KR20150140159A - Excavator - Google Patents

Abstract

The present invention relates to a drill machine comprising: a main body; a leader; a drilling unit; and a hose heating part. The main body includes a hydraulic supply device. The leader is supported by the main body. The drilling unit is installed on the leader, is connected to the hydraulic supply device by a hydraulic hose, and drills the ground using the pressure of a fluid transferred from the hydraulic supply device through the hydraulic hose. The hose heating part is installed on the hydraulic hose to heat the hydraulic hose. The drill machine includes the hose heating part to heat the hydraulic hose, thereby preventing the generation of cracks due to hardening of the hydraulic hose in a low temperature environment such as winter. Therefore, the service life of the hydraulic hose can be increased.

Description

The excavator {Excavator}

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a perforator, and more particularly, to a perforator for preventing a crack from occurring in a hydraulic hose for transmitting hydraulic pressure from a hydraulic pressure supply device to a perforated unit during operation in a low temperature environment.

Generally, perforator is a device for excavating the deep hole penetrating from the ground to the ground for drilling work, soil inspection, groundwater development, etc.

As a technique for opening a perforator, it is disclosed in Korean Patent Registration No. 0624233.

Background Art [0002] A conventional perforator includes a main body provided with a driving device such as an engine, a leader supported by the main body, a head portion sliding on the leader and generating a lift or rotation force by a drive device of the main body, A rod that is lifted or rotated by the head portion, and a drilling unit provided at the tip of the rod and lifted or rotated together with the rod to excavate the ground.

The excavation unit is composed of a bit excavated by hitting the ground, and a hammer operated by hydraulic pressure to impart a striking force to the bit. The transmission of the hydraulic pressure of the digging unit is made possible by installing a separate hydraulic line on the rod.

The drill bit of the drilling unit is drilled at a certain depth by striking the ground or rotating. As the ground is excavated, the excavation unit and the rod enter the ground. The length of the rod is extended by connecting the rod with the depth of the excavation unit and the depth at which the rod is drawn into the ground.

However, in the conventional perforator, when the drilling operation is performed in a low temperature environment such as winter, the hydraulic hose for transmitting the hydraulic pressure to the head portion and the drilling unit is cured and a crack is generated due to lifting and lowering of the head portion.

The present invention provides a perforator having a heating means capable of heating a hydraulic hose to prevent a crack from occurring in a hydraulic hose during an excavation work in a low temperature environment, .

According to an aspect of the present invention, there is provided a perforator including a main body provided with a hydraulic pressure supply device, a reader supported by the main body, and a hydraulic pump connected to the hydraulic pressure supply device by a hydraulic hose, And a hose heating unit installed in the hydraulic hose for heating the hydraulic hose. The hose heating unit includes a hose heating unit for heating the hydraulic hose, a punching unit for piercing the ground using the pressure of the fluid transmitted from the feeding device through the hydraulic hose.

Preferably, the hose heating unit is provided in the hydraulic hose, and includes a heating wire that generates heat by electricity, and a power supply unit that supplies electricity to the heating wire.

A connector connected to the main body and supplied with electricity from the main body; a connection line provided between the connector and the heating wire to transmit electricity supplied through the connector to the heating wire; And a control unit for controlling the operation of the heating wire by interrupting and regulating electricity transmitted through the connection line.

The power supply unit may include a first temperature sensor installed inside the hydraulic hose to measure a temperature of a fluid transmitted through the hydraulic hose and a second temperature sensor installed on an outer surface of the main body or the hydraulic hose to measure an external temperature around the hydraulic hose The control unit may further include a second temperature sensor for measuring the temperature of the fluid around the hydraulic hose based on the temperature value measured through the first and second temperature sensors and, when the temperature of the fluid is lower than a predetermined temperature, May be supplied to the heating wire.

The perforator according to the present invention is provided with a hose heating unit capable of heating a hydraulic hose, so that the hydraulic hose is hardened and cracks are prevented from occurring in a low temperature environment such as winter, thereby increasing the service life of the hydraulic hose .

1 is a side view of a perforator according to an embodiment of the present invention,
FIG. 2 is a partially cutaway perspective view of the hydraulic lake of the perforator of FIG. 1,
3 is a side view of a perforator according to another embodiment of the present invention.

Hereinafter, a puncturer according to a preferred embodiment of the present invention will be described in detail with reference to the accompanying drawings.

1 and 2 show a perforator 100 according to the present invention.

