CN111841744A - Safe high stability hydraulic pressure breaker - Google Patents

Abstract

The invention discloses a safe high-stability hydraulic crushing device, which relates to the technical field of hydraulic crushing devices, and particularly relates to a safe high-stability hydraulic crushing device. This safe high stability hydraulic pressure breaker is provided with direction buffer gear, connects the resistance plate and receives the ore collision, connects the resistance plate and applies pressure in connecting spring through connecting rod, can follow the axis of connecting rod through connecting spring and provide effectual buffering for connecting rod, and connect the inside that the resistance plate can effectual control ore concentrate leading-in broken casing.

Description

Safe high stability hydraulic pressure breaker

Technical Field

The invention relates to the technical field of hydraulic crushing devices, in particular to a safe high-stability hydraulic crushing device.

Background

The hydraulic crushing technology is widely applied to secondary crushing of mine large blocks, crushing of cold material blocks in the metallurgical industry, cleaning of furnace mouths and the like, and is a special hydraulic crushing equipment technology. The special hydraulic breaking hammer technology is one of the key technologies of the special breaking equipment, and is a final execution part for completing the breaking operation. In recent years, the technical level of the hydraulic hammer is continuously improved, products are continuously updated, for example, urban silent hammer ultra-large breakers, underwater breakers, mud dredging breakers, marine breakers and the like are realized, and the application field of the hydraulic hammer is continuously expanded.

The existing hydraulic crushing device has the defects that in the use process, the buffering treatment cannot be well provided for ores, the efficient crushing treatment cannot be well provided for the ores, and the separation and filtration treatment cannot be well provided for the ores.

Disclosure of Invention

Aiming at the defects of the prior art, the invention provides a safe high-stability hydraulic crushing device, and solves the problems that the conventional hydraulic crushing device cannot well provide buffer treatment for ores, cannot well provide efficient crushing treatment for the ores, and cannot well provide separation and filtration treatment for the ores in the use process in the background art.

In order to achieve the purpose, the invention is realized by the following technical scheme: the utility model provides a safe high stability hydraulic pressure breaker, includes broken casing and supplementary broken mechanism, direction buffer gear is all installed to the inside left and right sides of broken casing, and the below of direction buffer gear installs the main shaft roller, the outer wall connection of main shaft roller has the main shaft tooth, and the end-to-end connection of main shaft roller rear end has hydraulic transmission, supplementary broken mechanism is located one side of main shaft roller, and the below of supplementary broken mechanism installs horizontal transport mechanism, the guide mouth is installed to the opposite side of horizontal transport mechanism, the bin outlet is installed to the below of horizontal transport mechanism.

Optionally, direction buffer gear is including connecting resistance plate, connecting pin, connecting branch, connecting main rod and coupling spring, the tip of connecting resistance plate runs through there is the connecting pin, one side pin joint that broken casing vertical center line was kept away from to the connecting resistance plate has connecting branch, and connecting branch keeps away from one side of connecting resistance plate and installs connecting main rod to connecting main rod's inside is provided with coupling spring.

Optionally, the connecting resistance plates are connected with the crushing shell through connecting pins, and the connecting resistance plates are symmetrically distributed around the central axis of the crushing shell.

Optionally, the connecting resistance plate is connected with the connecting support rod through a pin, and the connecting support rod forms an elastic structure with the connecting main rod through a connecting spring.

Optionally, the auxiliary crushing mechanism comprises a fixed frame, a guide connecting frame, auxiliary shaft rollers, auxiliary shaft teeth, guide sliding blocks, guide sliding grooves and return springs, the guide connecting frame is arranged inside the fixed frame, the guide sliding grooves are arranged at the front end and the rear end of the guide connecting frame respectively, the guide sliding blocks are arranged inside the guide sliding grooves, the auxiliary shaft rollers are arranged inside the guide connecting frame, the outer walls of the auxiliary shaft rollers are connected with the auxiliary shaft teeth, and the return springs are connected to one side of the guide connecting frame.

