hollow inner guide 41 which is screwed with a screw pin 47a which is fastened to the inner jaw fixing holder 60a by passing through; The inner guide 41 and the lower end of the guide plate housing 34 screwed thereto are fitted to be inserted, the upper end of the threaded portion (44a) is formed through the pin guide rod 50 at the lower end of the fixed holder A hollow outer guide 44 screwed with a screw pin 47b fastened to the 60b; It is fastened to the screw portion (44a) formed on the upper end of the outer guide 44, the construction for the construction comprising a nut member 48 for preventing the separation of the spring 49 inserted into the outer guide 44 Auto clamp for file removal. The method of claim 2, wherein the cam rod 55 is formed in a conical shape, the inner circumferential surface of the inner jaw operating cam portion 58 for the inner jaw (65a) to be installed at a distance of 120 degrees each when the construction is characterized in that Auto clamp for removing and removing common files. 7. The inner jaw 65a and the outer jaw 65b correspond to each other so that a bite to the pile P is achieved as three sets of 120 degree angles, one pair corresponding to each other. It is formed in the form of a circular arc-shaped "yo", "iron (凸)", each side corresponding to each other bite teeth (66a, 66b) is formed in the form of a tooth, and the other side of the lower casing ( 70 is an automatic clamp for construction file attachment and detachment, characterized in that the inclined portion (67a, 67b) for being installed around the inner circumferential surface of the cam rod (55). The upper and lower ends of the outer jaw (65b) and the inner jaw (65a) of the outer jaw 65b and the inner circumference of the cam casing 55 and the inner circumferential surface of the lower casing 70, according to claim 2 Ring clamp inner and outer springs (69a, 69b) are installed so that the jaw (65a) is in close contact with each other, characterized in that the automatic clamp for the construction file attachment and detachment.

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