CN214330620U - Hydraulic extrusion crusher - Google Patents

Abstract

The utility model discloses a hydraulic pressure breaks machine, including the organism, still include big arm, swing arm hydro-cylinder, crowded broken subassembly and gesture adjustment hydro-cylinder, big arm rotatable coupling is at the organism front end, swing arm hydro-cylinder bottom and organism rotatable coupling, swing arm hydro-cylinder output and big arm rotatable coupling, crowded broken subassembly rotatable coupling is at big arm front end, gesture adjustment hydro-cylinder bottom and big arm rotatable coupling, gesture adjustment hydro-cylinder output and crowded broken subassembly rotatable coupling. The swing arm and the rotating arm of the crushing machine are convenient to operate and control, the working stability is good when the crushing machine is crushed, hydraulic driving is adopted, the power is strong, the crushing efficiency is high, the crushing machine is suitable for crushing large-size rocks, the construction cost is low, and the construction environment is good.

Description

Hydraulic extrusion crusher

Technical Field

The utility model relates to a rock crushing technical field, concretely relates to hydraulic pressure breaks machine.

Background

In various operations such as mining, tunneling, tunnel construction and the like, the whole rock is often faced, the operation of hollowing is carried out in the mountain, the construction is very difficult due to the fact that an empty face relative to the crushing direction is not available, the common construction method comprises explosive, hammering rock drilling and the like, wherein the explosive blasting mode has more use limitations, and the explosive cannot be used in various construction environments. The hammering rock drilling method has the disadvantages of low efficiency, high noise and much dust, especially when hard rock is encountered.

Therefore, the process of milling and drilling firstly and then crushing can be adopted to realize the fracture-making and crushing of the rock so as to overcome the problems. However, at present, the crushing equipment which is inconvenient to operate, stable to operate and high in efficiency is lacked.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide a hydraulic pressure pushes broken machine, it has solved the current problem that broken equipment operation is inconvenient, operating stability is poor, efficient.

The utility model discloses a following technical scheme realizes above-mentioned purpose:

the utility model provides a hydraulic pressure breaks machine, includes the organism, still includes big arm, swing arm hydro-cylinder, crowded subassembly and gesture adjustment hydro-cylinder broken, big arm rotatable coupling is at the organism front end, the swing arm hydro-cylinder is located the below of big arm, the gesture adjustment hydro-cylinder is located the top of big arm, swing arm hydro-cylinder bottom and organism rotatable coupling, swing arm hydro-cylinder output and big arm rotatable coupling, crowded broken subassembly rotatable coupling is at big arm front end, gesture adjustment hydro-cylinder bottom and big arm rotatable coupling, gesture adjustment hydro-cylinder output and crowded broken subassembly rotatable coupling, the bottom of organism is equipped with the athey wheel, is equipped with the hydraulic system who is used for providing hydraulic power source on the organism.

The improved structure is characterized in that two-dimensional rotating installation parts are arranged at the front end of the machine body and on the crushing assembly, the bottom end of the large arm and the bottom end of the swing arm oil cylinder are connected with the machine body through the two-dimensional rotating installation parts, and the output end of the posture adjusting oil cylinder and the front end of the large arm are connected with the crushing assembly through the two-dimensional rotating installation parts.

The further improvement is that the swing arm oil cylinder and the posture adjusting oil cylinder are both of double-cylinder structures, and double cylinders are not in the same vertical plane.

The further improvement lies in, crowded broken subassembly comprises framework and the vertical hydro-cylinder of a plurality of, removal seat, horizontal hydro-cylinder and crowded broken head, the framework is connected with big arm and gesture adjustment hydro-cylinder, is formed with vertical slide rail in the framework, vertical hydro-cylinder is installed inside the framework, remove seat movable mounting on vertical slide rail, and remove the output of seat one-to-one and vertical hydro-cylinder and be connected, horizontal hydro-cylinder one-to-one is installed on removing the seat, be formed with horizontal slide rail on removing the seat, a pair of corresponding movable mounting of crowded broken head is on horizontal slide rail, and a pair of corresponding output of crowded broken head and horizontal hydro-cylinder is connected.

The further improvement is that the number of the longitudinal oil cylinder, the moving seat, the transverse oil cylinder and the crushing head is three.

The beneficial effects of the utility model reside in that: the swing arm and the rotating arm of the crushing machine are convenient to operate and control, the working stability is good when the crushing machine is crushed, hydraulic driving is adopted, the power is strong, the crushing efficiency is high, the crushing machine is suitable for crushing large-size rocks, the construction cost is low, and the construction environment is good.

