KR200438749Y1 - drilling unit - Google Patents

Abstract

The present invention relates to a perforation device that enables the replacement of the bridge device and the repair and reinforcement of the structure, which could not be constructed due to the limited space.

In order to achieve the above object, the drilling machine of the present invention comprises a hydraulic drilling device composed of a hydraulic motor operated by receiving hydraulic pressure from a hydraulic supply source of a hydraulic pump;

Pneumatic drilling device consisting of a pneumatic motor that is operated by receiving the air pressure from the air compressor;

A power transmission cable punching device for receiving the rotational force through the cable in the motor and transmitting the rotational force to the gear drilling box through the connecting rod;

It is characterized in that the gear punch box mill factory operates by switching the direction of rotation through the gear receives the rotation force through the connecting rod from the motor.

Bridge device, drilling machine, hydraulic pressure, air pressure, narrow space

Description

Drilling unit

1 is a perspective view showing a cloth mill using hydraulic pressure according to the present invention

Figure 2 is a perspective view showing a cloth mill using air pressure according to the present invention

Figure 3 is a perspective view showing a fabric mill using a cable power transmission device according to the present invention

Figure 4 is a perspective view showing a gear drilling box mill factory according to the present invention

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

100: upper structure 105: lower structure

110: hydraulic pump 120: hydraulic hose

130: hydraulic motor 150: drill bit

210: air compressor 220: air hose

230: pneumatic motor 310: electric motor

320: power transmission cable 330: gear drilling box

340: connecting rod 350: gear

The present invention relates to a perforation device that enables the replacement of the bridge device and the repair and reinforcement of the structure, which could not be constructed due to the limited space.

In carrying out the repair and replacement of the teaching apparatus through the present invention, there is a problem of breaking the structure so as to secure the installation height of the existing concrete for the height difference of the new teaching apparatus and the installation of the anchor, which causes enormous damage to the structure.

Therefore, it was required to develop a device that can be constructed by constructing a hole in the upper and lower in a narrow space when replacing the teaching device.

In the prior art of the present invention, the applicant has a patent application No. 10-0553353, the Patent Application No. 10-0553353 "the narrow part drilling auxiliary device and the repair and reinforcement method of the structure using the same" to construct a drilling hole in a narrow workspace It is used in the field of replacement of device, maintenance and reinforcement.

However, in order to secure applicability due to various types of structures and space constraints, it is necessary to develop various types of perforation devices.

The present invention was devised to solve the above problems, in addition to the existing power transmission method for transmitting the rotational force in the horizontal direction by using the power transmission box from the motor, to realize the drilling work through the power transmission method of various structures. We have developed a thousand factory value.

Wherein the drilling mill is supplied with hydraulic pressure to the hydraulic motor through the hydraulic hose from the hydraulic pump, the hydraulic drilling device for drilling the structure by rotating the drilling bit by the rotational force of the hydraulic motor;

Pneumatic punching device for supplying air pressure through the air hose in the air compressor, and perforating the structure by rotating the drilling bit by the rotational force of the pneumatic motor;

The cable transmits the rotational force from the motor to the connecting rod through the torque transmission cable, and converts the rotational force transmitted from the connecting rod to the gear drilling box in the vertical direction through the gear installed inside the gear drilling box, and rotates the drilling bit to drill the structure. Power transmission drilling apparatus;

In the motor, the rotational force is transmitted to the gear punching box through the connecting rod, and the gear punching box for drilling the structure by converting the rotational force in the vertical direction through the gear installed inside the gear punching box and rotating the drilling bit. It is achieved by what consists of a drilling apparatus etc.

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

1 is a perspective view showing a cloth mill using a hydraulic pressure according to the present invention. As shown in the drawings, by generating the hydraulic pressure for operating the hydraulic motor 130 in the hydraulic pump 110, the hydraulic fabric factory configured to be transmitted to the hydraulic pump 130 through the hydraulic hose 120, the upper structure ( 100) and the lower structure 105 is installed so as to be located in the narrow space perforations.

At this time, the drilling bit 150 is inserted and installed in the rotating part of the hydraulic motor 130, and the hydraulic motor 130 is supplied to supply the hydraulic pressure to rotate the hydraulic motor 130, the drilling bit 150 to rotate the hydraulic motor ( When 130 is moved in the drilling direction, the drilling hole is configured.

In addition, it is possible to configure the drilling hole by simply changing the direction of the hydraulic motor 130 in the upper direction and the lower direction according to the drilling purpose, and the hydraulic motor 130 of the small weight through the extension of the length of the hydraulic hose (120) Since only the perforated part can be moved to the perforated position, work efficiency will be maximized.

  In addition, even when the hole configuration position is far from the end of the lower structure 105, the construction is possible as a simple measure for the hydraulic hose 120 to properly adjust the length.

