1. A mountain rock cutting apparatus comprising a body having a working side towards the rock, further comprising:

the fixing unit is used for fixing the machine body and rocks, and a working space is enclosed between the working side and the rocks by the fixing unit;

the inner processing unit is used for cutting and processing the interior of a rock, a containing cavity is formed in the working side of the inner processing unit, the inner processing unit is arranged in the containing cavity, and the inner processing unit has a working state extending into the working space and a storage state stored in the containing cavity;

the outer machining unit is used for cutting and machining the surface of rock and arranged on the machine body, the outer machining unit can move relative to the machine body to be provided with a first position located in the working space and a second position located outside the working space, and when the outer machining unit moves to the first position, the projection of a working area of the outer machining unit towards the working side covers the inner machining unit; and

and the driving unit is used for driving the mountain rock cutting device to operate.

2. The mountain rock cutting apparatus of claim 1,

the external machining unit comprises a workpiece and a transmission part connected with the workpiece, the transmission part is provided with a first movement direction along the vertical direction, a second movement direction along the horizontal direction and close to or far away from the working side direction, and a third movement direction along the horizontal direction and perpendicular to the second movement direction, the first movement direction, the second movement direction and the third movement direction are perpendicular to each other, and the transmission part at least has freedom degrees along the first movement direction, the second movement direction and the third movement direction.

3. The mountain rock cutting apparatus of claim 2,

the driving medium includes along the first telescopic link that first direction of motion set up, follows the second telescopic link that the second direction of motion set up, and follow the third telescopic link that the third direction of motion set up, first telescopic link the second telescopic link with the third telescopic link rotates and connects.

4. The mountain rock cutting apparatus of claim 2,

the workpiece comprises a cutting tool; and/or the workpiece comprises a first cutting water gun.

5. The mountain rock cutting apparatus of claim 1,

interior processing unit including connect in the extensible member of fuselage, and set up in the second cutting squirt of extensible member one end, the second cutting squirt is provided with axial water jet and radial water jet, interior processing unit still including set up in the shielding piece of second cutting squirt, shielding piece can drive unit's drive down for the motion of second cutting squirt, in order to seal the axial water jet with one in the radial water jet.

6. Mountain rock cutting apparatus according to claim 5,

the second cutting squirt is provided with first connection cambered surface, the extensible member is provided with the second and connects the cambered surface, first connection cambered surface cladding the cambered surface is connected to the second at least part region, so that the second cutting squirt can for the extensible member deflects.

7. The mountain rock cutting apparatus of claim 1,

the fixed unit comprises a first fixing piece and a second fixing piece, the first fixing piece comprises a fixed drill bit arranged on the working side, the second fixing piece comprises a transmission part connected with the machine body and an adsorption part fixedly connected with the transmission part, and the transmission part can drive the adsorption part to move so that the position of the adsorption part is adjustable.

8. The mountain rock cutting apparatus of claim 7,

the fuselage is provided with the direction slide rail, transmission portion is provided with the slider, the slider with the cooperation of direction slide rail, and follow the direction slide rail removes, the one end that the direction slide rail is close to the rock is provided with the backstop arch, the backstop arch with slider backstop cooperation, in order to prevent the slider with the direction slide rail breaks away from.

9. The mountain rock cutting apparatus of claim 1,

the cutting device further comprises a base arranged below the machine body, the base is provided with a jacking device, and the jacking device abuts against the machine body so that the machine body can move up and down along the vertical direction.

10. The mountain rock cutting apparatus of claim 9,

the base is internally provided with a scroll and a drainage piece, and the drainage piece has a first state of being wound on the scroll and a second state of being stretched out to the working side;

the drainage piece is in under the second state, interior processing unit the work area of outer processing unit is located at the projection of horizontal direction the drainage piece, the drainage piece have with the fixed end of rock, and with the drainage end that the stiff end is relative, the outlet has been seted up to the base, so that the fluid via of drainage end the outlet is discharged.

Background

The use of rocks is of great significance in human evolution, and with the development of society, rocks are now used in many aspects of human life, for example, in building buildings using rocks as building materials, processing rocks into artware, and the like, and when environmental geology is examined, the rocks also need to be detected.

Rock is usually mined from mountains in the field, and rock is a solid mass composed of one or more minerals and natural glass, having a stable shape, and thus being hard in texture.

The mode such as broken excavation, manual mining is adopted usually to current rock mining cutting mode, often needs the staff to accompany the operation when carrying out cutting work, and open-air environment is complicated changeable, and the massif of exploitation rock is comparatively precipitous usually, and manpower control device exploits extremely inconveniently, and work load and the work degree of difficulty are great, and at the in-process to the rock cutting, can splash the piece of many rocks, further influence staff's operation.

In addition, in cutting mining, it is sometimes necessary to machine and cut the interior of the rock, and although cutting is performed by using a cutting device, it is still necessary to frequently adjust the position, posture, cutting angle, and the like of the device by hand in order to meet different cutting requirements. Therefore, during the whole cutting process, frequent manual intervention is required, which undoubtedly increases the labor of the workers and affects the cutting efficiency.