Drawings

FIG. 1 is a schematic structural diagram of a hydraulic crushing machine;

FIG. 2 is a schematic structural diagram of a crushing assembly;

FIG. 3 is a schematic cross-sectional view of a crushing assembly;

in the figure: 1. a body; 2. a large arm; 3. a swing arm cylinder; 4. crushing the assembly; 401. a frame body; 402. a longitudinal oil cylinder; 403. a movable seat; 404. a transverse oil cylinder; 405. crushing the head; 406. a longitudinal slide rail; 407. a transverse slide rail; 5. an attitude adjusting cylinder; 6. a two-dimensional rotational mount; 7. a crawler wheel; 8. a hydraulic system.

Detailed Description

The present application will now be described in further detail with reference to the drawings, it should be noted that the following detailed description is given for illustrative purposes only and is not to be construed as limiting the scope of the present application, as those skilled in the art will be able to make numerous insubstantial modifications and adaptations to the present application based on the above disclosure.

Referring to fig. 1 to 3, a hydraulic extrusion breaker, including organism 1, still include big arm 2, swing arm hydro-cylinder 3, crowded broken subassembly 4 and gesture adjustment hydro-cylinder 5, big arm 2 rotatable coupling is at 1 front ends of organism, swing arm hydro-cylinder 3 bottom and organism 1 rotatable coupling, swing arm hydro-cylinder 3 output and big arm 2 rotatable coupling, crowded broken subassembly 4 rotatable coupling is at 2 front ends of big arm, gesture adjustment hydro-cylinder 5 bottom and big arm 2 rotatable coupling, gesture adjustment hydro-cylinder 5 output and crowded broken subassembly 4 rotatable coupling.

The utility model discloses in, all be equipped with two-dimentional rotation installed part 6 on 1 front end of organism and the crowded subassembly 4 broken, the bottom of big arm 2 and the bottom of swing arm hydro-cylinder 3 all are connected with organism 1 through two-dimentional rotation installed part 6, and the front end of 5 outputs of gesture adjustment hydro-cylinders and big arm 2 all is connected with crowded subassembly 4 broken through two-dimentional rotation installed part 6. The two-dimensional rotating mounting part 6 adopts a combined structure of double movable shafts, wherein one movable shaft is transversely arranged, and the other movable shaft is longitudinally arranged, so that the two-dimensional rotation of the large arm 2 and the crushing assembly 4 is realized.

The utility model discloses in, swing arm hydro-cylinder 3 and attitude adjustment hydro-cylinder 5 are the double-cylinder structure, and the double-cylinder is not in same vertical face, for example can design with a high left and right side. Taking the swing arm cylinder 3 as an example, two cylinders in the double-cylinder structure extend simultaneously to drive the big arm 2 to swing upwards, the two cylinders shorten simultaneously to drive the big arm 2 to swing downwards, and one cylinder extends, and the other cylinder shortens to drive the big arm 2 to rotate to the shortened cylinder side, so that the double-cylinder structure can realize the luffing motion and the horizontal rotation, and two purposes can be achieved at one stroke.

The utility model discloses in, crowded broken subassembly 4 is by framework 401 and the vertical hydro-cylinder 402 of a plurality of, remove seat 403, horizontal hydro-cylinder 404 and crowded broken head 405 are constituteed, framework 401 is connected with big arm 2 and gesture adjustment hydro-cylinder 5, be formed with longitudinal slide rail 406 on the framework 401, longitudinal oil cylinder 402 is installed inside framework 401, remove seat 403 movable mounting on longitudinal slide rail 406, and the output that removes seat 403 one-to-one and vertical hydro-cylinder 402 is connected, horizontal hydro-cylinder 404 one-to-one is installed on removing seat 403, be formed with horizontal slide rail 407 on removing seat 403, crowded broken head 405 one-to-one movable mounting is on horizontal slide rail 407, and crowded broken head 405 one-to-one is connected with the output of horizontal hydro-cylinder 404.

When the crushing assembly 4 works, the longitudinal oil cylinder 402 is driven to stretch and retract to drive the movable seat 403 to move along the longitudinal slide rail 406 and further drive the specific crushing heads 405 to move, so that the distance between the crushing heads 405 can be adjusted, the crushing assembly 4 can be inserted into drill holes with different distances, the transverse oil cylinders 404 drive the crushing heads 405 to move along the transverse slide rails 407 through the stretching and retracting drive, the transverse positions of the crushing heads 405 are changed, when a nonlinear continuous hole is met, the transverse positions of one or two of the crushing heads 405 are changed, the crushing heads 405 can be smoothly inserted into the hole, and hydraulic crushing is completed. The breaking head 405 is of conventional construction.

The utility model discloses in, vertical hydro-cylinder 402, removal seat 403, horizontal hydro-cylinder 404 and crowded broken head 405 all have threely.

