KR200483435Y1 - drilling device for excavator - Google Patents

Abstract

The present invention provides a drilling machine for an excavator with a new structure that can be mounted on an excavator and drilled in various places.
The drilling work machine for an excavator according to the present invention is coupled to an arm 1 of an excavator so that an arm 1 of an excavator is adjusted so that an end of the support frame 10 is in close contact with an object 6, When the means 20 and the elevation driving means 30 are driven, the core bit formed at the end of the core tube 24 penetrates the object 6 to form a hole.
Accordingly, it is possible to prevent the occurrence of a safety accident during the operation, and also to provide an advantage that there is no limitation in the position where the drilling operation can be performed.

Description

[0001] DRILLING DEVICE FOR EXCAVATOR [0002]

The present invention provides a drilling machine for an excavator with a new structure that can be mounted on an excavator and drilled in various places.

Generally, in a construction site, a demolition site, or a road construction site, a hole having a predetermined diameter is drilled in an object such as concrete, asphalt, or rock.

When drilling a hole in a structure like this, a punching device operated by electric or hydraulic pressure is used. Such a punching device is very heavy in weight, is very cumbersome to move and install, and is very likely to cause a safety accident during work In addition, there is a problem that a limit is imposed on the position where the drilling operation can be performed.

Therefore, there is a need for a new method to solve such a problem.

1, an ordinary excavator is provided with an arm 1 capable of mounting various types of attachments 4 such as a bucket, a rock drill, or a tongs on the front end thereof, and an arm 2 connected to the arm 1, And a hydraulic cylinder 2 capable of adjusting the angle of the attachment 4 and the attachment 4 so as to be able to perform various operations according to the type of the attachment 4. [

At this time, a clamp 3 operated by hydraulic pressure is provided at the distal end of the arm 1, and the attachment 4 is provided with a bracket 5 coupled to the clamp 3, So that the attachment 4 can be easily replaced.

The clamp 3 is provided with a pair of fixing rings 3a which are close to and spaced from each other by a hydraulic cylinder not shown and a pair of fixing rods 3a A fixing rod 5a is provided to connect the fixing ring 3a to the fixing rod 5a.

The structure of the clamp 3 and the bracket 5 is described in detail in a number of prior documents including the registration practice model No. 20-0310978, and a detailed description thereof will be omitted.

It is an object of the present invention to provide a drilling machine for an excavator having a new structure which can be mounted on an excavator and drilled in various places.

In order to achieve the above object, the present invention provides a support structure for an excavator, comprising a support frame (10) provided with a guide rod (15) extending in the vertical direction and detachably coupled to the arm (1) And a lifting and driving means (30) connected to the perforating means (20) for lifting the perforating means (20), wherein the lifting and driving means (30) A bracket 14 is detachably coupled to a top surface of the excavator arm 10 and a clamp 3 provided at a front end of the excavator arm 1 is detachably connected to the excavator arm 1. The boring means 20 can be elevated A hydraulic motor 22 provided with a drive shaft 22a facing downward at an upper portion of the platform 21 and a hydraulic motor 22 provided inside the platform 21 to drive the hydraulic motor 22 A transmission 23 connected to the drive shaft 22a of the output shaft 23a and having an output shaft 23a extending downward, And a core tube 24 having an upper end coupled to an output shaft 23a of the transmission 23 and a lower end portion provided with a core bit. The upper end of the core tube 24 is connected to the punching means The output shaft 23a of the transmission 23 is driven to rotate the core tube 24 so that the core bit formed at the lower end of the core tube 24 moves to the object And a hole is formed in the object (6) while cutting the cutter (6).

According to another feature of the present invention, the bracket 14 includes a pair of support plates 14a coupled to the upper surface of the support frame 10 so as to be spaced from each other in the lateral direction, and a bar extending in the lateral direction First and second fixing rods 14b and 14c, both ends of which are coupled to the supporting plate 14a so as to be spaced apart from each other in the mutual front and rear direction, and first and second fixing rods 14b 14b and 14c and third and fourth fixing rods 14d and 14e whose both ends are coupled to the supporting plate 14a so as to be spaced apart from the lower ends of the first to fourth fixing rods 14b and 14c, , 14c, 14d, and 14e to adjust the direction of the drilling machine for an excavator.

