KR200381412Y1 - The gear fixation excavator where the angle control of the excavation tube is possible - Google Patents

Abstract

The present invention relates to a gear fixed excavator capable of adjusting the angle of the drilling pipe, the present invention is a body portion formed with a connection bracket to the back of the support for connecting the upper plate and the lower plate up and down, and the hydraulic plate on the upper plate A guide rod is formed to guide up and down by a cylinder, and is connected to a lower side of the hydraulic cylinder to form guide portions which are lifted up and down by guide rods on both sides, and a connecting cylinder is formed at the center of the guide portion to form an upper side of the connecting cylinder. In the excavator having a drilling pipe and a crown formed in the lower side to be excavated by the rotation of the hydraulic motor, the support plate formed a radial bearing between the connecting plate and the connecting bracket formed to be connected to the connecting bracket and the connecting plate and Connect the connecting brackets and rotate so that they can be interlocked with the support of the body. The electric gear plate is connected to the center of the connecting plate so that the fixed gear plate may be fixed to the connecting bracket to be fixed by being engaged with the rotating rotary gear plate, and a double cylinder is formed on the bottom side of the guide plate on the bottom of the upper plate. It is characterized by one.

Description

The gear fixation excavator where the angle control of the excavation tube is possible}

The present invention relates to a gear fixed excavator that can adjust the angle of the excavation pipe, and in particular, it is possible to excavate the rock cylindrically during civil engineering or building construction, and the angle of the excavation pipe is automatically adjusted by the gear according to the slope of the rock. It is possible to adjust the exact angle as well as to fix the angle-adjusted excavation pipe by the gear's engagement to secure the fixing force, and to use the double cylinder to fix the angle of the excavation pipe that can withstand the load of the device It is about an excavator.

In general, an excavator is a device that drills a cylindrical hole in the rock to crush the rock and connects it to the fork crane at a civil engineering construction site and uses the hydraulic power of the fork crane as a power source.

Such an excavator is not proposed to fit the slope of the rock to be excavated at right angles, the excavator is capable of rotating the drilling pipe is proposed as Utility Model Registration No. 348664.

The conventional angle adjustable excavator as described above is shown in FIGS.

Excavator as shown here is connected to the support plate (1) and the upper plate (3) by the support (2) and the guide support (2 ') guide guide (2') is a guide tube (integrated with the support cylinder 5) ( The piston rod 10A of the cylinder 10 having 5 ') fixedly fixed to the upper plate 3 is fixed to the support cylinder 5, and the hydraulic motor 6 is attached to the upper portion of the support cylinder 5. The shaft 6A of the hydraulic motor 6 penetrates downwardly of the support cylinder 5 to fix the rotary tube 7, and to the rotary tube, an excavation tube 8 to fix the diamond dental tube 9. The bolts 15 are inserted into the shafts 401 of the brackets 4 having the semi-circular guide grooves 401 'formed in the holes 11A of the support pipe 11 which are screwed and fixed to the support 2 by welding. The support plate 11 by connecting the piston rod 12A of the cylinder 12 fixed to the strut 2 with the pin 13 and the projection 402 fixed to the bracket 4 with the pin 14. Can change In one embodiment, a U-shaped female fastening plate 16 formed with fasteners 16A and 16B and an arc-shaped guide hole 16 on the upper surface of the bracket 4 is formed on the bracket 4 by an axis 17, and is arc-shaped. The guide hole 160 and the hole 4A of the bracket 4 are formed to be fixed by the handle nut 19 by inserting a bolt 18 to rotate the bracket 4.

However, the conventional excavator as described above operates the cylinder bonded with the pin to the support, so that the fork lane and the bracket do not move, and the support plate can be excavated while adjusting the displacement by shifting the angle in the inclined direction to rotate by rotating the axis about the axis. Since the excavation stops at a certain angle and receives a lot of load on the hydraulically actuated cylinder, the angle adjusted during excavation is deformed, and there is a problem in that the breakage of the link part occurs frequently by rotating the heavy object by the hydraulic link structure. .

The present invention has been made in view of the above-mentioned problems of the prior art, it is possible to automatically adjust the angle of the excavation pipe by the gear rotation according to the inclination of the rock to precisely adjust the adjustment angle and the fixing force of the angle-adjusted excavation pipe It is possible to excavate rock by cylindrical shape in civil engineering or building construction while preventing the deformation of the angle during excavation by hardening by gear-matching and to prevent the cylinder from protruding to the outside by using double cylinder. It is an object of the present invention to provide an excavator that can be prevented from being adjustable in angle.