Optionally, the fixed frame and the guiding connecting frame form a sliding structure through the guiding sliding block and the guiding sliding groove, and the guiding connecting frame is movably connected with the auxiliary shaft roller.

Optionally, the guide connecting frame is connected with the return springs, and the return springs are uniformly distributed along the central axis of the guide connecting frame.

Optionally, horizontal transport mechanism includes horizontal rack, connects the filter screen, connects lead screw cover post and regulation propelling movement lead screw, the inside of horizontal rack is provided with connects the filter screen, the below of horizontal rack is connected with connects the lead screw cover post, and the inside of connecting the lead screw cover post runs through and has the regulation propelling movement lead screw to the end-to-end connection who adjusts propelling movement lead screw one side has sharp propelling movement motor.

Optionally, the transverse rack is connected with the connecting filter screen, the transverse rack is fixedly connected with the connecting screw rod sleeve column, and the push screw rod is adjusted to penetrate through the connecting screw rod sleeve column.

The invention provides a safe high-stability hydraulic crushing device which has the following beneficial effects: .

1. This safe high stability hydraulic pressure breaker is provided with direction buffer gear, connects the baffler and receives the ore collision, connects the baffler and rotates along the connecting pin is outside to and connect the baffler and apply pressure to coupling spring through connecting branch, can provide effectual buffering processing for connecting branch along the axis of connecting mobile jib through coupling spring, and connect the baffler and can the inside of leading-in broken casing of effectual control ore concentration.

2. The safe high-stability hydraulic crushing device is provided with an auxiliary crushing mechanism, a main shaft tooth is driven by a hydraulic transmission device through a main shaft roller to provide crushing treatment for ores, impact force is applied to an auxiliary shaft roller by the ores, the auxiliary shaft roller is connected with a guide connecting frame, the guide connecting frame can effectively move along the axis direction of a guide sliding groove through a guide sliding block, the guide sliding groove can effectively control the moving track and range of the guide sliding block and can effectively avoid the guide connecting frame from deflecting, the impact force is applied by the guide connecting frame by a return spring, the guide connecting frame can effectively be effectively buffered by the return spring, the action effect of the guide connecting frame can be effectively increased by the uniform distribution of the return spring, the auxiliary shaft roller can be pushed to the initial position, and at the moment, the main shaft tooth and the auxiliary shaft tooth mutually act on the ores, thereby can effectual improvement ore crushing's high efficiency.

3. This safe high stability hydraulic pressure breaker is provided with horizontal transport mechanism, and straight line propelling movement motor can effectually promote to connect lead screw sleeve post along the horizontal direction removal through adjusting the propelling movement lead screw to and be connected between lead screw sleeve post and the horizontal rack, can be with horizontal rack and the synchronous motion between the connecting screw sleeve post, horizontal rack can effectually be handled for the ore provides the transportation, and connect the filter screen can effectually be handled for the ore provides the filtration, guarantees the broken high efficiency of ore.

Drawings

FIG. 1 is a schematic front view of the present invention;

FIG. 2 is a schematic structural diagram of an auxiliary crushing mechanism according to the present invention;

FIG. 3 is an enlarged view of a portion of FIG. 1;

FIG. 4 is a schematic structural view of a transverse gantry of the present invention;

FIG. 5 is an enlarged view of a portion of the structure shown at B in FIG. 2 according to the present invention.

In the figure: 1. crushing the shell; 2. a guide buffer mechanism; 201. connecting a resistance plate; 202. a connecting pin; 203. connecting a support rod; 204. connecting the main rod; 205. a connecting spring; 3. a main shaft roller; 4. spindle teeth; 5. an auxiliary crushing mechanism; 501. a fixed frame; 502. a guide connecting frame; 503. a countershaft roller; 504. a secondary shaft tooth; 505. a guide slider; 506. a guide chute; 507. a return spring; 6. a transverse transport mechanism; 601. a transverse rack; 602. connecting a filter screen; 603. connecting a screw rod sleeve column; 604. adjusting a pushing screw rod; 605. a linear pushing motor; 7. a material guide port; 8. a discharge outlet; 9. and a hydraulic transmission device.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments.