Disclosure of Invention

The application provides a massif rock cutting device to reduce artifical participation among the open-air rock exploitation process, realize automatic cutting exploitation.

The technical scheme adopted by the application is as follows:

the mountain rock cutting device comprises a machine body and a fixing unit, wherein the machine body is provided with a working side facing rocks, the fixing unit is used for fixing the machine body and the rocks, and a working space is defined by the fixing unit between the working side and the rocks; the inner processing unit is used for cutting and processing the interior of a rock, a containing cavity is formed in the working side of the inner processing unit, the inner processing unit is arranged in the containing cavity, and the inner processing unit has a working state extending into the working space and a storage state stored in the containing cavity; the outer machining unit is used for cutting and machining the surface of rock and arranged on the machine body, the outer machining unit can move relative to the machine body to be provided with a first position located in the working space and a second position located outside the working space, and when the outer machining unit moves to the first position, the projection of a working area of the outer machining unit towards the working side covers the inner machining unit; and the driving unit is used for driving the mountain rock cutting device to operate.

The external machining unit comprises a workpiece and a transmission part connected with the workpiece, the transmission part is provided with a first movement direction along the vertical direction, a second movement direction along the horizontal direction and close to or far away from the working side direction, and a third movement direction along the horizontal direction and perpendicular to the second movement direction, the first movement direction, the second movement direction and the third movement direction are perpendicular to each other, and the transmission part at least has freedom degrees along the first movement direction, the second movement direction and the third movement direction.

The driving medium includes along the first telescopic link that first direction of motion set up, follows the second telescopic link that the second direction of motion set up, and follow the third telescopic link that the third direction of motion set up, first telescopic link the second telescopic link with the third telescopic link rotates and connects.

The workpiece comprises a cutting tool; and/or the workpiece comprises a first cutting water gun.

Interior processing unit including connect in the extensible member of fuselage, and set up in the second cutting squirt of extensible member one end, the second cutting squirt is provided with axial water jet and radial water jet, interior processing unit still including set up in the shielding piece of second cutting squirt, shielding piece can drive unit's drive down for the motion of second cutting squirt, in order to seal the axial water jet with one in the radial water jet.

The second cutting squirt is provided with first connection cambered surface, the extensible member is provided with the second and connects the cambered surface, first connection cambered surface cladding the cambered surface is connected to the second at least part region, so that the second cutting squirt can for the extensible member deflects.

The fixed unit comprises a first fixing piece and a second fixing piece, the first fixing piece comprises a fixed drill bit arranged on the working side, the second fixing piece comprises a transmission part connected with the machine body and an adsorption part fixedly connected with the transmission part, and the transmission part can drive the adsorption part to move so that the position of the adsorption part is adjustable.

The fuselage is provided with the direction slide rail, transmission portion is provided with the slider, the slider with the cooperation of direction slide rail, and follow the direction slide rail removes, the one end that the direction slide rail is close to the rock is provided with the backstop arch, the backstop arch with slider backstop cooperation, in order to prevent the slider with the direction slide rail breaks away from.

The cutting device further comprises a base arranged below the machine body, the base is provided with a jacking device, and the jacking device abuts against the machine body so that the machine body can move up and down along the vertical direction.

The base is internally provided with a scroll and a drainage piece, and the drainage piece has a first state of being wound on the scroll and a second state of being stretched out to the working side; the drainage piece is in under the second state, interior processing unit the work area of outer processing unit is located at the projection of horizontal direction the drainage piece, the drainage piece have with the fixed end of rock, and with the drainage end that the stiff end is relative, the outlet has been seted up to the base, so that the fluid via of drainage end the outlet is discharged.

Due to the adoption of the technical scheme, the beneficial effects obtained by the application are as follows:

1. the utility model provides a cutting device has interior processing unit with outer processing unit, outer processing unit is used for cutting process to the rock surface, interior processing unit is used for the inside cutting process to the rock to satisfy the different demands to the inside and outside processing of rock simultaneously, make cutting device's function is more integrated, improves the open-air suitability of device, and then improve and use experience.

In addition, utilize fixed unit will fuselage and rock are fixed the back, outer processing unit with interior processing unit can move in proper order extremely in the working area, outer processing unit removes to first position department carries out the processing of breaing a hole on the rock surface, just the working area orientation of outer processing unit the projection of working side covers interior processing unit makes after outer processing unit breaks a hole and finishes, need not to adjust again the position of fuselage or each part, interior processing unit can directly move to the hole in, carries out cutting process to the inside of rock. After the cutting device is fixed once, the cutting device can automatically complete cutting work (including cutting on the surface and the inside of a rock), and the position of the whole cutting device is not required to be adjusted manually in the cutting process, so that the participation of personnel in the cutting process is reduced, the personnel are prevented from frequently entering a cutting and mining field, the labor intensity of the personnel is reduced, and the cutting efficiency is improved.

