KR100602162B1 - A rock drilling apparatus - Google Patents

Abstract

The present invention relates to a rock drilling device that can be coupled to the excavator to drill holes of a predetermined size in the rock (,), in the most conventional excavator-connected rock drilling device, including the applicant's prior design Because only core tubes are used, only one hole can be drilled at a time. If a core tube or its driving parts breaks, the operation stops until the fault is repaired or replaced with another rock drilling device. In addition, since the position of the core tube cannot be changed while it is connected to the excavator, there is a inconvenience in that it is necessary to adjust the excavator entirely through the core tube when finely adjusting the drilling position. Only a pair of fastening holes spaced apart are formed Since it is possible to connect to an excavator having a fastening interval, there is a problem in that it cannot be used to connect to another excavator, and a plurality of core tube installation spaces are provided between two support plates 11 through one or more vertical partitions 14. (C) divided into (S), the core tube 19 is provided in each core tube installation space (S), and a pair of excavator connection plates in the center part of the upper fixing plate 12 installed in the upper end of both support plates 11 (31) and the excavator fastening holes 32 are formed in the upper both sides of each excavator connecting plate 31, respectively, one fastening hole 32 is formed in the upper one side of each excavator connecting plate 31 and the other According to the present invention, a plurality of fastening holes 32 are formed on the side, and the upper fixing plate 12 is freely installed at the lower end of the pair of excavator connecting plates 31. Work through the holes Since it can be drilled at the same time, the drilling efficiency and workability can be greatly improved, and even if any core tube 19 is broken, the other core tubes 19 can be continuously drilled. In addition, it is possible to be mounted on all the excavators with different fastening intervals, and to change the drilling position and the drilling angle of the core tube 19 without operating the excavator can greatly improve the workability And the like can be obtained.

Description

Rock drilling apparatus

1 is a side view of a state of use of the first embodiment of the present invention

2 is a perspective view of the embodiment

3 is a longitudinal sectional view showing main parts of the embodiment;

4A is a front view of each core tube raised state of the embodiment

4B is a front view of each core tube lowered state of the embodiment

5 is a perspective view of a second embodiment of the present invention;

6 is a front view of each core tube raised state of the same embodiment;

7 is an exploded perspective view of main parts of a third embodiment of the present invention;

8 is a longitudinal sectional view showing main parts of the embodiment;

 <Description of Symbols for Main Parts of Drawings>

100: rock drilling device 200: excavator

11 support plate 12 upper fixing plate

13: lower support plate 14: vertical plate

15: middle fixing plate 16: lifting connector

17: guide rail 18: hydraulic motor

19: core tube 19a: punched bit

21: upper chain sprocket 22: lower chain sprocket

23: lifting chain 24: chain drive hydraulic motor

31: Excavator connecting plate 32: Fastening hole

41: fixed disk 42: connection ring plate

43: ball bearing 44: internal gear plate

44a: Internal gear 45: Hydraulic swing motor

45a: drive shaft 46: drive gear

47: connecting disk 48: swing brake

S: Core tube installation space R: Rock bed

The present invention relates to a rock drilling device that can be coupled to the excavator to drill holes of a certain size in the rock (巖 盤), more specifically, the excavator connecting plate is installed on the upper end of the support plate having a drill bit in the interior of the support frame The core tube is related to the lifting freely installed.

In general, when the excavation work for rock at various construction sites, many people use the Vibrohammer drill, etc. Excavation of rock with the Vibrohammer drill causes severe vibration, dust, and noise. In addition to damage, the work speed is slowed down, resulting in a decrease in work efficiency.

Therefore, a method of drilling a hole of a certain size in a rock and then putting a crusher in the hole to crack the rock has been proposed, and the present invention relates to the use of a rock drilling machine, which is used in such a rock drilling method, in particular to an excavator. .

In the prior art, the rock bancheon plant is provided with a support plate and a top plate at a lower end and an upper end of a pair of support plates having a fastening hole for excavator connection formed in the lower rear as disclosed in Korean Utility Model Publication No. 1996-5390. A pair of guide pillars is installed between the upper plates, and a hydraulic motor is installed on the upper portion of the support cylinder on which the lifting and lowering of the guide pillar is freely installed. There has been proposed a form in which a cylinder connecting the cylinder is provided.