According to another aspect of the present invention, the core tube (24) includes a tube body (24b) extending in the up and down direction and having a cylindrical shape with an opening at the lower end and having the core bit at the lower circumferential surface thereof, And an engaging portion 24c extending upward from the upper surface of the tubular body 24b to be coupled to the outside of the output shaft 23a of the transmission 23. The lower end of the engaging portion 24c is open, An inlet 23c opened to the periphery of the output shaft 23a and a lower end 23b of the output shaft 23a are formed in the output shaft 23a of the transmission 23, And a connecting passage 21b connecting the inlet port 23c of the flow passage 23b is formed in the platform 21. The connecting passage 21b is formed in the platform 21, A water supply means 25 connected to the flow path 23b for supplying water to the flow path 23b through the connection path 21b, When water is supplied to the flow path 23b by using the water supply means 25, the supplied water is supplied into the core tube 24 through the discharge port 23d of the flow path 23b And a punching machine for an excavator is provided.

According to another aspect of the present invention, there is provided a support frame 40 which is fixed to an object 6 and has an engagement groove 41 formed on an upper surface thereof and a support frame 40 detachably coupled to a lower end of the support frame 10, The protrusion of the fixing table 50 is engaged with the coupling groove of the supporting table 40 in a state in which the supporting frame 10 is rotated to extend forward, 41 so that the support frame 10 can be positioned so as not to move.

According to another aspect of the present invention, the support frame 10 includes a lower plate 11, a side plate 12 extending upward from the upper surface of the lower plate 11, A fixed shaft 16 including a top plate 13 and rotatably coupled to a periphery of the lower plate 11 such that a lower end of the bottom plate 11 protrudes to the lower side of the lower plate 11; And a driving motor 17 for driving the shaft 16. The fixing shaft 16 is formed in a drill shape having a cutting groove on a circumferential surface so that the fixing shaft 16 is fixed to the object 6 When the driving motor 17 is driven in a state of being closely contacted with the fixed shaft 16, the fixed shaft 16 digs the surface of the object 6 and is inserted and fixed on the surface of the object 6 .

The drilling work machine for an excavator according to the present invention is coupled to an arm 1 of an excavator so that an arm 1 of an excavator is adjusted so that an end of the support frame 10 is in close contact with an object 6, When the means 20 and the elevation driving means 30 are driven, the core bit formed at the end of the core tube 24 penetrates the object 6 to form a hole.

Accordingly, it is possible to prevent the occurrence of a safety accident during the operation, and also to provide an advantage that there is no limitation in the position where the drilling operation can be performed.

1 is a reference view showing a general excavator,
FIG. 2 is a perspective view showing a perforating machine for an excavator according to the present invention,
3 is a plan view showing a drilling machine for an excavator according to the present invention,
4 is a side cross-sectional view illustrating a perforating machine for an excavator according to the present invention,
5 is a front view of the perforating machine for an excavator according to the present invention,
6 is a circuit diagram of a drilling machine for an excavator according to the present invention;
Figs. 7 to 9 are reference views showing the operation of the drilling machine for an excavator according to the present invention,
10 to 12 are side sectional views showing a second embodiment of a perforating machine for an excavator according to the present invention,
13 and 14 are reference views showing a modified example of the drilling machine for an excavator according to the present invention.

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

FIGS. 2 to 9 show a perforating apparatus for an excavator according to the present invention, which comprises a support frame 10 provided with guide rods 15 extending in the vertical direction and detachably coupled to the arm 1 of the excavator, And a lifting and driving means 30 connected to the perforating means 20 for lifting and raising the perforating means 20, ).

The excavator has an arm 1 provided with a clamp 3 at a tip end thereof and a hydraulic cylinder 2 connected to the arm 1 and capable of adjusting the angle of the arm 1 and the clamp 3 Respectively.

