KR200218109Y1 - bucket open system of hamer graver - Google Patents

Abstract

The present invention relates to a bucket opening and closing structure of a hammer grabber used for digging soil inside a steel pipe pile in a bridge or foundation ground construction. The conventional bucket opening and closing structure uses a three-stage rod structure and a spring bar, resulting in a complicated structure. There are many and dynamic design solved the difficulties. To this end, the bucket opening and closing structure of the hammer grabber according to the present invention, a locking device is installed on the upper portion of the body, the lower end of the body is a crown formed so as to communicate the space therein, opening and closing in both sides of the lower side of the crown A general hammer grabber in which a possible bucket is installed, the upper side being connected to a chain (47), the slide weight (41) being fixed by the locking device; It is configured in the form of X (X), one side is hinged to the lower side of the slide weight 41 and the other side is coupled to the sliding hinge of the inner side of the crown, the other side is moved up and down as the slide weight 41 moves up and down A first rod 43 moveable to; It is configured in the form of X (X), one side is hinged to the other side of the first rod 43, the middle portion is coupled to the fixed hinge, the other side is connected to the upper portion of the bucket 53, the second rod 45 Characterized in that configured to include.

Description

Bucket open system of hamer graver}

The present invention relates to a hammer grabber used for digging soil inside a steel pipe pile in a bridge or foundation ground work. More specifically, a hammer grabber that uses a rod to open and close a bucket for simple maintenance and less trouble. It relates to a bucket opening and closing structure of.

Early hammer grabbers used wires and pulleys to open and close the bucket. Therefore, there is a problem that a trouble occurs frequently such as the wire is cut or the pulley is broken. In order to solve this problem, a hammer grabber (hereinafter referred to as a prior art) has been developed to open and close a bucket by using a rod instead of the wire and the pulley (application number: 10-1999-008390).

Figure 1 shows an example of a conventional hammer grabber is a state in which the bucket is open, Figure 2 is a bucket of the conventional hammer grabber is a closed state, Figure 3 is a part of the conventional hammer grabber of the spring bar It shows the configuration and operation.

In the conventional hammer grabber, as shown in the drawing, the upper portion of the upper body 11 is formed with a space therein, the locking device 18 is separated from the upper and lower parts in communication with the space of the body 11 is installed detachably, At the bottom of the body 11, a crown 13 formed to communicate with a space therein is spoken by bolting. Buckets 16 are installed in both lower sides of the crown 13 so as to be easily opened and closed, and spring bars 20 provided with coil springs 22 at outer periphery of the inner space of the body 11 are attached to the crane. It is installed to be lifted and lowered by the connected chain 19. In addition, the lower end of the spring bar 20, the slide portion 23 is fixedly installed, the first rod 24 so that the one end is hinged to both sides of the lower side of the slide portion 23 to cross each other. Is installed.

One end of the second rod 25 is hingedly coupled to the other end of the first rod 24 so as to cross each other, and the other end of the second rod 25 is formed inside the middle of the middle of the crown 13. The hinge is rotatably coupled to the second fixed hinge 15. In addition, one end of the third rod 26 is hinged to a predetermined stop position of the second rod 25 in the lower vertical direction, and the other end of the third rod 26 is an upper end of the bucket 16. In the hinge is coupled to the inner hinge portion 17 provided in a predetermined interval inward.

In addition, the upper end of the bucket 16 is hinged to be rotatable to the first fixed hinge 14 formed inside the lower end of the crown 13, when the spring bar 20 operates up and down, the slide 23 ) And the first to third rods 24 to 26 are configured to open and close the bucket 16. When the first to third rods 24 to 26 are folded to reduce the overall length, the bucket 16 is opened as shown in FIG. 1, and the rods 24 to 26 are extended to extend the overall length as shown in FIG. 2. The bucket 16 is to be closed.