The conventional rock drilling machine is connected to the excavator through the fastening holes provided in the lower rear of both support plates, and then combines the drilling bit in the lower end of the rotary tube while raising the support cylinder and the rotary tube through the cylinder, and rotates with the support cylinder If you lower the tube and contact the drill bit with the surface of the rock, then operate the hydraulic motor to slowly lower the piston rod of the cylinder while rotating the rotary tube and the drill bit, so that you can drill a certain diameter hole in the rock with the drill bit. Conventional rock mill factory as described above, because the cylinder is exposed to the upper part of the top plate is bad appearance and the cylinder is likely to be damaged by external impact, as well as the overall length is long, very uncomfortable to manufacture and handling There was a problem done.

In addition, since the excavator is coupled to the lower rear of the support plate, not only the work stability is greatly degraded, but also it is required to stand vertically when the excavator is detached, transported, or stored. Therefore, unnecessary contact or impact on each exposed part including the cylinder and the hydraulic motor exposed to the outside is required. There are a lot of risks of damage caused by the damage, and there is a risk of serious damage caused by falling by the external impact.

Accordingly, the present applicant is provided with a pair of support plates spaced apart by a predetermined distance, and forms a pair of fastening holes to be connected to the excavator in the upper portion of each support plate, and the upper fixing plate and the inner upper and lower portions of both support plates The intermediate fixing plate and the lower supporting plate are installed, and the elevating connector is freely installed on the pair of guide rails installed between the intermediate fixing plate and the lower supporting plate, and the hydraulic motor is installed at the upper end of the elevating connector. The core tube is connected to the motor by rotating connection. The drilling bit is installed at the bottom of the core tube, and the elevating connector is installed at both ends of the elevating chain installed between the upper chain sprocket installed on the middle fixing plate and the lower chain sprocket installed on the lower support plate. Chain between the upper and middle fixing plates while being connected to the rear top and bottom of the vehicle An upper driving gear of the hydraulic motor proposed by the rock drilling apparatus is connected to a chain sprocket hayeoseo bar (Utility Model Registration No. No. 361 015)

According to the applicant's prior application design, the hydraulic motor, the elevating connector, the core tube, as well as the elevating chain, the chain driving hydraulic motor are embedded between the two support plates, so that the appearance can be improved and the overall size can be reduced. It can be manufactured easily, and can prevent unnecessary contact and external impact on each part, thereby reducing the risk of component damage, improving durability of each part, and greatly extending its lifespan. You will get the effect.

In addition, by laying the whole in the horizontal direction through the support protrusions of both support plates can be removed, transported and stored more safely and conveniently, and because the excavator is coupled to the upper portion of both support plates compared to the conventional excavator is coupled to the lower rear of the support plate More stable drilling can be performed, and because the lifting cylinder installed at the upper part of the lifting connector is not used, the vertical length can be shortened, and the length of the core tube and the drilling length can be increased. You can get it.

However, in most conventional excavator-connected rock drilling apparatus, including the applicant's prior application design, only one core tube is used so that only one hole can be drilled at a time, and the core tube or the driving component for driving the same When this failure occurred, there was a problem that the work must be stopped until the failure was repaired or replaced with another rock drilling device.

In addition, the conventional rock mill factory can not change the position of the core tube in the state connected to the excavator, there is a inconvenience to move through the core tube by adjusting the excavator entirely when finely adjusting the drilling position, each support plate at a certain interval Since only a pair of fastening holes spaced apart are formed so as to be connected to an excavator having a predetermined fastening interval, there is a problem in that the fastening interval cannot be connected to another excavator.

The present invention has been devised in view of the above-described conventional situation, and an object thereof is to provide a rock mill plant that allows a plurality of holes to be drilled at the same time, and another object thereof is without adjusting an excavator. The purpose of the present invention is to provide a rock drilling plant that can be used in other excavators as well as to adjust the drilling position within a certain range.

In order to achieve the above object, the present invention provides a plurality of core tube installation spaces in both support plates by installing at least one vertical plate between a pair of support plates, and provides a core tube in each core tube installation space. Installing rotatably and lifting; A pair of excavator connecting plates is installed in the center of the upper fixing plate installed at the upper ends of both supporting plates, and excavator coupling holes are formed on both sides of the upper part of each excavator connecting plate, but one coupling hole is formed on the upper one side of each excavator connecting plate. And forming a plurality of fastening holes on the other side of the upper part; And it is characterized in that the upper fixing plate is freely installed on the lower end of the pair of excavator connecting plate, etc. Hereinafter, the specific technical details will be described in more detail based on the accompanying drawings.