2. As a preferred embodiment of the present application, the external machining unit includes a workpiece and a transmission member connected to the workpiece, the transmission member has a first moving direction along a vertical direction, a second moving direction along a horizontal direction and close to or away from the working side direction, and a third moving direction along a horizontal direction and perpendicular to the second moving direction, the first moving direction, the second moving direction, and the third moving direction are perpendicular to each other, and the transmission member has at least a degree of freedom along the first moving direction, the second moving direction, and the third moving direction. The driving medium has the degree of freedom of three directions at least, has improved the flexibility of machined part, consequently when the assembly, outer processing unit can install with interior processing unit position department far away (for example outer processing unit with interior processing unit sets up respectively in two sides of fuselage), and then increase interior processing unit with the workspace of outer processing unit makes it mutual noninterference, avoids interior processing unit with outer processing unit distance is too near to lead to the two to take place to interfere in the course of the work, causes the damage.

Further, the workpiece comprises a cutting tool and a first cutting water gun. So that the user can select different cutting tools according to the type of rock, obtain better cutting effect, and reduce cutting device improves environment adaptability to operational environment's requirement.

3. As a preferred embodiment of this application, interior processing unit including connect in the extensible member of fuselage, and set up in the second cutting squirt of extensible member one end, the second cutting squirt is provided with axial water jet and radial water jet, interior processing unit still including set up in the shielding piece of second cutting squirt, the shielding piece can for the second cutting squirt moves, in order to seal the axial water jet with one in the radial water jet. In the cutting process, different cutting modes are required to be switched frequently, the second cutting water gun is provided with the axial water spray ports and the radial water spray ports, so that the second cutting water gun is provided with a common cutting mode in which the axial water spray ports are conducted, and a surrounding cutting mode in which the radial water spray ports are conducted, a user can conduct the axial water spray ports and the radial water spray ports alternatively as required, the cutting mode of the second cutting water gun is conveniently switched without replacing a water gun spray head, and the cutting efficiency is improved.

4. As a preferred embodiment of this application, fixed unit includes first mounting and second mounting, first mounting including set up in the fixed drill bit of working side, the second mounting include with the transmission portion that the fuselage is connected and with the absorption portion that the transmission portion linked firmly, the transmission portion can drive the absorption portion motion, so that the position of absorption portion is adjustable. The kind of rock is complicated various, and the hardness difference of different kinds of rock is great, fixed unit includes two fixed parts to realize fixed mode different, the user can select suitable fixed mode according to on-the-spot rock performance, for example when the rock hardness is less, can adopt fixed drill bit is fixed, when the rock hardness is great, fixed drill bit is difficult to bore into the rock inside, accessible this moment the absorption portion will fuselage and rock absorption are fixed, improve cutting device's suitability, adapt to different rock kinds and field environment.

5. As a preferred embodiment of the present application, a reel and a drainage member are further disposed in the base, the drainage member has a first state of being wound around the reel and a second state of being extended to the working side, and projections of working areas of the inner processing unit and the outer processing unit in a horizontal direction are located on the drainage member; the drainage piece is in under the second state, the drainage piece have with rock fixed stiff end, and with the drainage end that the stiff end is relative, the outlet has been seted up to the base, so that the fluid via of drainage end the outlet is discharged. When using the squirt to cut, can produce a large amount of waste water in the cutting process, these waste water mixes there is a large amount of silt, discharges at will and then can cause the pollution of environment and water to the field, and this application is through setting up the drainage piece collects the drainage to the waste water that the cutting produced, through the outlet discharges or collects to appointed position, reduces the destruction to external environment as far as possible.

Drawings

The accompanying drawings, which are included to provide a further understanding of the application and are incorporated in and constitute a part of this application, illustrate embodiment(s) of the application and together with the description serve to explain the application and not to limit the application. In the drawings:

fig. 1 is a schematic structural view of the mountain rock cutting apparatus according to an embodiment of the present application, wherein the inner processing unit is in the storage state and the outer processing unit is in the second position;

FIG. 2 is a schematic structural view of the external processing unit according to an embodiment of the present application;

FIG. 3 is a schematic structural view of the external processing unit according to another embodiment of the present application;

FIG. 4 is a schematic structural view of the inner processing unit according to an embodiment of the present application;

FIG. 5 is a schematic view of the construction of the shield according to one embodiment of the present application;

FIG. 6 is a schematic structural view of the fixing unit shown in FIG. 1;

FIG. 7 is a schematic structural diagram of the jacking device according to an embodiment of the present application;

FIG. 8 is a schematic diagram of the operation of the jacking device according to an embodiment of the present application;

fig. 9 is a schematic structural view of the drainage member according to an embodiment of the present application.