Referring to the drawings, a perforator 100 includes a main body 200 having a hydraulic pressure supply device, a reader 300 supported by the main body 200, and a hydraulic hose 221 A perforation unit 400 connected to the hydraulic pressure supply unit 220 by means of the hydraulic pressure supply unit 220 to puncture the slope using the pressure of the fluid transmitted through the hydraulic pressure hose 221 from the hydraulic pressure supply unit 220, And a hose heater 500 installed in the hydraulic hose 221 for heating the hydraulic hose 221.

The main body 200 is provided with a moving means 210 so that the main body 200 can move with respect to the ground at a lower portion thereof and a hydraulic pressure supply device 220 for supplying hydraulic pressure to a pivoting cylinder for rotating the piercing unit 400 and the reader 300, Respectively.

The moving means 210 includes a plurality of running rollers 211 and sprockets 212 which are installed in the main body 200 and rotate by the engine, And a moving belt 213 on an endless track coupled to the sprocket 212.

The hydraulic pressure supply device 220 of the main body 200 includes a hydraulic tank which receives the fluid and is connected to the perforation unit 400 and the later described tiltable member 301 by the hydraulic hoses 221, 221) for supplying a fluid of the hydraulic tank to the perforation unit (400). The hydraulic hose 221 is preferably made of a flexible material such as rubber so as to be easily bent according to the operation of the perforation unit 400.

Although not shown in the figure, the main body 200 includes a generator that generates electricity by a rotational force generated from an engine, a battery that stores electricity generated by the generator, and transfers the stored electricity to an electronic device such as a lamp, And a plurality of connection sockets which are installed in the battery and to which external electrical equipment is connected to receive electricity from the battery.

The reader 300 is rotatably installed in a front portion of the main body 200 and extends a predetermined length along the vertical direction. At this time, the reader 300 is rotated with respect to the main body 200 by the tiltable member 301.

The pivoting member 301 is a hydraulic actuator that is rotatably mounted on the rear side of the reader 300 and has one end on the upper side of the main body 200 and the other end on the rear side of the reader 300, .

The perforation unit 400 includes a head portion 410 that is slidably installed along the longitudinal direction of the reader 300 and generates rotational force, a head driving portion (not shown) that slides the head portion 410, And a rod 420 coupled to the head part 410 and moving by the head part 410 to perforate the ground.

The head unit 410 includes a housing slidably installed along the longitudinal direction of the reader 300 and a clamping member (not shown) rotatably installed at the housing and coupled to the end of the rod 420 And a first hydraulic motor 411 for rotating the drive shaft.

The drive shaft extends vertically and is rotatably supported by the housing by a bearing. At this time, it is preferable that the drive shaft is installed so that the lower end portion protrudes to the lower portion of the housing. The first hydraulic motor 411 is connected to the drive shaft and rotates the drive shaft. The first hydraulic motor 411 is connected to the hydraulic pressure supply device 220 by the hydraulic hose 221 and is driven to receive hydraulic oil by the hydraulic pressure supply device 220.

Although not shown in the drawing, the head driving unit includes a plurality of driving sprockets provided respectively at upper and lower portions of the reader 300, a chain fixed to one side of the head unit 410 by being hung on the driving sprocket, And a second hydraulic motor for rotating one of the first and second hydraulic motors. The second hydraulic motor is connected to the hydraulic pressure supply device 220 by a hydraulic hose 221 and is driven by receiving hydraulic oil by the hydraulic pressure supply device 220.

The rod 420 is formed as a round bar extending in the vertical direction, and the upper end is connected to the lower end of the driving shaft of the head part 410. In addition, a plurality of the rods 420 are interconnected and the ground is pierced by the operation of the head portion 410. On the other hand, although not shown in the drawing, a drill bit may be installed at the lower end of the rod 420 located at the lowermost position so that the ground can be excavated.

The hose heating part 500 is installed in the hydraulic hose 221 and includes a heating wire 501 that generates heat by electricity and a power supply part 510 that supplies electricity to the heating wire 501.

The heating wire 501 is installed to be embedded in a wall surface of the hydraulic hose 221 and extends along the longitudinal direction of the hydraulic hose 221. The plurality of heating wires 501 may be spaced from each other along the circumferential direction of the hydraulic hose 221.

At this time, the end portions of the heating wires 501 are installed to penetrate the wall surface of the hydraulic hose 221 so as to be connected to the connection terminal 502 provided outside the hydraulic hose 221.