That is, the first embodiment of the present invention is shown in Figures 1 to 4b, and the second embodiment of the present invention is shown in Figures 5 and 6, the present invention is connected to the excavator 200 and the left and right directions In the construction of the rock drilling device 100 to be able to drill a predetermined diameter hole in the rock (R) through the drilling bit (19a) of the core tube 19 to move up and down, a pair of spaced apart a certain distance The upper fixing plate 12 and the lower support plate 13 are installed on the upper and lower ends of the support plate 11, and at least one vertical plate 14 is installed between the both support plates 11 so that both of the support plates 11 can be installed. A plurality of core tube installation spaces S are provided therebetween, and an intermediate fixing plate 15 is installed on the inner upper portion of each core tube installation space S, and between each intermediate fixing plate 15 and the lower support plate 13. To install a pair of guide rails 17 on which the elevating connector 16 is installed. The hydraulic motor 18 is installed at the upper end of each elevating connector 16, and the core tube 19 rotatably connected to the hydraulic motor 18 is installed at the lower end of each elevating connector 16. The upper chain sprocket 21 and the lower chain sprocket 22 are installed in the middle fixing plate 15 and the lower support plate 13 of the installation space S, and both chain sprockets 21 of each core tube installation space S are installed. Both ends of the elevating chain 23, which are fitted between the two, are connected to the rear upper and lower ends of each elevating connector 16, and the chain driving hydraulic motor 24 provided on the upper end of each intermediate fixing plate 15 is mounted. It is connected to each upper chain sprocket 21, and a pair of excavator connecting plates 31 are provided in the center of the upper fixing plate 12, and excavator fastening holes 32 are respectively provided on both upper sides of each excavator connecting plate 31. It is by forming a.

In the first embodiment of the present invention shown in Figures 1 to 4b using three vertical plates 14 to provide three core tube installation space (S) between the two support plates 11 and three core tubes By mounting 19, it is possible to drill up to three holes in one drilling operation, and the second embodiment of the present invention installed in FIGS. 5 and 6 provides one vertical plate 14 By using two core tube installation space (S) between the two support plates 11 and by mounting the two core tube (19) bar having a shape that can be punched up to two holes in one drilling operation In the present invention, the number of installation of the vertical plate 14 and the number of core tube installation are not limited, and of course, may be increased than the illustrated embodiments.

The first and second embodiments can connect the rock drilling device 100 of the present invention to an excavator 200 having a fastening interval of a predetermined interval, as well as an excavator 200 having a smaller or larger fastening interval. One fastening hole 32 is formed on one upper side of each excavator connecting plate 31 and a plurality of fastening holes 32 are formed on the other upper side thereof.

7 and 8 show a third embodiment of the present invention. In the third embodiment, a pair of excavator connecting plates 31 are installed on the upper end of the fixed disk 41, and the fixed disk 41 Fixedly installed at the lower end of the coupling ring plate 42, the internal gear plate 44 is freely rotated via a ball bearing 43 on the inner circumferential surface of the connecting ring plate 42, and fixed to the upper fixing plate 12 The connecting disk 47 is fixed to the lower end of the internal gearing plate 44, the hydraulic swing motor 45 is fixed to the upper end side of the fixed disk 41, the drive shaft 45a of the hydraulic swing motor 45 ) Is connected to the internal gear 44a of the internal gearing plate 44 so that the excavator connecting plate 31 is fixed and the drive shaft 45a of the hydraulic swing motor 45 is centered. The upper fixing plate 12 and both support plates 11, each of the core tube 19 and the like to be able to rotate in the left and right directions.

In the third embodiment, the hydraulic swing motor 45 may be equipped with a swing brake 48 to stably rotate the drive gear 46 and to maintain the adjusted rotation angle stably. And, reference numeral 11a of the reference numerals lay the rock drilling device 100 on the bottom surface by a predetermined slope to securely land, the support protrusion, 13a is a core tube passing groove, 13b is a landing protrusion.

The rock drilling device 100 of the present invention configured as described above can be transported and stored by laying a predetermined slope on the bottom surface by landing the lower end of the supporting protrusions 11a and the rear lower end of the lower supporting plate 13 of both support plates 11. In the storage state, the excavator 200 is coupled to each other through a pair of fastening holes 32 formed in the pair of excavator connecting plates 31, and the support plate 11 and the core tube 19 and the like as shown in FIG. In the state where the lower support plate 13 is placed on the surface of the rock (R), the hydraulic motors 18 are operated to rotate the core tubes 19, and the respective chain drive hydraulic motors 24 are rotated in one direction. Rotating down the elevating connector 16 and the core tube 19 connected to each lifting chain 23 by rotating the rock through the drill bit (19a) mounted on the lower end of each core tube 19 as shown in Figure 4b ( A hole with a certain diameter can be drilled in R), and the drilling of the rock R is completed. There it is possible to crack the rock (R) when operating In a separate crusher in each hole.