4, the clamp 3 is provided with a pair of fixing rings 3a which are close to and spaced apart from each other by an unillustrated hydraulic cylinder so that the fixing ring 3a is supported by the support frame 10, To the bracket (14) provided on the body.

3 and 4, the support frame 10 includes a lower plate 11, a side plate 12 extending upward from the upper surface of the lower plate 11, And an upper plate 13 coupled to the upper end.

At this time, the lower plate 11 is formed of a rectangular metal plate, and the arc-shaped opening 11a through which the core tube 24 described later penetrates is formed at the center so as to open forward.

The side plate (12) extends upward from the upper side of the periphery of the lower plate (11).

The upper plate 13 is made of a rectangular metal plate and is fixedly coupled to the upper end of the side plate 12.

At this time, the upper surface of the support frame 10 is provided with a bracket 14 to which the clamp 3 provided at the tip of the excavator arm 1 is detachably coupled.

4 and 5, the bracket 14 includes a pair of support plates 14a coupled to the upper surface of the support frame 10 so as to be mutually laterally spaced apart from each other, First and second fixing rods 14b and 14c, both ends of which are connected to the supporting plate 14a so as to be spaced apart from each other in the forward and backward directions, And third and fourth fixing rods 14d and 14e whose both ends are coupled to the supporting plate 14a so as to be spaced apart from the lower side of the rods 14b and 14c.

Therefore, the clamp 3 can be selectively coupled to the first to fourth fixing rods 14b, 14c, 14d, and 14e to adjust the direction of the drilling machine for an excavator.

7, when the fixing ring 3a of the clamp 3 is coupled to the first and second fixing rods 14b and 14c, the support frame 10 is vertically extended .

8, when the fixing ring 3a is coupled to the first fixing bar 14b and the third fixing bar 14d, the support frame 10 is arranged to extend forward , The support frame 10 is arranged to extend rearward when the fixing ring 3a is coupled to the second fixing bar 14c and the fourth fixing bar 14e as shown in FIG.

The guide rod 15 is formed in a cylindrical shape extending in the vertical direction and has both ends fixedly coupled to the lower plate 11 and the upper plate 13. The guide rod 15 has a pair of left and right guide rods 15, Respectively.

3 and 4, the perforating means 20 includes a platform 21 movably coupled to the guide bar 15, and a drive shaft 22a provided on the platform 21 at a lower side A transmission 23 provided within the platform 21 and connected to a drive shaft 22a of the hydraulic motor 22 and having an output shaft 23a extending downward, And a core tube 24 having an upper end connected to the output shaft 23a of the transmission 23 and a core bit at the lower end of the core tube 24.

The platform 21 is formed as a block of a metallic material extending in the lateral direction and has through holes 21a through which the guide rods 15 are slidably engaged at both ends so as to be raised and lowered along the guide rods 15 .

The hydraulic motor 22 is fixed to the upper surface of the platform 21 and is configured to drive the transmission 23 by being driven by hydraulic pressure generated in an oil pump provided in the excavator.

The transmission 23 uses a planetary transmission 23 that is capable of performing three-speed shifting using a planetary gear.

At this time, a flow passage 23b having an inlet 23c opened to the periphery of the output shaft 23a and an outlet 23d opened to the lower end of the output shaft 23a is formed in the output shaft 23a of the transmission 23 And a connecting passage 21b connected to the inlet port 23c of the flow path 23b is formed in the platform 21.

The water supply means 25 for supplying water is connected to the connection passage 21b.

The water supply means 25 is configured to store water and includes a water reservoir 25a connected to the connection passage 21b through a water supply pipe 25b and a water supply pump 25c connected to a middle portion of the water supply pipe 25b .

7, water stored in the reservoir 25a is supplied to the connection passage 21b, and water supplied to the connection passage 21b is supplied to the connection passage 21b, Is introduced into the passage 23b through the inlet port 23c and then injected to the lower side of the output shaft 23a through the discharge port 23d.