Wherein:

1, a machine body; 11 a working side; 12, a cavity; 13 an accommodating cavity; 14 baffle plates; 15 guiding the sliding rail; 151 stop boss; 16 water discharge ports;

2 a fixing unit; 21 a first fixed part; 22 a second fixed part; 221 an adsorption part; 222 a transmission part; 223 a slide block;

3 an inner processing unit; 31 a second cutting squirt gun; 311 axial water jet; 312 radial water jets; 313 rotating the bearing; 314 first connection arc surface; 32 telescoping members; 321 second connection arc surface; 33 a shield; 331 a rotating shaft; 332 a first port; 333 a second port; 334 axial baffles; 335 a circumferential baffle; 336 baffle plate;

4 an external processing unit; 41 a workpiece; 411 a cutting tool; 412 a first cutting squirt gun; 4121 a first water jet; 4122 a second water jet; 42 a transmission member; 421 a first telescopic rod; 422 a second telescopic rod; 423 a third telescopic rod;

5 a mobile unit;

6, a base;

7, jacking devices; 71 a drive rod; 72 drive bevel gears; 73 a driven bevel gear; a 74 screw; 75, jacking the platform;

8, a reel;

9 a drainage member; 91 fixed end; 92 drain end.

Detailed Description

In order to more clearly explain the overall concept of the present application, the following detailed description is given by way of example in conjunction with the accompanying drawings.

In the following description, numerous specific details are set forth in order to provide a thorough understanding of the present application, however, the present application may be practiced in other ways than those described herein, and therefore the scope of the present application is not limited by the specific embodiments disclosed below.

In addition, in the description of the present application, it is to be understood that the terms "top," "bottom," "inner," "outer," "axial," "radial," "circumferential," and the like are used in the positional or orientational relationship shown in the drawings for the purpose of convenience and simplicity of description, and are not intended to indicate or imply that the referenced device or element must have a particular orientation, be constructed and operated in a particular orientation, and are therefore not to be considered limiting of the present invention.

In this application, unless expressly stated or limited otherwise, the terms "mounted," "connected," "secured," and the like are to be construed broadly and can include, for example, fixed connections, removable connections, or integral parts; the connection can be mechanical connection, electrical connection or communication; either directly or indirectly through intervening media, either internally or in any other relationship. The specific meanings of the above terms in the present invention can be understood by those skilled in the art according to specific situations.

In this application, unless expressly stated or limited otherwise, the first feature "on" or "under" the second feature may be directly contacting the first and second features or indirectly contacting the first and second features through intervening media. In the description herein, reference to the terms "implementation," "embodiment," "one embodiment," "example" or "specific example" or the like means that a particular feature, structure, material, or characteristic described in connection with the embodiment or example is included in at least one embodiment or example of the application. In this specification, the schematic representations of the terms used above are not necessarily intended to refer to the same embodiment or example. Furthermore, the particular features, structures, materials, or characteristics described may be combined in any suitable manner in any one or more embodiments or examples.

As shown in fig. 1-9, a mountain rock cutting device comprises a machine body 1, wherein the machine body 1 is provided with a working side 11 facing a rock, and further comprises a fixing unit 2, the fixing unit 2 is used for fixing the machine body 1 with the rock, and the fixing unit 2 encloses a working space between the working side 11 and the rock; the inner processing unit 3 is used for cutting and processing the interior of a rock, a containing cavity 12 is formed in the working side 11, the inner processing unit 3 is arranged in the containing cavity 12, and the inner processing unit 3 has a working state extending into the working space and a storage state stored in the containing cavity 12; an outer machining unit 4, the outer machining unit 4 being configured to cut a surface of a rock, the outer machining unit 4 being disposed on the machine body 1, the outer machining unit 4 being movable relative to the machine body 1 to have a first position within the working space, and a second position outside the working space, a projection of a working area of the outer machining unit 4 toward the working side 11 covering the inner machining unit 3 when the outer machining unit 4 is in the first position; and the driving unit is used for driving the mountain rock cutting device to operate.

This application cutting device has interior processing unit 3 with outer processing unit 4, outer processing unit 4 is used for cutting process to the rock surface, interior processing unit 3 is used for cutting process to the inside of rock to satisfy the different demands to the inside and outside processing of rock simultaneously, make cutting device's function is more integrated, improves cutting device's open-air suitability, and then improve and use experience.

Interior processing unit 3 with the operation of outer processing unit 4 alternative, work as when outer processing unit 4 starts the operation, interior processing unit 3 accomodates extremely in holding the chamber 12, it is right outer processing unit 4 dodges, outer processing unit 4 can free motion in the working space to obtain better cutting gesture and cutting angle etc. avoid interior processing unit 3 with outer processing unit 4 takes place to interfere, causes the damage. The cavity 12 also protects the inner processing unit 3, and avoids the broken stones generated by cutting from colliding with the inner processing unit 3 to cause abrasion or damage to the inner processing unit 3.

