CN213231379U - Intelligent mine simulation test platform - Google Patents

Abstract

The utility model belongs to the technical field of mine testing, in particular to an intelligent mine simulation testing platform, which comprises a geosyncline, a groove is arranged in the ground groove, a lifting device is arranged at the bottom of the inner part of the groove, a platform is arranged at the top of the lifting device, the platform is connected with the groove in a sliding way, two sides of the top end of the geosyncline are provided with four support rods, the four support rods are respectively positioned at four corners outside the geosyncline, the top of the supporting rod is provided with a rotating device, the utility model is provided with a lifting device positioned in the geosyncline, the platform is lifted to the positions between the four rotating devices from the ground through the lifting device, so that the mining machinery can be quickly moved to the detection platform, and the problem that the detection efficiency of the detection platform is greatly reduced because the existing detection platform needs the hoisting equipment to convey the mining machinery to the detection platform is solved.

Description

Intelligent mine simulation test platform

Technical Field

The utility model belongs to the technical field of the mine test, concretely relates to intelligence mine simulation test platform.

Background

The mining, ore dressing and prospecting machines are all mine mechanical equipment, a large number of cranes, conveyors, ventilators, drainage machines and the like applied in mine operation are commonly called as mine mechanical equipment, the mine machinery is equipment for treating ores and separating valuable minerals from gangue, the mining machinery, the ore dressing machinery and the prospecting machinery belong to the mine machinery, the mining machinery, the ore dressing machinery and the prospecting machinery vibrate frequently during working, the working environment is very severe, and working condition simulation detection needs to be carried out on key accessories of the mine machinery before the mining machinery, the ore dressing machinery and the prospecting machinery are put into use formally.

The existing detection platform needs hoisting equipment to convey mining machinery to the detection platform, so that the detection efficiency of the detection platform is greatly reduced.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide an intelligence mine simulation test platform to it needs hoisting equipment to transport testing platform with mining machinery to propose current testing platform among the above-mentioned background art, lets testing platform's detection efficiency greatly reduced's problem.

In order to achieve the above object, the utility model provides a following technical scheme: the utility model provides an intelligence mine simulation test platform, includes the geosyncline, the recess has been seted up to the inside of geosyncline, elevating gear is installed to the inside bottom of recess, elevating gear's top is provided with the platform, platform and recess sliding connection, the both sides on geosyncline top are provided with the bracing piece, the bracing piece is provided with four altogether, four the bracing piece is located four corners of geosyncline outside respectively, rotary device is installed at the top of bracing piece, rotary device's one end is located the top of platform, all be provided with the fixed block between two rotary device of geosyncline both sides, two connecting device is all installed to the relative one side of fixed block, connecting device's one end is located the platform, connecting device and platform sliding connection, install the controller on the bracing piece.

Preferably, connecting device includes first electric telescopic handle and connecting rod, first electric telescopic handle is located one side of fixed block, first electric telescopic handle and fixed block fixed connection, first electric telescopic handle's one end fixedly connected with mounting bracket, the connecting rod is located the bottom of mounting bracket, connecting rod and mounting bracket fixed connection.

Preferably, a through hole is formed in the platform, the connecting rod is located inside the through hole, and the connecting rod is connected with the through hole in a sliding mode.

Preferably, rotary device is including installation piece and motor, the installation piece is located the top of bracing piece, installation piece and bracing piece fixed connection, the motor is located the inside of installation piece, the one end of motor is rotated and is connected with the movable block, the movable block is located the outside of installation piece, the movable block rotates with the installation piece and is connected.

Preferably, a sliding groove is formed in the mounting block, a protruding block is arranged at one end of the movable block and located in the sliding groove, and the protruding block is connected with the sliding groove in a sliding mode.

Preferably, the movable block is provided with a roller, the roller is rotatably connected with the movable block, the platform is positioned on the roller, and the platform is slidably connected with the roller.

Preferably, elevating gear includes second electric telescopic handle and base, second electric telescopic handle is located the bottom of geosyncline portion, the base is located second electric telescopic handle's top, the draw-in groove has been seted up on the platform, the base is located the inside of draw-in groove, the base is connected with the draw-in groove block.

Compared with the prior art, the beneficial effects of the utility model are that:

(1) the utility model discloses set up the elevating gear who is arranged in the geosyncline, risen the platform from ground to between four rotary device through elevating gear, realized mining machinery to testing platform's quick travel, solved current testing platform and needed hoisting apparatus to transport testing platform with mining machinery, let testing platform's detection efficiency greatly reduced's problem.