The core tube (24) includes a tube body (24b) extending in the up and down direction and having a cylindrical shape with the lower end opened, a tube body (24b) having the core bit on the lower circumferential surface thereof, And the coupling portion 24c is coupled to the outer side of the output shaft 23a of the transmission 23 and the lower end of the coupling portion 24c is opened to connect the tube body 24b and the coupling portion 24c The space is configured to communicate with each other.

The core bit is formed at the lower end of the tube body 24b and functions to cut the object when the lower end of the core tube 24 is rotated in a state in which the lower end of the core tube 24 is in close contact with the object 6. [

These core bits are generally provided in the core tube 24 used to perforate the object, and a detailed description thereof will be omitted.

7, when the end portion of the core tube 24 is in close contact with the object 6, the output shaft 23a of the transmission 23 and the core 23 of the core 23, As the tube 24 is rotated, the core bit provided at the end of the core tube 24 penetrates the surface of the object 6 to form a hole in the surface of the object 6.

The elevation driving means 30 includes a guide rail 31 extending upward and downward from the support frame 10 and being fixed to one side of the platform 21 so as to be movable up and down by the guide rail 31 A pair of sprockets 33 provided on the upper and lower sides of the guide rail 31 and an intermediate portion coupled to the peripheral portion of the sprocket 33, And a drive motor 35 connected to the sprocket 33 to rotate the sprocket 33 in normal and reverse directions.

Therefore, when the sprocket 33 is rotated in the forward and reverse directions by the drive motor 35, the chain 34 is circulated in the forward and reverse directions along the circumference of the sprocket 33 to move the lift block 32 up and down, The platform 21 is elevated and lowered so that the entire perforation means 20 is elevated and lowered.

At this time, the hydraulic motor 22 and the driving motor 35 of the elevation driving means 30 are configured to be able to control the operation using the wireless regulator 60.

To this end, the hydraulic motor 22 and the driving motor 35 of the elevation driving means 30 are connected to the control means 70 configured to be capable of wireless communication with the wireless regulator 60.

The control means 70 is configured to be capable of wireless communication with the wireless remote controller 60 via a wireless transceiver 71.

Therefore, while the operator visually confirms the state in which the core tube 24 pierces the object 6, the hydraulic motor 22 and the drive motor 35 of the elevation drive means 30 ), It is possible to directly control the drilling operation.

The drilling machine for excavator thus constructed is coupled to the arm 1 of the excavator so that the arm 1 of the excavator is adjusted so that the end of the support frame 10 is in close contact with the object 6, The core bit formed at the end of the core tube 24 penetrates the object 6 and forms a hole when the body 20 and the elevation driving means 30 are driven.

Accordingly, it is possible to prevent the occurrence of a safety accident during the operation, and also to provide an advantage that there is no limitation in the position where the drilling operation can be performed.

The puncturing means 20 is provided with a transmission 23 so that the rotational speed of the core tube 24 can be adjusted in multiple stages using the transmission 23 according to the type of the object 6 to be drilled There is an advantage that the object 6 can be more effectively perforated.

The upper surface of the support frame 10 is provided with a bracket 14 to which a clamp 3 provided at a front end portion of the excavator arm 1 is detachably coupled and the brackets 14 are spaced apart from each other A pair of support plates 14a coupled to the upper surface of the support frame 10 so as to be spaced apart from each other in the back and forth direction, A first fixing bar 14b and a second fixing bar 14c which are connected to the supporting plate 14a so as to be separated from the lower side of the first and second fixing bars 14b and 14c, 3 and fourth fixing rods 14d and 14e so as to selectively connect the clamp 3 to the first to fourth fixing rods 14b, 14c, 14d and 14e, There is an advantage that the degree of freedom of work can be improved.

That is, in the case of the bracket 14 provided in the general attachment, only the two fixing rods are provided, and when the bracket 14 is coupled to the clamp 3, the attachment is fixed in a predetermined direction.

At this time, even if the direction of the attachment is adjusted by using the arm 1, there is a limit to the angle at which the direction of the attachment can be adjusted.