In the description of the present invention, "a plurality" means two or more unless otherwise specified; the terms "upper", "lower", "left", "right", "inner", "outer", "front", "rear", "head", "tail", and the like, indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings, are only for convenience in describing and simplifying the description, and do not indicate or imply that the device or element referred to must have a particular orientation, be constructed in a particular orientation, and be operated, and thus, should not be construed as limiting the invention. Furthermore, the terms "first," "second," "third," and the like are used for descriptive purposes only and are not to be construed as indicating or implying relative importance.

In the description of the present invention, it is to be noted that, unless otherwise explicitly specified or limited, the terms "connected" and "connected" are to be interpreted broadly, e.g., as being fixed or detachable or integrally connected; can be mechanically or electrically connected; may be directly connected or indirectly connected through an intermediate. The specific meanings of the above terms in the present invention can be understood in specific cases to those skilled in the art.

Referring to fig. 1 to 5, the present invention provides a technical solution: the utility model provides a safe high stability hydraulic pressure breaker, including broken casing 1 and supplementary broken mechanism 5, direction buffer gear 2 is all installed to the inside left and right sides of broken casing 1, and the main shaft roller 3 is installed to the below of direction buffer gear 2, the outer wall connection of main shaft roller 3 has main shaft tooth 4, and the end-to-end connection of 3 rear ends of main shaft roller has hydraulic transmission 9, supplementary broken mechanism 5 is located one side of main shaft roller 3, and horizontal transport mechanism 6 is installed to the below of supplementary broken mechanism 5, guide opening 7 is installed to the opposite side of horizontal transport mechanism 6, bin outlet 8 is installed to the below of horizontal transport mechanism 6.

In the invention: the guide buffer mechanism 2 comprises a connecting resistance plate 201, a connecting pin 202, a connecting strut 203, a connecting main rod 204 and a connecting spring 205, the connecting pin 202 penetrates through the end of the connecting resistance plate 201, the connecting strut 203 is connected to one side, away from the vertical center line of the crushing shell 1, of the connecting resistance plate 201 in a pin mode, the connecting main rod 204 is installed on one side, away from the connecting resistance plate 201, of the connecting strut 203, and the connecting spring 205 is arranged inside the connecting main rod 204.

In the invention: the connecting resistance plates 201 are connected with the crushing shell 1 through connecting pins 202, and the connecting resistance plates 201 are symmetrically distributed around the central axis of the crushing shell 1.

In the invention: the connecting resistance plate 201 is connected with the connecting strut 203 through a pin, and the connecting strut 203 forms an elastic structure with the connecting main rod 204 through the connecting spring 205; connect the resistance plate 201 and receive the ore collision, connect the resistance plate 201 and rotate along connecting pin 202 outside to and connect the resistance plate 201 and apply pressure in connecting spring 205 through connecting branch 203, can provide effectual buffering for connecting branch 203 along the axis of connecting mobile jib 204 through connecting spring 205, and connect the inside that resistance plate 201 can effectual control ore concentrate leading-in crushing casing 1.

In the invention: the auxiliary crushing mechanism 5 comprises a fixed frame 501, a guide connecting frame 502, auxiliary shaft rollers 503, auxiliary shaft teeth 504, a guide sliding block 505, a guide sliding groove 506 and a return spring 507, wherein the guide connecting frame 502 is arranged inside the fixed frame 501, the guide sliding grooves 506 are arranged at the front end and the rear end of the guide connecting frame 502, the guide sliding block 505 is arranged inside the guide sliding groove 506, the auxiliary shaft rollers 503 are arranged inside the guide connecting frame 502, the auxiliary shaft teeth 504 are connected to the outer wall of the auxiliary shaft rollers 503, and the return spring 507 is connected to one side of the guide connecting frame 502.