On the other hand, a spring distribution port 21 is provided on the stop portion of the spring bar 20, the lifting and lowering in the longitudinal direction of the spring bar 20, the body 11 to the upper portion of the spring distribution port 21 A coil spring 22 for supporting the upper end of the spring distribution port 21 and the spring spring port 21 is installed, and a coil spring 22 for supporting the slide 23 and the spring distribution port 21 under the spring distribution port 21. Are installed respectively.

Referring to the operation of the conventional hammer grabber configured as described above are as follows.

In order to dig the earth and sand of the ground by dropping the hammer grabber, first, the body 11 of the hammer grabber is fixed to the locking device 18, and then the hammer grabber is raised to a desired position by a crane. At this time, when the spring 19 of the hammer grabber is lowered by releasing the chain 19, the plurality of rods 24 to 26 interlocked with the slide 23 are folded to have a smaller overall length, and both sides of the bucket 16 are folded. Will be opened. When the bucket 16 is opened as described above, the locking device 18 installed on the upper portion of the hammer grabber is released from the body 11 so that the hammer grabber falls freely to the ground.

When the hammer grabber free falls in the above, the bucket 16 is open to both sides, but due to the resistance of air or water accumulated in the pit, the bucket 16 is closed inward and the plurality of rods 24 to 26 are upward. The force to push up is generated, but the force of the coil spring 22 installed on the spring bar 20 pushes the slide portion 23 downward so that the bucket 23 is opened without closing. It falls down while keeping the ground perpendicular to the ground. When the hammer grabber falls into the ground as described above and digs the ground, the bucket 16 should be closed to dig out the soil.

In the state where the hammer grabber is dug into the ground, the spring bar 20 is lowered to the lower side and accordingly, a plurality of rods 24 to 26 spoken to the slide unit 23 are folded and thus the overall length is reduced. In this state, the chain 19 connected to the upper part of the spring bar 20 is pulled out, and the spring bar 20 rises upward to interlock the rods 24 to 26 in a vertical direction while interlocking the bucket 16 to the inside. It is closed so that the soil of the ground is embedded.

When the spring bar 20 rises, the coil spring 22 is compressed and the slide unit 23 rises upward with the spring bar 20. When the slide unit 23 is raised, the first rod 24 installed at both sides of the slide unit 23 by hinge coupling to each other is lifted together with the slide unit 23. At this time, the first rod 23 is folded to change to a state in which the length is extended vertically while rising upward in the contracted state. When the first rod 24 rises upward, the second rod 25 hinged to the other end of the first rod 24 also extends vertically like the first rod 24. At this time, since the other end of the second rod 25 is hinged at the second fixed hinge 15 of the crown 13, the other end of the second rod 25 does not rise to the upper side, but only rotates to both sides.

As described above, when the second rod 25 rotates in both sides to extend the length in the vertical direction, one end of each of the second rods 25 is hinged to the middle portion of the second rod 25, and the other end of the second rod 25 is the inner hinge portion of the bucket 16. The third rod 26 hinged to 14 is raised above a predetermined interval when the second rod 25 is vertically extended. When the third rod 26 is raised upward, the bucket 16 hinged to the other end of the third rod 26 is hinged at an upper portion of the first fixed hinge 14 formed at the lower portion of the crown 13. Since it is coupled, it is rotated at the first fixed hinge 14 to be closed upward, so that the earth and sand can be embedded in the bucket 16.

When the earth and sand are embedded in the bucket 16 as described above, the hammer grabber is pulled upwards to be coupled to the catching device 18, and then the hammer grabber is moved to the place where the earth and sand is discharged using a crane to release the chain 19. The bar 20 is lowered due to the load and the holding force of the coil spring 22, and when the spring bar 22 is lowered, the bucket 16 is opened to discharge the soil.

However, the above-described conventional hammer grabber uses rods 24 to 26 to open and close the bucket 16. However, the conventional hammer grabber is simpler and more robust than the initial hammer grabber using wires. Since the structure is complex, there is a problem in that the structure is complicated, leading to an increase in manufacturing cost. In addition, there is a problem that the optimum design is very difficult because it is difficult to clearly understand the mechanical structure when designing the rods 24 to 26.