However, in the present invention, the bracket 14 is provided with four fixing rods 14b, 14c, 14d and 14e, and the clamp 3 is fixed to the different fixing rods 14b, 14c, 14d and 14e There is an advantage that the direction of the support frame 10 can be more freely adjusted without being restricted by the angle.

The core tube 24 includes a tube body 24b extending in the up-and-down direction and having a cylindrical shape with an opening at the lower end thereof and having the core bit at a lower circumferential surface thereof, And the coupling portion 24c is coupled to the outer side of the output shaft 23a of the transmission 23. The coupling portion 24c has a lower end opened to connect the tube body 24b and the coupling portion 24c, An inlet 23c opened to the periphery of the output shaft 23a and an outlet 23d opened to the lower end of the output shaft 23a are formed in the output shaft 23a of the transmission 23, And a connecting passage 21b connecting the inlet port 23c of the flow passage 23b is formed in the platform 21 and the connecting passage 21b is formed in the connecting passage 21b. A water supply means 25 for supplying water to the flow path 23b is connected to the core tube 24, When water is supplied to the flow path 23b by using the water supply means 25 when the object 6 is pierced by using the flow path 23b through the discharge port 23d of the flow path 23b, (24) and flows into the space between the core bit and the object (6), thereby preventing generation of dust and cooling the core bit.

Therefore, it is not necessary to supply the cooling water to the core tube 24 separately.

That is, in the conventional perforating apparatus, water is supplied to the end portion of the core tube 24 when the object 6 is punctured to cool the core bit to prevent dust from being generated. In this case, It is not necessary to separately supply water by injecting water into the core tube 24 through the through-hole 23b.

10 to 12 illustrate another embodiment according to the present invention and include a support base 40 fixed to the object 6 and having an engagement groove 41 formed on the upper surface thereof, And a fixing table 50 having protrusions protruding from the periphery of the support frame 10 is formed.

The support base 40 is formed of a metal bar extending in the lateral direction and is fixed by an anchor bolt such that the support base 40 is positioned below a portion where a hole is to be formed on the entire surface of the object 6 extending vertically like a wall surface of a building .

The support frame 50 includes a support portion 51 having a bar shape extending in the vertical direction and detachably fixed to the lower plate 11 of the support frame 10 by bolts 54, And a fixing part 53 extending downward from the front end of the extension part 52 and inserted into the coupling groove 41 of the support base 40 .

11, the fixing frame 50 is fastened to the lower plate 11 of the support frame 10 in a state where it is coupled to the arm 1 with the support frame 10 facing forward, As shown in Fig. 12, the arm portion 1 of the excavator is adjusted so that the fixing portion 53 is inserted into the coupling groove 41 of the support base 40, A hole may be formed in the front surface of the object 6 by fixing the support frame 10 so as not to move and driving the perforating means 20 and the elevation driving means 30.

The perforating machine for an excavator having the above-described structure is constructed such that when a hole is formed in the front surface of a vertically extending object 6 like a wall surface of a building, the fixing table 50 is fixed to the support base 40, There is an advantage that it is possible to prevent the perforating machine from being sagged downward.

Particularly, since the support frame 40 is fixed to the object 6 in advance, and the support frame 10 is connected to the support frame 40 by setting the position of the support frame 10, simply the hydraulic cylinder of the excavator Unlike the first embodiment described above in which the position of the support frame 10 is controlled by controlling the position of the support frame 10, There is an advantage that a hole can be formed in the place.

In the present embodiment, the support frame 40 is fixed to the object 6 and has an engagement groove 41 formed on the upper surface thereof. The support frame 40 is detachably connected to the lower end of the support frame 10, 13 and 14, the lower end of the lower plate 11 is fixed to the lower end of the lower plate 11 by means of the fixing shaft 50. However, as shown in Figs. 13 and 14, 16 so as to support the fixed shaft 16 so as to penetrate the front surface of the object 6 and prevent the perforating machine from falling down.