Although not shown in the drawing, the heating wire 501 may be embedded in the wall surface of the hydraulic hose 221, and may have a plurality of first and second unit wires extending in mutually crossing directions to form a grid structure have.

The power supply unit 510 supplies electricity of a battery provided in the main body 200 to the heating wire 501 and is connected to a connection socket of the main body 200 and connected to the connector 511 A connection line 512 provided between the connection terminal 502 to which the heating wire 501 is connected and the connector 511 to transmit electricity supplied through the connector 511 to the heating wire 501, And a control unit 513 installed on the connection line 512 and controlling the operation of the heating line 501 by interrupting and regulating the electricity transmitted through the connection line 512. Since the connection line 512 is a power line used for transferring electricity in general, a detailed description thereof will be omitted.

The control unit 513 includes a power switch 514 for controlling supply and cutoff of electricity to the heating wire 501 and a temperature control unit for controlling the voltage of electricity supplied through the connecting wire 512 to control the heating temperature of the heating wire 501 And an adjusting wheel 515. The control unit 513 is preferably installed on the outer surface of the main body 200 so that the operator can easily operate the control unit 513.

When the outside air around the perforator 100 is in a low temperature state as in winter, the surface of the hydraulic hose 221 is hardened. At this time, when the hydraulic hose 221 is bent due to the rising / falling of the head part 410, cracks are generated on the surface of the hydraulic hose 221, and the fluid leaks through the cracks and the perforator 100 malfunctions . The perforator 100 according to the present invention is provided with the hose heater 500 capable of heating the hydraulic hose 221 so that the hydraulic hose 221 is hardened and prevented from cracking in a low temperature environment such as winter It is possible to prevent malfunctions in winter and increase the service life of the hydraulic hose 221.

3, a power supply unit 520 according to another embodiment of the present invention is shown.

Elements having the same functions as those in the previous drawings are denoted by the same reference numerals.

Referring to the drawings, the power supply unit 520 includes a first temperature sensor 521 installed inside the hydraulic hose 221 for measuring a temperature of fluid passing through the hydraulic hose 221, 200 or a second temperature sensor 522 installed on the outer surface of the hydraulic hose 221 for measuring an external temperature around the hydraulic hose 221. At this time, the controller 513 controls the controller 513 to control the external temperature around the hydraulic hose 221 and the temperature of the fluid based on the temperature values measured through the first and second temperature sensors 521 and 522, And supplies electricity to the heating wire 501 so that the heating wire 501 is operated.

The power supply unit 520 automatically controls the supply of electricity to the heating wire 501 according to the external temperature of the hydraulic hose 221 through the first and second temperature sensors 521 and 522.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is evident that many alternatives, modifications and variations will be apparent to those skilled in the art.

Accordingly, the true scope of protection of the present invention should be determined only by the appended claims.

100: perforator
200:
210:
220: Hydraulic feeder
300: Leader
400: Perforating unit
410:
420: Load
500: Hose is opened
501: Thermal line
502: connection terminal
510: Power supply
511: Connector
512: connection cable
513:

Claims (4)

A main body provided with a hydraulic pressure supply device;
A reader supported by the main body;
A perforation unit installed in the reader, the perforation unit being connected to the hydraulic pressure supply device by a hydraulic hose and using the pressure of the fluid transmitted from the hydraulic pressure supply device through the hydraulic hose to puncture the ground;
And a hose installed in the hydraulic hose to heat the hydraulic hose.
The method according to claim 1,
The hose heating section
A heating wire installed in the hydraulic hose and generating heat by electricity,
And a power supply unit for supplying electricity to the heating wire.
3. The method of claim 2,
The power supply unit
A connector connected to the main body and supplied with electricity from the main body,
A connection line provided between the connector and the heating wire to transmit electricity supplied through the connector to the heating wire,
And a control unit installed on the connection line and controlling the operation of the heating line by interrupting and regulating electricity transmitted through the connection line.
The method of claim 3,
The power supply unit
A first temperature sensor installed inside the hydraulic hose to measure a temperature of fluid passing through the hydraulic hose,
And a second temperature sensor installed on an outer surface of the main body or the hydraulic hose to measure an external temperature around the hydraulic hose,
The control unit supplies electricity to the heating wire so that the heating wire is operated when the external temperature around the hydraulic hose and the temperature of the fluid are lower than a preset temperature based on the temperature value measured through the first and second temperature sensors Features a perforator.

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