CN204827452U - Ore miner with real time monitoring function - Google Patents

Abstract

The utility model provides an ore miner with real time monitoring function, the on -line screen storage device comprises a base, strutting arrangement, mining devices, collection device and recovery unit, be equipped with first through -hole on the base, first pipeline, first valve and gyro wheel, strutting arrangement includes first support column, first horizontal pole, a first support, and a second support, the camera, the bulb, first down tube, second support and third support, mining devices includes the cylinder, the catch bar, including a motor, an end cap, a controller, and a cover plate, the drill bit, the hob, the dead lever, backup pad and cushion, recovery unit fights including retrieving, fixed frame, locating lever and spring, collection device includes the collecting box, three hornblocks, gyro wheel and lug, cave in left and be the curved surface form in the right surface that the recovery was fought. The utility model discloses can carry out quick smashing to the ore, smash effectually to it is efficient, and in the kibbling while, can retrieve the ore that drops, reduce the waste of resource, simultaneously owing to the setting of camera, still can the real time monitoring ore exploitation condition under the abominable condition of some environment.

Description

A kind of ore extraction machine with real-time monitoring and control

Technical field

The utility model relates to ore field of mechanical technique, especially relates to a kind of ore extraction machine with real-time monitoring and control.

Background technology

Present stage adopt various mobile time the ore extraction machinery ore extraction mode that instead of traditional baked wheaten cake widely and bombarded, quarrying apparatus time mobile has the advantages that cost is low, efficiency is high, especially little to ambient influnence, meet the requirement of environmental protection, but existing quarrying complicated in mechanical structure, complex operation, and be the main equipment that cost is higher mostly, mobile and flexibility is inadequate, simultaneously scenes of some exploitations are not suitable for personnel and stay for a long time, so effectively cannot observe the service condition of miner.

Therefore, be necessary to provide a kind of new technical scheme to overcome above-mentioned defect.

Summary of the invention

The purpose of this utility model is to provide a kind of ore extraction machine with real-time monitoring and control that can effectively solve the problems of the technologies described above.

For reaching the object of the utility model, adopt following technical scheme:

There is an ore extraction machine for real-time monitoring and control, described in there is real-time monitoring and control ore extraction machine comprise base, be positioned at the bracing or strutting arrangement above described base, be positioned at the quarrying apparatus on the right side of described bracing or strutting arrangement, the retracting device being positioned at the gathering-device below described quarrying apparatus and being positioned on the right side of described gathering-device, described base is provided with the first through hole running through its upper and lower surface, be positioned at the first pipeline below described first through hole, the roller being arranged at the first valve on described first pipeline and being positioned at below described base, described bracing or strutting arrangement comprises the first support column, be positioned at the first cross bar on the right side of described first support column, be positioned at the first support above described first cross bar, be arranged at the camera on described first cross bar, be arranged at the bulb on described first support, be positioned at the first brace below described first cross bar, be positioned at the second support on the right side of described first support column and be positioned at the 3rd support on the right side of described second support, described quarrying apparatus comprises cylinder, be positioned at the catch bar on the right side of described cylinder, be positioned at the motor on the right side of described catch bar, be positioned at the drill bit on the right side of described motor, be arranged at the screw rod on described drill bit, be positioned at the fixed bar above described cylinder, the cushion block being positioned at the gripper shoe below described cylinder and being positioned at above described gripper shoe, described retracting device comprises recovery bucket, be positioned at the described fixed frame reclaiming bucket below, the backstay being positioned at described fixed frame inside and the spring be positioned on the left of described backstay, described gathering-device comprises collecting box, be positioned at the corner block of described collecting box inside, the projection being positioned at the roller above described corner block and being arranged on described roller, caves in left in curved in the right surface of described recovery bucket.

Described first support column is cuboid, described first support column is vertically placed, the soffit of described first support column is fixedly connected with the upper surface of described base, described first cross bar is cuboid, described first cross bar horizontal positioned, the left surface of described first cross bar is fixedly connected with the right surface of described first support column.