In order to achieve the above object, the present invention is to form a guide rod to be guided up and down due to the hydraulic cylinder on the upper plate of the body portion and the connecting bracket is formed on the back of the support for connecting the upper plate and the lower plate up and down; Guide parts connected to the lower side of the hydraulic cylinder is lowered by guide rods are formed on both sides, and a connecting cylinder is formed at the center of the guide part to form a hydraulic motor above the connecting cylinder and is excavated by the rotation of the hydraulic motor. In the excavator having a drilling pipe and a crown formed in the lower side, the support is formed in the radial bearing between the connecting plate and the connecting bracket formed to be connected to the connecting bracket to connect the connecting plate and the connecting bracket, respectively, Open the rotary gear plate to interlock with the center of the connecting plate so that it can rotate. The fixed gear plate is fixed to the connecting bracket to be bolted to be engaged with the rotating rotating gear plate and the angle adjustment of the excavation pipe, characterized in that the bottom surface of the upper plate formed a double cylinder to the back side of the guide portion Provide geared excavators available.

The outer race of the radial bearing is bolted to the connecting plate and the inner race is bolted to the connecting bracket, forming a rotary gear on the outer diameter of the outer race of the radial bearing and forming a rotating motor inward of the connecting bracket and the rotation The present invention provides a gear fixed excavator capable of adjusting an angle of a drilling pipe, wherein a driving gear is formed at an end of a rotation shaft of the motor to mesh with the rotary gear and to engage an idle gear with the rotary gear on the opposite side of the driving gear.

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

Attached Figure 3 is a perspective view showing a gear fixed excavator capable of adjusting the angle of the drilling pipe according to the present invention, Figure 4 is a yaw perspective view showing a gear fixed excavator capable of adjusting the angle of the drilling pipe according to the present invention, Figure 5 Sectional view showing a gear fixed excavator capable of adjusting the angle of the drilling pipe according to the present invention.

As shown therein, the gear fixed excavator that can adjust the angle of the present invention has a body portion 100 having a connecting bracket 104 formed on the back of the support 103 connecting the upper plate 101 and the lower plate 102 up and down. And, the guide bar 106 is formed on the upper plate 101 of the body portion 100 to guide up and down due to the hydraulic cylinder 105 and is connected to the lower side of the hydraulic cylinder 105 to the guide rod 106 Guide parts 107 which are lifted up and down by both sides are formed, and a connecting cylinder 108 is formed at the center of the guide part 107 to form a hydraulic motor 109 above the connecting cylinder 108. Excavation pipe 110 and the crown 111 is formed in the lower side to be excavated by the rotation of the motor 109.

The support plate 103 formed as described above forms a radial bearing 113 between the connecting plate 112 and the connecting bracket 104 formed to be connected to the connecting bracket 104 and the connecting plate 112 and the connecting bracket 104. Connecting the rotary gear plate 114 to the center of the connecting plate 112 so as to interlock and rotate with the support 103 of the body portion 100 is engaged with the rotating rotary gear plate 114 The fixed gear plate 115 is formed to be bolted to the connecting bracket 104 so that the fixed gear plate 115 can be fixed, and a double cylinder 116 is formed on the bottom side of the guide part 107 on the bottom of the upper plate 101.

The outer race 120 of the radial bearing 113 is bolted to the connecting plate 112 and the inner race 121 is bolted to the connecting bracket 104 and the outer race 120 of the radial bearing 113 A rotary gear 122 is formed at an outer diameter of the rotary gear 122, and a rotary motor 123 is formed inward of the connecting bracket 104, and a driving gear 124 is formed at the end of the rotary shaft of the rotary motor 123. And the idle gear 125 on the opposite side of the drive gear 124 to the rotary gear 122.

Referring to the operation and effects of the present invention configured as described above are as follows.

First, in order to rotate the body part 100 at an appropriate angle according to the inclination of the rock, the fixed gear plate 115 fixed to the connecting bracket 104 is released from the rotary gear plate 114 and then to the rotating motor 123. The driving gear 124 is rotated by applying hydraulic pressure to rotate by interlocking with the rotary gear 122 formed on the outer race 120 of the radial bearing 113.

In this state, an idle gear 125 is formed on the opposite side of the drive gear 124 to distribute the rotational load of the outer race 120 of the radial bearing 113.

As such, when the outer race 120 of the radial bearing 113 rotates, the upper and lower plates 101 and 102 and the support 103 of the body portion 100 on which the outer race 120 is fixed rotate at a predetermined angle.