In addition, the conventional hammer grabber has a problem that the production of the coil spring 22 is not easy and the manufacturing cost is expensive.

The load acting on the coil spring 22 is about several tons to tens of tons, but in order to withstand the load and maintain the elastic force, the characteristics of the coil spring must be very good. Therefore, it is not only difficult to manufacture the coil spring that satisfies the desired characteristics, but there is a problem in that the manufacturing cost becomes expensive.

Therefore, to solve the above problems, the present invention is to provide a bucket opening and closing structure of the hammer grabber, the rod structure is simple, so as to be robust and simple, low manufacturing cost, and easy to design.

1 is a view showing an open state of a bucket of a conventional hammer grabber.

Figure 2 is a view showing a closed state of the bucket of the conventional hammer grabber.

Figure 3 is a view showing the configuration and operation of the spring bar of the conventional hammer grabber.

Figure 4 is a front view showing the bucket open state of the hammer grabber according to an embodiment of the present invention.

Figure 5 is a side view of the hammer grabber of Figure 4;

6 is a view showing a closed state of the bucket of the hammer grabber of FIG.

<Description of the symbols for the main parts of the drawings>

41: slide weight 43: first rod

45: second rod 49: the slide hinge

51: fixed hinge 53: bucket

Bucket opening and closing structure of the hammer grabber according to the present invention, in order to achieve the above object, a locking device is installed on the upper part of the body, the lower end of the body is a crown formed to communicate with the space inside, the lower both sides of the crown A general hammer grabber in which an opening and closing bucket is installed, comprising: a slide weight having an upper side connected to a chain, the slide weight being fixed by the locking device; The first rod is configured in the form of X (X) form one side is hinged to the lower side of the slide weight and the other side is coupled to the sliding hinge of the inner side of the crown and the other side is movable up and down as the slide weight moves up and down Wow; It is configured in the form of X (X) is characterized in that one side is hinged to the other side of the first rod, the middle portion is coupled to the fixed hinge, the other side comprises a second rod connected to the upper portion of the bucket.

Hereinafter, a bucket opening and closing structure of a hammer grabber according to the present invention will be described in detail with reference to the accompanying drawings. Figure 4 is a bucket opening and closing structure of the hammer grabber according to an embodiment of the present invention, a front view of the bucket of the streamlined hammer grabber is an open state, Figure 5 is a side view of the bucket open state. 6 is a front view of the bucket in a closed state. 4 to 6 omit and briefly illustrate other parts of the hammer grabber to show the bucket opening and closing structure of the hammer grabber.

4 and 5, the overall appearance is streamlined, unlike the conventional hammer grabber shown in Figs. 1 to 3, the uppermost locking device (not shown), the crown integral with the streamlined body, and the most It consists of the lower bucket 53.

A slide weight 41 connected to the chain 47 is formed inside the body, and inside the crown, a first rod 43 connected to the bottom of the slide weight 41 in an X (X) shape; Subsequently, a second rod 45 connected in an X-shape form is formed after the first rod 43.

The slide weight 41 serves as a kind of weight to replace the slide portion and the spring bar of a conventional hammer grabber. The slide weight 41 according to the present embodiment has a rectangular parallelepiped shape and a ring is formed on the upper side thereof. The chain 47 is connected.

Next, the first rod 43 is a straight line shape, one side is connected to the lower side of the slide weight 41, the other side is hinged to the slide hinge 49 that is movable up and down. And one side of the second rod 45 is hinged to the slide hinge 49, the middle portion is hinged to the fixed hinge 51, the other side is connected to the upper portion of the bucket 53. The second rod 45 is configured to be angled with respect to the middle portion. Accordingly, the second rod 45 is rotatable around the fixed hinge 51.

The first rod 43 is configured to move one side of the second rod 45 which is subsequently connected up and down. When the slide weight 41 is directly connected to the second rod 45, sufficient force is provided. Since the first rod 43 is not transmitted to one side of the second rod 45, the first rod 43 is configured to transmit a force to the second rod 45.