Described first support is inverted concave character type, and one end of described first support is fixedly connected with the upper surface of described first cross bar, and described camera is fixedly connected with the soffit of described first cross bar.

Described collecting box is cuboid, and the soffit of described collecting box is fixedly connected with the upper surface of described base, and the upper surface of described collecting box is recessed to form the second host cavity downwards.

Described gripper shoe is cuboid, described gripper shoe horizontal positioned, and the left surface of described gripper shoe is fixedly connected with the right surface of described first support column, and described 3rd support is fixedly connected with the soffit of described gripper shoe.

The left surface of described cylinder is fixedly connected with the right surface of described first support column, the soffit of described cylinder is fixedly connected with the upper surface of described gripper shoe, described fixed bar is L-type, one end of described fixed bar is fixedly connected with the right surface of described first support column, and the other end of described fixed bar leans on the right surface of described cylinder.

Described catch bar is cylinder, described catch bar horizontal positioned, and the left end of described catch bar is connected with described cylinder, and the right-hand member of described catch bar is fixedly connected with the left surface of described motor.

The described upper surface reclaiming bucket is that upper right lower left tilts, and the soffit of described recovery bucket is horizontal.

Described fixed frame is cuboid, and the soffit of described fixed frame is fixedly connected with the upper surface of described base, and the upper surface of described fixed frame is recessed to form the first host cavity downwards, and the soffit of described recovery bucket contacts with the upper surface of described fixed frame.

Described backstay is cuboid, described backstay is vertically placed, the upper surface of described backstay is fixedly connected with the described soffit struggled against that reclaims, described backstay is contained in described first host cavity, the left end of described spring is fixedly connected with the inner surface of described fixed frame, and the right-hand member of described spring is fixedly connected with the left surface of described backstay.

Compared with prior art, the utility model has following beneficial effect: the ore extraction machine structure that the utility model has real-time monitoring and control is simple, easy to use, can pulverize fast ore, good crushing effect, and efficiency is high, and while pulverizing, the ore dropped can be reclaimed, reduce the waste of resource, simultaneously due to the setting of camera, can monitor in real time the situation of exploitation, and impact is transferred to control terminal, still can monitor ore extraction situation in real time when some bad environments.

Accompanying drawing explanation

Fig. 1 is the structural representation that the utility model has the ore extraction machine of real-time monitoring and control.

Detailed description of the invention

Below in conjunction with accompanying drawing, clear complete explanation is made to the ore extraction machine that the utility model has real-time monitoring and control.

As shown in Figure 1, the retracting device 4 that the ore extraction machine that the utility model has a real-time monitoring and control comprises base 1, be positioned at bracing or strutting arrangement 2 above described base 1, be positioned at quarrying apparatus 3 on the right side of described bracing or strutting arrangement 2, be positioned at the gathering-device 5 below described quarrying apparatus 3 and be positioned on the right side of described gathering-device 5.

As shown in Figure 1, described base 1 is in cuboid, described base 1 horizontal positioned, described base 1 is provided with the first through hole 12 running through its upper and lower surface, the roller 11 being positioned at the first pipeline 13 below described first through hole 12, being arranged at the first valve 14 on described first pipeline 13 and being positioned at below described base 1.Described roller 11 is provided with two and lays respectively at the left and right sides, and described roller 11 is in cylinder, and described roller 11 can roll.Described first through hole 12 is in cylindrical shape.Described first pipeline 13 for cross section be the main body of annulus, the upper end of described first pipeline 13 is aimed at the first through hole 12 and is fixedly connected with the soffit of described base 1.Described first valve 14 is arranged on described first pipeline 13, for controlling the flow of ore in described first pipeline 13.