In addition, after the machine body 1 is fixed with the rock by the fixing unit 2, the outer processing unit 4 and the inner processing unit 3 can move into the working area in sequence to cut the rock, and when one of the outer processing unit 4 and the inner processing unit 3 works, the other one is outside the working space to avoid. The outer machining unit 4 moves to the first position to perform hole breaking machining on the surface of the rock, and the projection of the working area of the outer machining unit 4 towards the working side 11 covers the inner machining unit 3, so that after the hole breaking of the outer machining unit 4 is completed, the position of the machine body 1 or each part does not need to be adjusted again, and the inner machining unit 3 can directly move into the hole to perform cutting machining on the interior of the rock. After the cutting device is fixed once, the cutting device can automatically complete cutting work (including cutting on the surface and the inside of a rock), and the position of the whole cutting device is not required to be adjusted manually in the cutting process, so that the participation of personnel in the cutting process is reduced, the personnel are prevented from frequently entering a cutting and mining field, the labor intensity of the personnel is reduced, and the cutting efficiency is improved.

It should be noted that the term "working area of the outer processing unit 4" herein refers to an area of a hole formed in the rock surface by the outer processing unit 4, and a projection of the hole toward the working side 11 covers the inner processing unit 3, that is, the inner processing unit 3 can extend into the hole only by performing horizontal extension, and thus the interior of the rock can be cut. And then make interior processing unit need not to set up complicated motion, realizes complicated motion path, has simplified interior processing unit 3's structure, has improved interior processing unit 3 with the cooperation degree of outer processing unit 4 has guaranteed the precision of cutting, improves cutting efficiency.

This application is right the area of the work area of outer processing unit 4 does not specifically limit, as preferred, the work area orientation of outer processing unit 4 the projection of working side 11 is greater than the work area of interior processing unit 3, in order to ensure interior processing unit 3 can stretch into to in the hole of outer processing unit 4 processing, carry out inside processing, avoid because the error leads to interior processing unit 3 can't aim at with the entrance to a cave. Of course, the projection of the working area of the outer machining unit 4 towards the working side 11 may also be equal to the working area of the inner machining unit 3 to reduce the opening in the rock surface and ensure the integrity of the rock surface.

The driving unit realizes remote control of a user, adjusts the cutting states of the inner processing unit 3 and the outer processing unit 4 and changes the positions by controlling the driving unit, does not need to enter a cutting site, reduces the times of workers entering the cutting site, and reduces the labor amount.

It should be noted that the application is not limited to the usage of the cutting device, for example, when there is a hole on the rock surface to be processed by internal cutting, before the usage, the worker can directly align the internal processing unit 3 with the hole, and directly operate the internal processing unit 3 to process and cut the interior of the rock without using the external processing unit 4. When the rock surface needing internal cutting machining has no hole, the external machining unit 4 needs to be operated firstly, and after the hole which can be extended into the internal machining unit 3 is machined on the rock surface, the internal machining unit 3 is operated to machine and cut the interior of the rock. For another example, when the inner processing unit 3 is not required to be operated, the outer processing unit 4 is only operated to perform the cutting processing on the rock surface, and the inner processing unit 3 is not required to be operated.

Preferably, as shown in fig. 1, the cutting device is further provided with a moving unit 5, the driving unit is electrically connected with the moving unit 5 and controls the moving unit 5 to move, so that a user can conveniently control the cutting device to reach a cutting site without manual accompanying, for example, in an environment with a narrow space, a worker can only control the cutting device to enter, and the environmental adaptability of the cutting device is improved.

As a preferred embodiment of the present application, as shown in fig. 2 to 3, the external processing unit 4 includes a workpiece 41 and a transmission member 42 connected to the workpiece 41, the transmission member 42 has a first moving direction along a vertical direction, a second moving direction along a direction horizontally approaching or departing from the working side 11, and a third moving direction along a direction horizontally perpendicular to the second moving direction, the first moving direction, the second moving direction, and the third moving direction are perpendicular to each other, and the transmission member 42 has at least a degree of freedom along the first moving direction, the second moving direction, and the third moving direction.

The transmission part 42 has at least three-directional freedom degrees, so that the flexibility of the workpiece 41 is improved, and therefore, during assembly, the outer processing unit 4 can be installed at a position far away from the inner processing unit 3, so that the working space of the inner processing unit 3 and the working space of the outer processing unit 4 are increased, the inner processing unit 3 and the outer processing unit 4 are not affected by each other, and the phenomenon that the inner processing unit 3 and the outer processing unit 4 are interfered with each other in the working process due to too close distance is avoided, and damage is caused.

In a specific embodiment, as shown in fig. 1, the inner processing unit 3 is disposed on the working side 11 of the machine body 1, and the outer processing unit 4 is disposed on a side surface of the machine body 1 perpendicular to the working side 11, so that when the outer processing unit 4 is accommodated, the outer processing unit is located outside the working space, and a sufficient space is left for the movement of the inner processing unit 3, so that the inner processing unit 3 can adjust different cutting angles as required, and the interference between the inner processing unit 3 and the outer processing unit 4 is avoided.