In this embodiment, when the first rod 43 is connected to the slide weight 41 in an X-shaped form, the slide hinge 49 can be moved up and down without difficulty. It is also possible to directly connect the first rod 43 to the slide weight 41 without following the present embodiment as long as it can transmit a sufficient force. That is, the shape formed by the slide weight 41 and the first rod 43 may be configured to be trapezoidal or triangular.

As described above, the slide weight 41 is a portion replacing the slide part and the spring bar in the conventional hammer grabber. In this embodiment, the slide weight 41 itself is different from the conventional opening and closing of the bucket by the spring force. The bucket 53 was configured to open by weight.

When the bucket 53 is opened, the slide weight 41 is fixed to the locking device by the chain 47. In this state, when the locking device for holding the slide weight 41 is released, the slide weight 41 falls down by its own weight. Since the upper side of the slide weight 41 is connected by the chain 47, the slide weight 41 is dropped only by a predetermined length. When the slide weight 41 faces downward, the X-shaped first rod 43 connected to the lower side of the slide weight 41 is opened so that the slide hinge 49 formed inside the crown is moved downward. . When the slide hinge 49 moves downward, one side of the X-shaped second rod 45 connected to the slide hinge 49 receives downward force, and the middle portion of the second rod 45 is fixed to the hinge 51. Since the other side of the second rod (45) is forced to the outside. When the other side of the second rod 45 receives the force to the outside, the bucket 53 connected to the other side of the second rod 45 receives the same force and the bucket 53 is opened. Therefore, the buckets 53 on both sides are opened.

On the contrary, when the chain 47 is pulled up and the slide weight 41 is pulled up, the upper side of the first rod 43 connected to the lower side of the slide weight 41 is pulled upward, and thus the lower side of the first rod 43 is pulled up. The supporting slide hinge 49 is also moved up together. When the slide hinge 49 moves upward, the second rod 45 connected to one side of the slide hinge 49 also moves upward. When the second rod 45 moves upward, the middle portion of the second rod 45 is coupled to the fixed hinge 51, so that the bucket 53 connected to the other side of the second rod 45 to receive the force inwards. do. Accordingly, the buckets 53 on both sides are forced into each other so that the buckets 53 are closed. 6 shows a closed state of the bucket 53.

As described above, in the present embodiment, the bucket 53 is opened by pressing the rod by the weight of the slide weight 41. Therefore, the structure is simple in place of the complicated structure composed of the conventional spring bar and the small slide portion. In addition, in the present embodiment instead of the conventional three-stage rod, by simplifying the two-stage, there is an advantage that the structure is simple, the mechanical design is easy and the manufacturing cost is low.

As described above, the bucket opening and closing structure of the hammer grabber according to the present invention, unlike the prior art by configuring the slide weight 41 and the two-stage X-shaped rods (43, 45) to open and close the bucket 53 The opening and closing structure is very simple, there is no balance, very solid, easy maintenance and easy mechanical design. In addition, there is an advantage that the work capacity is additionally improved due to the absence of trouble, and the overall structure is very simple, so that the manufacturing cost is also low.

Claims (1)

In the upper portion of the body is provided with a locking device, the lower end of the body is a crown formed so that the space communicates with the inside, in the general hammer grabber is installed in the lower both sides of the crown openable bucket, An upper side connected to the chain 47, the slide weight 41 being fixed by the locking device; It is configured in the form of X (X), one side is hinged to the lower side of the slide weight 41 and the other side is coupled to the sliding hinge of the inner side of the crown, the other side is moved up and down as the slide weight 41 moves up and down A first rod 43 moveable to; It is configured in the form of X (X), one side is hinged to the other side of the first rod 43, the middle portion is coupled to the fixed hinge, the other side is connected to the upper portion of the bucket 53, the second rod 45 Bucket opening and closing structure of the hammer grabber configured to include.