(2) The utility model discloses set up the gyro wheel that is located the movable block, connecting device lets the platform quick back and forth movement on the movable block, and the gyro wheel plays support and smooth effect, and the platform is because high-speed motion between the different media can produce vibrations from top to bottom in the quick repetitive motion on the gyro wheel simultaneously, has realized that the device provides horizontal vibration and vertical vibration simultaneously, the real operating mode environment of better simulation.

Drawings

Fig. 1 is a schematic structural view of the platform of the present invention located on the movable block;

FIG. 2 is a schematic structural view of the platform of the present invention in a trench;

FIG. 3 is a schematic view of the connection rod and the mounting bracket of the present invention;

in the figure: 1-a platform; 2-a through hole; 3-a connecting rod; 4-a mounting frame; 5-a first electric telescopic rod; 6, fixing blocks; 7-a motor; 8-a rotating device; 9-a controller; 10-a support bar; 11-a groove; 12-a ground tank; 13-a second electric telescopic rod; 14-a base; 15-a roller; 16-a chute; 17-a mounting block; 18-a bump; 19-a movable block; 20-a connecting means; 21-a lifting device; 22-card slot.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative work belong to the protection scope of the present invention.

Referring to fig. 1-3, the present invention provides a technical solution: an intelligent mine simulation test platform comprises a geosyncline 12, a groove 11 is formed in the geosyncline 12, lifting devices 21 are mounted at the bottom of the interior of the groove 11, the number of the lifting devices 21 is four, the four lifting devices 21 are distributed in the groove 11 in a matrix manner, a platform 1 is arranged at the top of each lifting device 21, the platform 1 is in sliding connection with the groove 11, supporting rods 10 are arranged on two sides of the top end of the geosyncline 12, the number of the supporting rods 10 is four, the four supporting rods 10 are respectively located at four corners of the exterior of the geosyncline 12, a rotating device 8 is mounted at the top of each supporting rod 10, one end of each rotating device 8 is located above the platform 1, a fixed block 6 is arranged between each two rotating devices 8 on two sides of the geosyncline 12, a connecting device 20 is mounted on one side opposite to each fixed block 6, one end of each connecting, install controller 9 on the bracing piece 10, rise platform 1 to four rotary device 8 between from ground through elevating gear 21, realized mining machinery to testing platform's quick travel, solved current testing platform and required hoisting apparatus to transport testing platform with mining machinery, let testing platform's detection efficiency greatly reduced's problem.

Further, connecting device 20 includes first electric telescopic handle 5 and connecting rod 3, first electric telescopic handle 5 is located one side of fixed block 6, first electric telescopic handle 5 and 6 fixed connection of fixed block, the one end fixedly connected with mounting bracket 4 of first electric telescopic handle 5, connecting rod 3 is located the bottom of mounting bracket 4, connecting rod 3 and mounting bracket 4 fixed connection, connecting device 20 lets platform 1 quick round trip movement on movable block 19, and gyro wheel 15 plays the effect of supporting with the anterograde, vibrations about the high-speed motion between the different media can be produced in platform 1 quick repetitive motion on gyro wheel 15 simultaneously, horizontal vibration and vertical vibration have been provided simultaneously to the device, better true operating mode environment of simulation.

Specifically, through-hole 2 has been seted up on platform 1, and connecting rod 3 is located the inside of through-hole 2, and connecting rod 3 and through-hole 2 sliding connection, the relation of connection between connecting device 20 and the platform 1 has not only been solved in the setting of through-hole 2 and connecting rod 3, has also fixed the home range of platform 1 on movable block 19 during expert.

It is worth mentioning that the rotating device 8 comprises an installation block 17 and a motor 7, the installation block 17 is located at the top of the support rod 10, the installation block 17 is fixedly connected with the support rod 10, the motor 7 is located inside the installation block 17, one end of the motor 7 is rotatably connected with a movable block 19, the movable block 19 is located outside the installation block 17, and the movable block 19 is rotatably connected with the installation block 17.

Furthermore, a sliding groove 16 is formed in the mounting block 17, a protruding block 18 is arranged at one end of the movable block 19, the protruding block 18 is located in the sliding groove 16, and the protruding block 18 is slidably connected with the sliding groove 16.

Further, a roller 15 is arranged on the movable block 19, the roller 15 is rotatably connected with the movable block 19, the platform 1 is located on the roller 15, and the platform 1 is slidably connected with the roller 15.