The stationary shaft 16 is rotatably coupled to a peripheral portion of the lower plate 11 such that a lower end of the stationary shaft 16 protrudes below the lower plate 11. A stationary shaft 16 is fixed to the stationary shaft 16, A drive motor 17 for driving the drive motor 17 is connected.

At this time, the fixed shaft 16 is formed in a drill shape having a cutting groove on a circumferential surface.

The drilling machine for excavator having the above structure is configured to adjust the position of the support frame 10 with the arm 1 so that the end of the fixed shaft 16 is in close contact with the object 6, The fixed shaft 16 digs the surface of the object 6 and inserts and fixes the object 6 on the surface thereof.

Therefore, the punching machine can be simply fixed to the surface of the object 6 so as not to move.

10. Support frame 20. Perforation means
30. Elevator means

Claims (6)

A support frame 10 having a guide rod 15 extending in the up and down direction and a bracket 14 detachably coupled to a clamp 3 provided at a front end of the excavator arm 1,
A hydraulic motor 22 provided on the upper part of the platform 21 so that the drive shaft 22a faces downwardly; A transmission 23 connected to the driving shaft 22a of the hydraulic motor 22 to drive an output shaft 23a extending downward and a core bit 22 extending in the vertical direction and having a core bit A core tube 24 that extends upward from the tube body 24b to form an engaging portion 24c to be coupled to the output shaft 23a of the transmission 23 so that the inner space of the tube body 24b is communicated with the tube body 24b (20);
An elevating driving means (30) connected to the perforating means (20) to elevate the perforating means (20);
Lt; / RTI >
The bracket (14) of the support frame (10)
A pair of support plates 14a coupled to the upper surface of the support frame 10 so as to be mutually spaced apart from each other,
First and second fixing rods 14b and 14c having both ends connected to the supporting plate 14a so as to be spaced apart from each other in the forward and backward directions,
Third and fourth fixing rods 14d and 14e having both ends connected to the supporting plate 14a so as to be separated from the lower side of the first and second fixing rods 14b and 14c, So that the clamp 3 can be selectively coupled to the first to fourth fixing rods 14b, 14c, 14d, and 14e to adjust the coupling direction of the support frame 10,
The perforating means (20)
A flow path 23b is formed in the output shaft 23a of the transmission 23 to form an inlet port 23c that opens to the periphery and a discharge port 23d that opens to the lower end, and is connected to the inlet port 23c of the flow path 23b And a water supply means 25 for supplying water to the flow path 23b through the connection path 21b is provided on the platform 21 so as to be connected to the water supply means 25 by the water supply means 25 And the supplied water is supplied to the inside of the core tube (24) through the connection passage (21b) and the flow passage (23b).
The method according to claim 1,
Wherein the hydraulic motor (22) and the elevation driving means (30) are capable of controlling the operation using the wireless regulator (60).
delete delete The method according to claim 1,
A support base 40 fixed to the object 6 and having an engagement groove 41 formed on the upper surface thereof,
Further comprising a fixing table (50) detachably coupled to a lower end of the support frame (10) and formed with protrusions protruding from the periphery of the support frame (10)
The protruding portion of the fixing table 50 is fitted into the coupling groove 41 of the supporting table 40 while the supporting frame 10 is rotated so as to extend forward so that the supporting frame 10 can be positioned so as not to move And a punching machine for punching the excavator.
The method according to claim 1,
The support frame (10)
A lower plate 11,
A side plate 12 extending upward from the upper surface of the lower plate 11,
And a top plate (13) coupled to an upper end of the side plate (12)
A fixing shaft 16 rotatably coupled to the periphery of the lower plate 11 such that a lower end of the lower plate 11 protrudes below the lower plate 11,
And a driving motor (17) connected to the fixed shaft (16) and driving the fixed shaft (16)
The fixed shaft 16 is formed in a drill shape having a cutting groove on a circumferential surface thereof,
When the driving shaft 17 is driven with the fixed shaft 16 in close contact with the object 6, the fixed shaft 16 digs the surface of the object 6 and inserts it into the surface of the object 6 Wherein the punching machine is a punching machine for an excavator.

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