Further, as shown in fig. 2, the transmission member 42 includes a first telescopic rod 421 disposed along the first moving direction, a second telescopic rod 422 disposed along the second moving direction, and a third telescopic rod 423 disposed along the third moving direction, and the first telescopic rod 421, the second telescopic rod 422, and the third telescopic rod 423 are rotatably connected.

Through flexible and pivoted mode, make the motion of machined part 41 is convenient operation more, and transmission simple structure, consequently help reducing the whole volume of outer processing unit 4, and then help the complete machine to miniaturize, just the whole weight of driving medium 42 is lighter, and when driving medium 42 extends, the arm of force increases, the driving medium 42 with the atress of the junction of fuselage 1 is less, avoids driving medium 42 with the connection of fuselage 1 is lost efficacy, driving medium 42 with fuselage 1 fracture.

Of course, the transmission member 42 may have other structures to implement different movement manners of the workpiece 41, for example, the transmission member 42 is provided with guide rails along the first movement direction, the second movement direction and the third movement direction, and the workpiece 41 can move along the guide rails respectively, and the like, which is not limited herein.

The structure of the workpiece 41 is not particularly limited in this embodiment, and includes, but is not limited to, the following examples:

example 1: in the present embodiment, as shown in fig. 2, the workpiece 41 includes a cutting tool 411. In this embodiment, the type of the cutting tool 411 is not specifically limited, for example, the cutting tool 411 may be a drill shown in fig. 2, or may be another type, such as a saw blade. The rock cutting machine has the advantages of simple structure, low cost and easiness in operation by cutting the rock through the mechanical cutter.

Example 2: in the present embodiment, as shown in fig. 3, the workpiece 41 includes a first cutting gun 412. Utilize the squirt to carry out the water cutting to the rock, reduce discarded object such as the rock powder that produces in the course of working, reduce pollution and the rubble to the environment splash with fuselage 1 and individual part collide, cause the damage, just the posture adjustment of first cutting squirt 412 is more nimble, conveniently carries out the cutting of different angles.

Example 3: as a preferred embodiment, as shown in fig. 1, the workpiece 41 includes a cutting tool 411 and a first cutting gun 412.

The kind of rock is complicated various, and the hardness difference of different kinds of rocks is great, and the user can select different cutting means according to the kind and the hardness of the rock on scene, obtains better cutting effect, and reduces cutting device improves environment adaptability to operational environment's requirement.

Further, as shown in fig. 1, the cutting tool 411 and the first cutting water gun 412 are respectively disposed at two sides of the body 1, so that the two are in a large space during movement, do not interfere with each other, and are balanced with the weight at two sides of the body 1, thereby preventing the body 1 from being inclined due to the excessive weight at one side of the body 1.

Preferably, the first cutting water gun 412 is connected to the transmission member 42 by a ball joint, so as to improve flexibility of the first cutting water gun 412 and enable the first cutting water gun 412 to swing around the transmission member 42. In addition, as shown in fig. 3, the first cutting water gun 412 has a first water jet 4121 and a second water jet 4122, the first water jet 4121 is disposed toward an axial direction of the first cutting water gun 412, the second water jet 4122 is disposed toward a radial direction of the first cutting water gun 412, and the first water jet 4121 and the second water jet 4122 are alternatively conducted to enable the first cutting water gun 412 to have a normal cutting mode in which the first water jet 4121 sprays water and a surrounding cutting mode in which the second water jet 4122 sprays water and the first cutting water gun 412 rotates around its axis, so as to adapt to different cutting.

As a preferred embodiment of the present application, as shown in fig. 4 to 5, the internal processing unit includes 3 a telescopic member 32 connected to the machine body 1, and a second cutting water gun 31 disposed at one end of the telescopic member 32, the second cutting water gun 31 is provided with an axial water jet 311 and a radial water jet 312, the internal processing unit 3 further includes a shielding member 33 disposed at the second cutting water gun 31, the shielding member 33 can move relative to the second cutting water gun 31 under the driving of the driving unit to seal one of the axial water jet 311 and the radial water jet 312.

Utilize the squirt to carry out the water cutting to the rock, reduce discarded object such as the rock powder that produces in the course of working, reduce to the pollution of environment and the rubble splash with 1 and the collision of individual part of fuselage cause the damage, just the posture adjustment of second cutting squirt 31 is more nimble, can adapt to the inside complicated spatial structure of rock betterly, accomplishes cutting work.

Preferably, the extensible member 32 can only perform the extensible movement in the horizontal direction, so that the movement of the second cutting water gun 31 is easier to control, and the extensible member 32 is bent less, so that the pressure on the internal water channel is less, and the water channel is guaranteed to be generally prevented from being blocked, thereby preventing the water channel from affecting the pressure of water spraying and further affecting the cutting effect.