In the invention: the fixed frame 501 and the guide connecting frame 502 form a sliding structure through a guide sliding block 505 and a guide sliding groove 506, and the guide connecting frame 502 is movably connected with the auxiliary shaft roller 503; the hydraulic transmission device 9 drives the main shaft teeth 4 to provide crushing treatment for ores through the main shaft rollers 3, at the moment, collision force is applied to the auxiliary shaft rollers 503 by the ores, the auxiliary shaft rollers 503 are connected with the guide connecting frame 502, the guide connecting frame 502 can effectively move along the central axis direction of the guide sliding groove 506 through the guide sliding block 505, the guide sliding groove 506 can effectively control the moving track and range of the guide sliding block 505, and the guide connecting frame 502 can be effectively prevented from deflecting.

In the invention: the guide connecting frame 502 is connected with the return springs 507, and the return springs 507 are uniformly distributed along the central axis direction of the guide connecting frame 502; return spring 507 receives direction link 502 to exert the collision power, can effectually provide effectual buffering for direction link 502 through return spring 507, and return spring 507's evenly distributed can effectual increase direction link 502's effect to and can be with countershaft roller 503 propelling movement to initial position, at this moment, interact between main shaft tooth 4 and the countershaft tooth 504 is the ore, thereby can effectual improvement ore crushing's high efficiency.

In the invention: the transverse conveying mechanism 6 comprises a transverse rack 601, a connecting filter screen 602, a connecting screw rod sleeve column 603 and an adjusting pushing screw rod 604, the connecting filter screen 602 is arranged inside the transverse rack 601, the connecting screw rod sleeve column 603 is connected below the transverse rack 601, the adjusting pushing screw rod 604 penetrates through the inside of the connecting screw rod sleeve column 603, and the tail end of one side of the adjusting pushing screw rod 604 is connected with a linear pushing motor 605.

In the invention: the transverse rack 601 is connected with the connecting filter screen 602, the transverse rack 601 is fixedly connected with the connecting screw rod sleeve column 603, and the adjusting pushing screw rod 604 penetrates through the connecting screw rod sleeve column 603; under the effect of straight line propelling movement motor 605, can effectually promote connecting screw rod cover post 603 through adjusting propelling movement lead screw 604 and remove along the horizontal direction to and be connected between connecting screw rod cover post 603 and the horizontal rack 601, at this moment, synchronous motion between horizontal rack 601 and the connecting screw rod cover post 603, horizontal rack 601 can effectually handle for the ore provides the transportation, and connect filter screen 602 can effectually handle for the ore provides the filtration, guarantee the broken high efficiency of ore.

In summary, in the safe high-stability hydraulic crushing device, when in use, firstly, the connecting baffle plate 201 is impacted by ore, the connecting baffle plate 201 rotates along the outside of the connecting pin 202, and the connecting baffle plate 201 applies pressure to the connecting spring 205 through the connecting strut 203, and can provide effective buffer treatment for the connecting strut 203 along the central axis of the connecting main rod 204 through the connecting spring 205, then, the hydraulic transmission device 9 drives the main shaft teeth 4 to provide crushing treatment for the ore through the main shaft roller 3, at this time, the ore applies impact force to the auxiliary shaft roller 503, the auxiliary shaft roller 503 is connected with the guiding connecting frame 502, the guiding connecting frame 502 compresses the return spring 507 along the central axis direction of the guiding chute 506 through the guiding slide block 505, and the auxiliary shaft roller 503 can be pushed to the initial position through the return spring 507;

then, start sharp propelling movement motor 605, sharp propelling movement motor 605 promotes connecting screw rod sleeve column 603 through adjusting propelling movement lead screw 604 and moves along the horizontal direction to and be connected between connecting screw rod sleeve column 603 and the horizontal rack 601, and at this moment, synchronous motion between horizontal rack 601 and the connecting screw rod sleeve column 603, horizontal rack 601 can effectually provide the transportation processing for the ore, and connect filter screen 602 can effectually provide the filtration processing for the ore.

The above description is only for the preferred embodiment of the present invention, but the scope of the present invention is not limited thereto, and any person skilled in the art should be able to cover the technical scope of the present invention and the equivalent alternatives or modifications according to the technical solution and the inventive concept of the present invention within the technical scope of the present invention.