As shown in Figure 1, described bracing or strutting arrangement 2 comprise the first support column 21, be positioned at the first cross bar 22 on the right side of described first support column 21, be positioned at the first support 23 above described first cross bar 22, the camera 24 be arranged on described first cross bar 22, the bulb 25 be arranged on described first support 23, the 3rd support 28 that is positioned at the first brace 26 below described first cross bar 22, is positioned at the second support 27 on the right side of described first support column 21 and is positioned on the right side of described second support 27.Described first support column 21 is in cuboid, and described first support column 21 is vertically placed, and the soffit of described first support column 21 is fixedly connected with the upper surface of described base 1.Described first cross bar 22 is in cuboid, and described first cross bar 22 horizontal positioned, the left surface of described first cross bar 22 is fixedly connected with the right surface of described first support column 21.Described first support 23 is in inverted concave character type, and one end of described first support 23 is fixedly connected with the upper surface of described first cross bar 22, and the other end of described first support 23 straight down.Described camera 24 is fixedly connected with the soffit of described first cross bar 22, and described camera 24 is positioned at the right side of described first cross bar 22 soffit.Described bulb 25 is fixedly connected with described first support 23.Described first brace 26 tilts in lower left upper right side, and the left end of described first brace 26 is fixedly connected with the right surface of described first support column 21, and the right-hand member of described first brace 26 is fixedly connected with the soffit of described first cross bar 22.Described second support 27 is in L-type, and one end of described second support 27 is fixedly connected with the right surface of described first support column 21, and the other end of described second support 27 is fixedly connected with the upper surface of described base 1.Described 3rd support 28 is in L-type, and one end of described 3rd support 28 is fixedly connected with described second support 27, and the other end of described 3rd support 28 straight up.

As shown in Figure 1, described quarrying apparatus 3 comprise cylinder 31, be positioned at catch bar 32 on the right side of described cylinder 31, be positioned at motor 33 on the right side of described catch bar 32, be positioned at the drill bit 34 on the right side of described motor 33, the screw rod 35 be arranged on described drill bit 34, the cushion block 38 that is positioned at fixed bar 36 above described cylinder 31, is positioned at the gripper shoe 37 below described cylinder 31 and is positioned at above described gripper shoe 37.Described gripper shoe 37 is in cuboid, and described gripper shoe 27 horizontal positioned, the left surface of described gripper shoe 37 is fixedly connected with the right surface of described first support column 21, and described 3rd support 28 is fixedly connected with the soffit of described gripper shoe 37.The left surface of described cylinder 31 is fixedly connected with the right surface of described first support column 21, and the soffit of described cylinder 31 is fixedly connected with the upper surface of described gripper shoe 37.Described fixed bar 36 is in L-type, and one end of described fixed bar 36 is fixedly connected with the right surface of described first support column 21, and the other end of described fixed bar 36 leans on the right surface of described cylinder 31.Described catch bar 32 is in cylinder, described catch bar 32 horizontal positioned, the left end of described catch bar 32 is connected with described cylinder 31, and described catch bar 32 is moved left and right under the effect of described cylinder 31, and the right-hand member of described catch bar 32 is fixedly connected with the left surface of described motor 33.Described cushion block 38 is in cuboid, and the soffit of described cushion block 38 is fixedly connected with the upper surface of described gripper shoe 37.The soffit of described motor 33 contacts with the upper surface of described cushion block 38.The left end of described drill bit 34 is connected with described motor 33, makes described motor 33 drive described drill bit 34 to rotate.Described screw rod 35 to be arranged on described drill bit 34 and to be fixedly connected with described drill bit 34.

As shown in Figure 1, described retracting device 4 comprises recovery bucket 41, is positioned at the fixed frame 42 below described recovery bucket 41, the backstay 43 being positioned at described fixed frame 42 inside and the spring 44 be positioned on the left of described backstay 43.The upper surface of described recovery bucket 41 is that upper right lower left tilts, and the soffit of described recovery bucket 41 is horizontal, caves in left in curved in the right surface of described recovery bucket 41, and described recovery bucket 41 is positioned at immediately below described drill bit 34.Described fixed frame 42 is in cuboid, the soffit of described fixed frame 42 is fixedly connected with the upper surface of described base 1, the upper surface of described fixed frame 42 is recessed to form the first host cavity 421 downwards, described first host cavity 421 is in rectangular-shaped, and the soffit of described recovery bucket 41 contacts with the upper surface of described fixed frame 42.Described backstay 43 is in cuboid, and described backstay 43 is vertically placed, and the upper surface of described backstay 43 is fixedly connected with the soffit of described recovery bucket 41, and described backstay 43 is contained in described first host cavity 421.Described spring 44 is provided with two and lays respectively at the left and right sides, and the left end of described spring 44 is fixedly connected with the inner surface of described fixed frame 42, and the right-hand member of described spring 44 is fixedly connected with the left surface of described backstay 43.