In the process of cutting and processing the inside of the rock, different cutting modes are often required to be switched, the second cutting water gun is provided with the axial water spray ports 311 and the radial water spray ports 312, so that the second cutting water gun 31 is provided with a common cutting mode in which the axial water spray ports 311 are conducted, and a surrounding cutting mode in which the radial water spray ports 312 are conducted, a user can select the axial water spray ports and the radial water spray ports as required to conduct, the cutting mode of the second cutting water gun 31 is conveniently switched without replacing a water gun spray head, and the cutting efficiency is improved.

Further, as shown in fig. 4, the second cutting water gun 31 is further provided with a rotating bearing 313, so that the second cutting water gun 31 can rotate around the axis thereof, and the effect of the circular cutting is improved.

In addition, because in the cutting process, high-pressure water flow and rock take place acutely to collide with the friction, produce a large amount of heats, consequently the temperature of second cutting squirt 31 is higher, if adopt the manual work to change the squirt head or operate the shielding piece, then it is very inconvenient, and this application shielding piece 33 with the drive unit electricity is connected, and the user accessible drive unit accomplishes the change of second cutting squirt 31 cutting mode need not to carry out manual operation, improves and uses experience.

In an embodiment, as shown in fig. 5, the blocking member 33 includes an axial blocking plate 334, a circumferential blocking plate 335, and a rotating shaft 331, the axial blocking plate 334 defines a first through hole 332 along a circumferential direction, the circumferential blocking plate 335 defines a second through hole 333 at intervals, the circumferential blocking plate 335 is fixedly connected to the rotating shaft 331 and is interlocked with the rotating shaft 331, the rotating shaft 331 further includes a blocking plate 336, when the blocking plate 336 rotates along with the rotating shaft 331 to block the first through hole 332, the axial water outlet 311 is closed, and when the blocking plate 336 rotates along with the rotating shaft 331 to overlap the axial blocking plate 334, the axial water outlet 331 is opened. When the second opening 333 is rotated to a position overlapping the radial water jet 312, the radial water jet 312 is communicated, and when the second opening 333 is rotated to a position misaligned with the radial water jet 312, the radial water jet 312 is closed.

Further, as shown in fig. 4, the second cutting torch 31 is provided with a first connection arc 314, the telescopic member 32 is provided with a second connection arc 321, and the first connection arc 314 covers at least a partial region of the second connection arc 321, so that the second cutting torch 31 can deflect relative to the telescopic member 32.

Through first connection cambered surface 314 with the cooperation of cambered surface 321 is connected to the second, makes second cutting squirt 31 can wind the deflection of arbitrary direction is done to extensible member 32, has further improved second cutting squirt 31's flexibility only passes through the adjustment of different cutting angles and cutting direction can be realized to second cutting squirt 31's motion, and need not right fuselage 1 or extensible member 32 carry out position control.

As a preferred embodiment of the present application, as shown in fig. 6, the fixing unit 2 includes a first fixing member 21 and a second fixing member 22, the first fixing member 21 includes a fixed drill bit disposed on the working side 11, the second fixing member 22 includes a transmission portion 222 connected to the machine body 1 and an adsorption portion 221 fixedly connected to the transmission portion 222, and the transmission portion 222 can drive the adsorption portion 221 to move, so that the position of the adsorption portion 221 is adjustable.

The kind of rock is complicated various, and the hardness difference of different kinds of rock is great, fixed unit 2 includes two fixed parts to realize different fixed modes, the user can select suitable fixed mode according to on-the-spot rock performance, for example when the rock hardness is less, can adopt fixed drill bit is fixed, when the rock hardness is great, fixed drill bit is difficult to bore into the rock inside, accessible this moment adsorption part 221 will fuselage 1 adsorbs fixedly with the rock, improves cutting device's suitability, adapts to different rock kinds and field environment.

Preferably, the fixed drill can be retracted into the machine body 1 to enlarge the working space and avoid the work of the inner processing unit 3 and the outer processing unit 4.

Further, as shown in fig. 6, the transmission part 222 includes a plurality of links hinged in sequence, so that the transmission part 222 has great flexibility, the adsorption part 221 can be adsorbed on the rock in different postures, for example, when the rock volume is large, the adsorption part 221 can be adsorbed on the surface of the rock facing the working side 11, and the rock can be fixed by the tensile force of the transmission part 222. For another example, when the volume of rock is small, the adsorption part 221 may be adsorbed to both sides of the rock to clamp and fix the rock, leaving enough working space for the inner processing unit 3 and the outer processing unit 4.

As a preferred example of the present embodiment, as shown in fig. 6, the body 1 is provided with a guide rail 15, the transmission part 222 is provided with a slider 223, the slider 223 is engaged with the guide rail 15 and moves along the guide rail 15, one end of the guide rail 15 close to the rock is provided with a stop protrusion 151, and the stop protrusion 151 is engaged with the slider 223 to prevent the slider 223 from being disengaged from the guide rail 15.