In the present invention, by operating a plurality of core tube 19 at the same time to be able to drill several holes at once, as well as in some cases by operating only one core tube 19 can be punched one by one, accordingly Even if any one of the core tubes 19 is broken, the drilling operation can be continued.

Meanwhile, in the present invention, when the upper fixing plate 12 is pivotally connected to the lower part of the excavator connecting plate 31 as in the third embodiment of FIGS. 7 and 8, the driving shaft 45a of the hydraulic swing motor 45 is centered. Since the upper fixing plate 12 and both support plates 11, each core tube 19, etc. supported thereon can be rotated in the horizontal direction, the excavator connecting plate 31 is fixed even if the excavator 200 is not adjusted. In the core tube 19, the drilling position and the drilling angle can be freely adjusted.

In addition, in the present invention, since one fastening hole 32 is formed at one upper side of each excavator connecting plate 31 and a plurality of fastening holes 32 are formed at the other upper side, a plurality of excavators 200 having different fastening intervals. The rock drilling device 100 can be connected in common.

As described above, the present invention divides the support plate 11 into a plurality of core tube installation spaces S through one or more vertical partitions 14, and core tubes in each core tube installation space S. In this case, according to the present invention, it is possible to simultaneously drill several holes through a single drilling operation, thereby greatly improving drilling efficiency and workability, as well as any one core tube 19. Even if it breaks down, it is possible to obtain the effect of continuing the drilling operation with the remaining core tube (19), and also can be mounted on all the excavators with different fastening intervals, without having to operate the core tube ( Since the punching position and punching angle of 19) can be changed, the workability can be greatly improved, and the like can be obtained.

Claims (4)

In order to be able to drill a predetermined diameter hole in the rock R through the drill bit 19a of the core tube 19 which is connected to the excavator 200 and rotates in the horizontal direction, the pair is spaced apart by a certain distance. The upper fixing plate 12 and the lower support plate 13 is installed on the top and bottom of the support plate 11 of the support plate 11 by installing at least one or more vertical plate 14 between the support plate (11) A plurality of core tube installation spaces (S) is provided between the middle of the core tube installation space (S), the middle fixing plate 15 is installed on each of the middle fixing plate (15) and the lower support plate (13) The lifting connector 16 is provided with a pair of guide rails 17 to be freely lifted, the hydraulic motor 18 is installed on the upper end of each lifting connector 16 at the same time the lower end of each lifting connector 16 A core tube 19 rotatably connected to the hydraulic motor 18 is installed in each core. The upper chain sprocket 21 and the lower chain sprocket 22 are installed in the middle fixing plate 15 and the lower support plate 13 of the groove mounting space S, and both chain sprockets 21 of each core tube installation space S are installed. Chain drive hydraulic motor 24 having both ends of the elevating chain 23 installed between the upper and lower ends of each elevating connector 16 at the same time is installed on the upper end of each intermediate fixing plate 15. Is connected to each upper chain sprocket 21, and a pair of excavator connecting plates 31 are provided at the center of the upper fixing plate 12, and excavator fastening holes 32 are respectively provided at both upper sides of each excavator connecting plate 31. Rock drilling device, characterized in that formed). According to claim 1, a pair of excavator connecting plate 31 is installed on the upper end of the stationary disk 41, the connection ring plate 42 is fixedly installed on the lower end of the stationary disk 41, the connection ring plate 42 The inner circumferential surface of the internal gear plate through the ball bearing 43 is installed freely rotatable 44, and the connecting disk 47 is fixed to the upper fixing plate 12 fixed to the lower end of the internal gear plate 44 , The hydraulic swing motor 45 is fixedly installed on the upper end side of the fixed disk 41, and the drive gear 46 connected to the drive shaft 45a of the hydraulic swing motor 45 is inscribed with the internal gear plate 44. The upper fixing plate 12, the both support plates 11, and the core tubes 19 around the drive shaft 45a of the hydraulic swing motor 45 while the excavator connecting plate 31 is fixed by connecting to the gear 44a. Rock drilling device, characterized in that to rotate the back in the left and right directions. The swing brake 48 is mounted on the hydraulic swing motor 45 to stably rotate the drive gear 46, and to maintain the adjusted rotation angle stably. Rock drilling device. The rock drilling device 100 according to any one of claims 1 to 3, wherein the excavator 200 having a predetermined interval is fastened as well as the excavator 200 having a smaller or larger engagement interval. Rock drilling device, characterized in that one fastening hole (32) is formed on the upper side of each excavator connecting plate (31) so as to connect the plurality of fastening holes (32) on the other side.

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