2 is a perspective view showing a fabric mill using air pressure according to the present invention. As shown in the figure, by generating the air pressure for operating the pneumatic motor 230 in the air compressor 210, the upper structure of the pneumatic fabric factory configured to transfer the air pressure to the pneumatic pump 230 through the air hose 220 It is installed so as to be located in the narrow space punching portion between the 100 and the substructure 105.

At this time, the drill bit 150 is inserted and installed in the rotating part of the pneumatic motor 230, and the pneumatic motor 230 is rotated by supplying air pressure to the pneumatic motor 230, the punch bit 150 rotates, and the pneumatic motor ( When 230 is moved in the drilling direction, the drilling hole is configured.

Here, as described in FIG. 1, the configuration of the drilling hole can be freely changed by simply changing the direction of the pneumatic motor 230 in the upper direction and the lower direction according to the drilling purpose, and the length of the air hose 220 is extended. Since only a small portion of the pneumatic motor 230, such as a perforated part can be moved to a perforated position, work can be expected to be maximized, and even if the perforated hole configuration position is far from the end of the lower structure 105, The hose 220 can be constructed as a simple measure to properly adjust the length.

3 is a perspective view showing a fabric mill using a cable power transmission device according to the present invention. As shown in the figure generates a rotational force for operating the gear punching box 330 in the electric motor 310, the rotational force is connected to the connecting table 340 installed on the gear punching box 330 through the power transmission cable 320 When the rotational force transmitted to the connecting table 340 is transmitted to the input side of the gear 350 which performs a function of converting the rotational force installed in the gear drilling box 330 in the vertical direction, the gear drilling box 330 The rotational force is transmitted to the drilling bit 150 installed at the output side. Here, the gear drilling box 330 is installed to be located in the narrow space drilling part between the upper structure 100 and the lower structure 105.

In this case, the drilling bit 150 is inserted into the output side rotation part of the gear drilling box 330 and installed, and the gear 350 installed inside the gear drilling box 330 rotates by supplying a rotational force to the input side of the gear drilling box 330. And when the drilling bit 150 is rotated and the gear drilling box 330 is moved in the drilling direction, the drilling hole is configured.

Of course, as described in Figures 1 and 2, according to the purpose of drilling, by simply changing the direction of the drilling gear box 330 in the upper direction and the lower direction, it is possible to freely change the direction of the configuration of the hole, the power transmission cable ( 320) It is possible to work by moving only the perforations such as the small weight gear perforation box 330 through the extension to the perforation position, and thus the work efficiency can be expected to be maximized. Even if it is far away, the power transmission cable 320 can be installed as a simple measure to properly adjust the length.

Figure 4 is a perspective view showing a mill punch gear box according to the present invention. As shown in the figure generates a rotational force for operating the gear drilling box 330 in the electric motor 310, the rotational force is transmitted to the input side of the gear drilling box 330 gear 350 through the connecting rod 340, The rotational force is converted in the vertical direction through the gear 350 in the gear drilling box 330, the rotational force is transmitted to the drilling bit 150 installed on the output side of the gear drilling box 330. Here, the gear drilling box 330 It is installed so as to be located in the narrow space puncturing portion between the upper structure 100 and the lower structure 105.

In this case, the drilling bit 150 is inserted into the output side rotation part of the gear drilling box 330 and installed, and the gear 350 installed inside the gear drilling box 330 rotates by supplying a rotational force to the input side of the gear drilling box 330. When the drilling bit 150 is rotated and the gear drilling box 330 is moved in the drilling direction, the drilling hole is configured, and the direction of the drilling gear box 330 is changed freely in the upper direction and the lower direction according to the drilling purpose. By switching the configuration of the punched hole is possible.

With the above configuration, it is possible to achieve a more improved effect in constructing a hole for repairing, reinforcing the structure and replacing the device.

The present invention is to construct a hole for repairing, reinforcing the structure and replacing the device,

Securing workability due to the weight of existing devices can solve the problem of making new equipment or construction impossible by making the distance according to the difficulty point and the drilling position, and will make it possible to repair and reinforce a wider range of structures. .

In addition, it can be expected to reduce the construction period and the construction cost due to improved construction and workability than the conventional method.

Claims (1)

In the drilling device for forming a drilling hole in the narrow space of the structure, An electric motor 310 for supplying rotational force for the construction of the drilling hole; Connecting table 340 for transmitting the rotational force supplied from the electric motor 310 to the gear drilling box 330; The rotational force transmitted to the connecting table 340 is transmitted to the input side of the gear 350 that performs the function of converting the rotational force installed therein in the vertical direction, and the drilling bit 150 is formed on the output side constituting the drilling hole with the rotational force Drilling device comprising a gear punching box (330).

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