When interior processing unit 3 or during outer processing unit 4 and rock collision cutting, can produce great reaction force, order to about fuselage 1 moves towards the direction that deviates from the rock (for example when adopting the squirt cutting, the pressure of outflow spun is great, and rivers impact rock produces great reaction force). The slide block 223 cooperates with the guide rail 15 such that a portion of the reaction force is buffered to maintain the cutting device in a coupled state with the rock and prevent the fixing unit 2 from being detached from the rock.

When the moving amount of the machine body 1 is large, the stopping protrusion 151 and the sliding block 223 are in stopping fit to form a pulling force towards the rock direction on the machine body 1, so that the sliding block is always located in the guide slide rail 15, and the position of the whole machine is kept fixed.

As a preferred embodiment of this application, as shown in fig. 1 and 7, the cutting device further includes a base 6 disposed below the machine body 1, the base 6 is provided with a jacking device 7, the jacking device 7 abuts against the machine body 1, so that the machine body 1 moves up and down along the vertical direction.

It should be noted that, in this embodiment, the transmission manner of the jacking device 7 is not specifically limited, and in a specific embodiment, as shown in fig. 7 to 8, the jacking device 7 includes a driving rod 71 horizontally disposed, a driving bevel gear 72 coaxially disposed with the driving rod 71, a driven bevel gear 73 vertically disposed, a screw 74 linked with the driven bevel gear 73, and a jacking platform 75, where the jacking platform 75 is engaged with the screw 74. The user controls the driving rod 71 to rotate, the driving rod 71 drives the driving bevel gear 72 to rotate, so that the driven bevel gear 73 and the screw 74 which are matched with the driving bevel gear 72 rotate, and the jacking platform 75 moves upwards or downwards. The mechanical transmission mode is adopted, the structure is simple, the work is reliable, and the stability is high.

Of course, the jacking device 7 may also adopt other transmission modes, such as hydraulic transmission, etc., and is not limited in particular herein.

Preferably, the plurality of jacking platforms 75 are uniformly applied to the body 1, so that the body 1 is uniformly stressed and kept in a horizontal state to ascend or descend, and the body 1 is prevented from inclining.

In a preferred embodiment, as shown in fig. 1 and 9, a reel 8 and a flow guide 9 are further arranged in the base 6, and the flow guide 9 has a first state of being wound on the reel 8 and a second state of being extended to the working side 11; the drainage piece 9 is in under the second state, interior processing unit 3 the projection of the work area of outer processing unit 4 in the horizontal direction is located drainage piece 9, drainage piece 9 have with rock fastening's stiff end 91, and with the drainage end 92 that stiff end 91 is relative, outlet 16 has been seted up to base 6, so that the fluid of drainage end 92 via outlet 16 discharges.

When using the squirt to cut, can produce a large amount of waste water in the cutting process, these waste water mixes there is a large amount of silt, discharges at will and then can cause the pollution of environment and water to the field, and this application is through setting up drainage piece 9 collects the drainage to the waste water that the cutting produced, through 16 discharges or collects to appointed position in the outlet, reduces the destruction to external environment as far as possible.

Interior processing unit 3 the projection of the work area of outer processing unit 4 in the horizontal direction is located drainage piece 9 can guarantee that the waste water that processing produced all falls to on the bearing surface of drainage piece 9, improve drainage and the collection effect to waste water.

Preferably, the fixing end 91 is fixed to a rock by bonding, so that the fixing end can be easily detached and adapted to rocks of different hardness. In addition, the integrity of the surface of the rock can be ensured by adopting a bonding mode, and the damage to the rock is avoided.

Preferably, as shown in fig. 9, the cross section of the drainage member 9 is a V-shaped structure, so that water dropping on the drainage member 9 flows and collects toward the center of the drainage member, the collection effect is improved, and the water is prevented from flowing down from one side of the drainage member 9 to pollute the environment.

Further, as shown in fig. 1, the base 6 is provided with an accommodating cavity 13, the reel 8 and the drainage member 9 are disposed in the accommodating cavity 13, the accommodating cavity 13 has an opening disposed on the working side 11, and the base 6 is further provided with a flap 14, and the flap 14 is movable relative to the base 6 to close or open the opening. Before and after cutting, the drainage piece 9 can be stored in the containing cavity 13, the volume of the cutting device is reduced, the opening is sealed by the baffle plate 14, the containing cavity 13 is sealed, sundries are prevented from entering the containing cavity 13, and the baffle plate 14 is opened to pull out the drainage piece 9 when the cutting device is used.

Where not mentioned in this application, can be accomplished using or referencing existing technology.

The embodiments in the present specification are described in a progressive manner, and the same and similar parts among the embodiments are referred to each other, and each embodiment focuses on the differences from the other embodiments.

The above description is only an example of the present application and is not intended to limit the present application. Various modifications and changes may occur to those skilled in the art. Any modification, equivalent replacement, improvement, etc. made within the spirit and principle of the present application should be included in the scope of the claims of the present application.