Further, elevating gear 21 includes second electric telescopic handle 13 and base 14, second electric telescopic handle 13 is located the inside bottom of geosyncline 12, base 14 is located the top of second electric telescopic handle 13, draw-in groove 22 has been seted up on platform 1, base 14 is located the inside of draw-in groove 22, base 14 is connected with draw-in groove 22 block, base 14 and draw-in groove 22 set up let platform 1 get back to in the card that can be accurate goes into recess 11 when ground, platform 1 and ground parallel and level make things convenient for the mining machinery to move to platform 1 on.

In summary, the motor 7, the first electric telescopic rod 5 and the second electric telescopic rod 13 are all electrically connected to the controller 9.

The motor 7 adopts a servo motor, the first electric telescopic rod 5 and the second electric telescopic rod 13 both adopt LX700 series electric telescopic rods, and the controller 9 adopts KY 002S.

The utility model discloses a theory of operation and use flow: the utility model discloses when using, mining machinery drags on platform 1 in geosyncline 12 through the tractor, elevating gear 21 in the recess 11 starts, the electronic flexible of second, 13 the top of rotary device 8 is delivered to platform 1 through the effect of base 14 with draw-in groove 22, connecting rod 3 in connecting device 20 is located the inside of through-hole 2 this moment, motor 7 starts this moment, movable block 19 takes place to rotate through lug 18 and 16 effect on installation piece 17, let movable block 19 be located platform 1's below, second electric telescopic handle 13 resets this moment, platform 1 falls on gyro wheel 15, first electric telescopic handle 5 on fixed block 6 starts, let platform 1 make a round trip the quick motion on gyro wheel 15 through mounting bracket 4 and connecting rod 3, simulate the influence of true operating mode to equipment, bracing piece 10 plays the effect of supporting whole equipment.

Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.

Claims (7)

1. The utility model provides an intelligence mine simulation test platform, includes geosyncline (12), its characterized in that: a groove (11) is formed in the ground groove (12), a lifting device (21) is installed at the bottom in the groove (11), a platform (1) is arranged at the top of the lifting device (21), the platform (1) is connected with the groove (11) in a sliding mode, supporting rods (10) are arranged on two sides of the top end of the ground groove (12), the number of the supporting rods (10) is four, the four supporting rods (10) are respectively located at four corners outside the ground groove (12), a rotating device (8) is installed at the top of each supporting rod (10), one end of each rotating device (8) is located above the platform (1), a fixed block (6) is arranged between each two rotating devices (8) on two sides of the ground groove (12), a connecting device (20) is installed on one side, opposite to each fixed block (6), one end of each connecting device (20) is located on the platform (1), the connecting device (20) is connected with the platform (1) in a sliding mode, and the supporting rod (10) is provided with the controller (9).

2. The intelligent mine simulation test platform of claim 1, wherein: connecting device (20) include first electric telescopic handle (5) and connecting rod (3), first electric telescopic handle (5) are located one side of fixed block (6), first electric telescopic handle (5) and fixed block (6) fixed connection, the one end fixedly connected with mounting bracket (4) of first electric telescopic handle (5), connecting rod (3) are located the bottom of mounting bracket (4), connecting rod (3) and mounting bracket (4) fixed connection.

3. The intelligent mine simulation test platform of claim 2, wherein: the platform is characterized in that the platform (1) is provided with a through hole (2), the connecting rod (3) is located inside the through hole (2), and the connecting rod (3) is connected with the through hole (2) in a sliding mode.

4. The intelligent mine simulation test platform of claim 1, wherein: rotating device (8) are including installation piece (17) and motor (7), installation piece (17) are located the top of bracing piece (10), installation piece (17) and bracing piece (10) fixed connection, motor (7) are located the inside of installation piece (17), the one end of motor (7) is rotated and is connected with movable block (19), movable block (19) are located the outside of installation piece (17), movable block (19) rotate with installation piece (17) and are connected.

5. The intelligent mine simulation test platform of claim 4, wherein: the inside of installation piece (17) has been seted up spout (16), the one end of movable block (19) is provided with lug (18), lug (18) are located the inside of spout (16), lug (18) and spout (16) sliding connection.

6. The intelligent mine simulation test platform of claim 4, wherein: be provided with gyro wheel (15) on movable block (19), gyro wheel (15) rotate with movable block (19) and are connected, platform (1) is located gyro wheel (15), platform (1) and gyro wheel (15) sliding connection.

7. The intelligent mine simulation test platform of claim 1, wherein: elevating gear (21) include second electric telescopic handle (13) and base (14), second electric telescopic handle (13) are located the inside bottom of geosyncline (12), base (14) are located the top of second electric telescopic handle (13), draw-in groove (22) have been seted up on platform (1), base (14) are located the inside of draw-in groove (22), base (14) are connected with draw-in groove (22) block.

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