The utility model discloses in, organism 1's bottom is equipped with motor drive's athey wheel 7, is equipped with the hydraulic system 8 that is used for providing hydraulic power source on organism 1, and the system includes hydraulic pump, valve and hydraulic tank etc.. The swing arm oil cylinder 3 is positioned below the large arm 2, and the posture adjusting oil cylinder 5 is positioned above the large arm 2.

The working process of the extruding and breaking machine is as follows:

the two cylinders of the swing arm oil cylinder 3 are simultaneously extended or shortened, so that the large arm 2 swings up and down, and one of the two cylinders of the swing arm oil cylinder 3 is extended and the other is shortened, so that the large arm 2 rotates left and right; the upper and lower inclination angles of the crushing assembly 4 are changed by simultaneously extending or shortening the double cylinders of the posture adjusting oil cylinder 5, and the left and right inclination angles of the crushing assembly 4 are changed by extending one of the double cylinders of the posture adjusting oil cylinder 5 and shortening the other double cylinder;

then, the movable base 403 is driven to move along the longitudinal slide rail 406 by the telescopic driving of the longitudinal oil cylinder 402, so as to drive the crushing heads 405 to move, so as to adjust the distance between the crushing heads 405, the crushing heads 405 are driven to move along the transverse slide rail 407 by the telescopic driving of the transverse oil cylinder 404, so that the transverse positions of the crushing heads 405 are changed, and finally, the crushing heads 405 are just correspondingly inserted into the holes to be crushed, and the hydraulic crushing work is completed.

The above-mentioned embodiments only represent some embodiments of the present invention, and the description thereof is specific and detailed, but not to be construed as limiting the scope of the present invention. It should be noted that, for those skilled in the art, without departing from the spirit of the present invention, several variations and modifications can be made, which are within the scope of the present invention.

Claims (5)

1. A hydraulic press breaker, comprising a machine body (1), characterized in that: the device is characterized by further comprising a large arm (2), a swing arm oil cylinder (3), an extrusion assembly (4) and a posture adjusting oil cylinder (5), wherein the large arm (2) is rotatably connected to the front end of the machine body (1), the swing arm oil cylinder (3) is located below the large arm (2), the posture adjusting oil cylinder (5) is located above the large arm (2), the bottom end of the swing arm oil cylinder (3) is rotatably connected with the machine body (1), the output end of the swing arm oil cylinder (3) is rotatably connected with the large arm (2), the extrusion assembly (4) is rotatably connected to the front end of the large arm (2), the bottom end of the posture adjusting oil cylinder (5) is rotatably connected with the large arm (2), and the output end of the posture adjusting oil cylinder (5) is rotatably connected with the extrusion assembly (4);

the crawler wheel (7) is arranged at the bottom end of the machine body (1), and the hydraulic system (8) for providing a hydraulic power source is arranged on the machine body (1).

2. A hydraulic press crusher as claimed in claim 1, wherein: all be equipped with two-dimensional rotation installed part (6) on organism (1) front end and crowded broken subassembly (4), the bottom of big arm (2) and the bottom of swing arm hydro-cylinder (3) all are connected with organism (1) through two-dimensional rotation installed part (6), the front end of gesture adjustment hydro-cylinder (5) output and big arm (2) all is connected with crowded broken subassembly (4) through two-dimensional rotation installed part (6).

3. A hydraulic press crusher as claimed in claim 1, wherein: the swing arm oil cylinder (3) and the posture adjusting oil cylinder (5) are of double-cylinder structures, and double cylinders are not in the same vertical plane.

4. A hydraulic press crusher as claimed in claim 3, wherein: the crushing assembly (4) consists of a frame body (401), a plurality of longitudinal oil cylinders (402), a moving seat (403), a transverse oil cylinder (404) and a crushing head (405), the frame body (401) is connected with the large arm (2) and the posture adjusting oil cylinder (5), a longitudinal slide rail (406) is formed on the frame body (401), the longitudinal oil cylinder (402) is arranged in the frame body (401), the moving seat (403) is movably arranged on a longitudinal slide rail (406), the movable seats (403) are connected with the output ends of the longitudinal oil cylinders (402) in a one-to-one correspondence manner, the transverse oil cylinders (404) are correspondingly arranged on the moving seat (403) one by one, transverse sliding rails (407) are formed on the moving seat (403), the crushing heads (405) are movably arranged on the transverse sliding rails (407) in a one-to-one correspondence manner, and the crushing heads (405) are connected with the output ends of the transverse oil cylinders (404) in a one-to-one correspondence manner.

5. A hydraulic press crusher as claimed in claim 4, wherein: the number of the longitudinal oil cylinders (402), the moving seat (403), the transverse oil cylinder (404) and the crushing head (405) is three.

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