Claims (9)

1. The utility model provides a safe high stability hydraulic crushing device, includes broken casing (1) and supplementary broken mechanism (5), its characterized in that: guide buffer gear (2) are all installed to the inside left and right sides of broken casing (1), and guide buffer gear (2)'s below installs main shaft roller (3), the outer wall connection of main shaft roller (3) has main shaft tooth (4), and the end-to-end connection of main shaft roller (3) rear end has hydraulic transmission device (9), supplementary broken mechanism (5) are located one side of main shaft roller (3), and the below of supplementary broken mechanism (5) installs horizontal transport mechanism (6), guide opening (7) are installed to the opposite side of horizontal transport mechanism (6), bin outlet (8) are installed to the below of horizontal transport mechanism (6).

2. A safe high stability hydraulic breaker apparatus according to claim 1 wherein: guide buffer gear (2) are including connecting resistance plate (201), connecting pin (202), connecting branch (203), connecting main rod (204) and coupling spring (205), connecting pin (202) have been run through to the tip of connecting resistance plate (201), connecting resistance plate (201) is kept away from one side pin joint of broken casing (1) vertical center line and is had connecting branch (203), and connecting branch (203) one side of keeping away from connecting resistance plate (201) and install connecting main rod (204) to the inside of connecting main rod (204) is provided with coupling spring (205).

3. A safe high stability hydraulic breaker apparatus according to claim 2 wherein: the connecting resistance plates (201) are connected with the crushing shell (1) through connecting pins (202), and the connecting resistance plates (201) are symmetrically distributed around the central axis of the crushing shell (1).

4. A safe high stability hydraulic breaker apparatus according to claim 2 wherein: the connecting resistance plate (201) is connected with the connecting support rod (203) through a pin, and the connecting support rod (203) forms an elastic structure with the connecting main rod (204) through a connecting spring (205).

5. A safe high stability hydraulic breaker apparatus according to claim 1 wherein: the auxiliary crushing mechanism (5) comprises a fixed frame (501), a guide connecting frame (502), auxiliary shaft rollers (503), auxiliary shaft teeth (504), a guide sliding block (505), a guide sliding groove (506) and a return spring (507), the guide connecting frame (502) is arranged inside the fixed frame (501), the guide sliding groove (506) is arranged at the front end and the rear end of the guide connecting frame (502), the guide sliding block (505) is arranged inside the guide sliding groove (506), the auxiliary shaft rollers (503) are arranged inside the guide connecting frame (502), the outer wall of the auxiliary shaft rollers (503) is connected with the auxiliary shaft teeth (504), and the return spring (507) is connected to one side of the guide connecting frame (502).

6. A safe high stability hydraulic breaker apparatus according to claim 5 wherein: the fixed frame (501) and the guide connecting frame (502) form a sliding structure through the guide sliding block (505) and the guide sliding groove (506), and the guide connecting frame (502) is movably connected with the auxiliary shaft roller column (503).

7. A safe high stability hydraulic breaker apparatus according to claim 5 wherein: the guide connecting frame (502) is connected with the return springs (507), and the return springs (507) are uniformly distributed along the central axis direction of the guide connecting frame (502).

8. A safe high stability hydraulic breaker apparatus according to claim 1 wherein: horizontal transport mechanism (6) are including horizontal rack (601), connection filter screen (602), connecting screw rod socle (603) and regulation propelling movement lead screw (604), the inside of horizontal rack (601) is provided with connects filter screen (602), the below of horizontal rack (601) is connected with connecting screw rod socle (603), and the inside of connecting screw rod socle (603) runs through and has regulation propelling movement lead screw (604) to the end-to-end connection of regulation propelling movement lead screw (604) one side has sharp propelling movement motor (605).

9. A safe high stability hydraulic breaker apparatus according to claim 8 wherein: the horizontal rack (601) is connected with the connecting filter screen (602), the horizontal rack (601) is fixedly connected with the connecting screw rod sleeve column (603), and the adjusting pushing screw rod (604) penetrates through the connecting screw rod sleeve column (603).

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