As described above, when the upper and lower plates 101 and 102 and the support 103 of the body part 100 are positioned at an arbitrary angle desired by the user, the fixing gear plate 115 is engaged with the rotary gear plate 114, and then the connection bracket 104 is disposed. ).

The fixed angle adjustable gear fixed excavator is lowered the connecting cylinder 108 by the double cylinder 116 and the hydraulic tube 109 to the drilling pipe 110 and the crown 111 formed in the connecting cylinder 108 It can rotate by and excavate rock of desired angle.

In addition, when the operation is finished, the fixed gear plate 115 is released from the rotary gear plate 114 to return the body portion 100 to the original position by the rotation of the rotary motor 123.

As described above, the present invention adjusts the angle of the excavation pipe according to the inclination of the rock and then secures the fixed force of the angle-adjusted excavation pipe by the engagement of the gear to prevent the deformation of the angle during excavation and the angle of rotation by the gear rotation. While precisely adjusting and maintaining the set angle, the rock can be excavated into a cylindrical shape in civil engineering or building construction, improving the efficiency of the product.

In the above, the present invention has been illustrated and described by way of specific preferred embodiments, but the present invention is not limited to the above-described embodiments and the general knowledge in the art to which the present invention belongs without departing from the spirit of the present invention. Various changes and modifications can be made by those who have

1 is a perspective view showing a conventional drilling pipe,

Figure 2 is an exploded perspective view showing a conventional drilling pipe,

3 is a perspective view showing a gear fixed excavator capable of adjusting the angle of the drilling pipe according to the present invention;

Figure 4 is a yaw perspective view showing a gear fixed excavator capable of adjusting the angle of the drilling pipe according to the present invention,

5 is a cross-sectional view showing a gear fixed excavator capable of adjusting the angle of the drilling pipe according to the present invention;

Figure 6 is a state of use of the gear fixed excavator is capable of adjusting the angle of the drilling pipe according to the present invention.

<Description of Symbols for Main Parts of Drawings>

100: body 101: top plate

102: lower plate 103: support

104: connecting bracket 105: hydraulic cylinder

106: guide rod 107: guide

108: connecting cylinder 109: hydraulic motor

110: drilling pipe 111: crown

112: connecting plate 113: radial bearing

114: rotary gear plate 115: fixed gear plate

116: double cylinder 120: outer race

121: inner race 122: rotary gear

123: rotary motor 124: drive gear

125: children gear

Claims (3)

Hydraulic body to the body portion 100 and the upper plate 101 of the body portion 100 formed with a connecting bracket 104 to the back of the support 103 for connecting the upper plate 101 and the lower plate 102 up and down Guide rods 106 are formed to be guided up and down due to the cylinder 105, and guide parts 107 connected to the lower side of the hydraulic cylinder 105 are lifted up and down by the guide rods 106 on both sides and are guided. A connecting cylinder 108 is formed at the center of the part 107 to form a hydraulic motor 109 above the connecting cylinder 108, and the excavation pipe 110 is disposed at the lower side to be excavated by the rotation of the hydraulic motor 109. ) And the excavator formed the crown 111, In the support 103, a radial bearing 113 is formed between the connecting plate 112 and the connecting bracket 104 formed to be connected to the connecting bracket 104, thereby connecting the connecting plate 112 and the connecting bracket 104, respectively. The rotary gear plate 114 is connected to the center of the connecting plate 112 so as to interlock and rotate with the support 103 of the body portion 100 to be engaged with the rotating rotary gear plate 114 to be fixed. The fixed gear plate 115 is formed to fix the bolt to the connecting bracket 104 so that the bottom surface of the upper plate 101 is excavated, characterized in that the double cylinder 116 is formed on the back side of the guide portion 107. Gear fixed excavator with adjustable angle of pipe. The angle of the drilling pipe, characterized in that the outer race 120 of the radial bearing 113 is bolted to the connecting plate 112 and the inner race 121 is bolted to the connecting bracket 104. Adjustable gear fixed excavator. The rotating gear 122 is formed on the outer diameter of the outer race 120 of the radial bearing 113, and the rotating motor 123 is formed inside the connecting bracket 104. The driving gear 124 is formed at the end of the rotation shaft of the motor 123 to mesh with the rotary gear 122 and to engage the idle gear 125 with the rotary gear 122 on the opposite side of the driving gear 124. Gear fixed excavator with adjustable angle of drilling pipe.