As shown in Figure 1, described gathering-device 5 comprise collecting box 51, the corner block 52 that is positioned at described collecting box 51 inside, the projection 54 that is positioned at the roller 53 above described corner block 52 and is arranged on described roller 53.Described collecting box 51 is in cuboid, and the soffit of described collecting box 51 is fixedly connected with the upper surface of described base 1, and the upper surface of described collecting box 51 is recessed to form the second host cavity downwards, and described second host cavity is rectangular-shaped.Described collecting box 51 is provided with the second through hole 511, and described second through hole 511 is in cylindrical shape, and described second through hole 511 is positioned at directly over described first through hole 12.The soffit of described corner block 52 is fixedly connected with the bottom surface of described second host cavity, and the upper surface of described corner block 52 is that upper right lower left tilts, and makes ore landing to left side, then enters into the second through hole 511 and discharge.Described roller 53 is in cylinder, and described roller 53 to be contained in described second host cavity and can to roll.Described projection 54 semicircular in shape, described projection 54 is provided with several, and described projection 54 is fixedly connected with described roller 53.Described collecting box 51 is positioned at the below of described recovery bucket 41.

As shown in Figure 1, when described the utility model has the ore extraction machine use of real-time monitoring and control, suitable position is first moved to.Then start cylinder 31 and motor 33, drill bit 34 is constantly rotated, constantly move left and right simultaneously, thus effectively can exploit ore.Reclaim bucket 41 leans on ore simultaneously, and because the right surface of reclaiming bucket 41 is bending, the upper end of reclaiming the right surface of bucket 41 is contacted with ore, the ore dropped during drill bit 34 is exploited can drop on the upper surface of recovery bucket 41.Then be slipped in collecting box 51, then after the rotation sub-material of roller 53, enter into the second through hole 511 through the landing of corner block 52 upper surface medium to be discharged.Due to the setting of spring 44, making to reclaim bucket 41 can lean on ore always.So far, the ore extraction machine use procedure that the utility model has a real-time monitoring and control is described.

The above; be only detailed description of the invention of the present utility model, but protection domain of the present utility model is not limited thereto, any those skilled in the art are in the technical scope that the present invention discloses; change can be expected easily or replace, all should be encompassed within protection domain of the present utility model.Therefore, protection domain of the present utility model should be as the criterion with the protection domain of described claim.

Claims (10)

1. there is an ore extraction machine for real-time monitoring and control, it is characterized in that: described in there is real-time monitoring and control ore extraction machine comprise base, be positioned at the bracing or strutting arrangement above described base, be positioned at the quarrying apparatus on the right side of described bracing or strutting arrangement, the retracting device being positioned at the gathering-device below described quarrying apparatus and being positioned on the right side of described gathering-device, described base is provided with the first through hole running through its upper and lower surface, be positioned at the first pipeline below described first through hole, the roller being arranged at the first valve on described first pipeline and being positioned at below described base, described bracing or strutting arrangement comprises the first support column, be positioned at the first cross bar on the right side of described first support column, be positioned at the first support above described first cross bar, be arranged at the camera on described first cross bar, be arranged at the bulb on described first support, be positioned at the first brace below described first cross bar, be positioned at the second support on the right side of described first support column and be positioned at the 3rd support on the right side of described second support, described quarrying apparatus comprises cylinder, be positioned at the catch bar on the right side of described cylinder, be positioned at the motor on the right side of described catch bar, be positioned at the drill bit on the right side of described motor, be arranged at the screw rod on described drill bit, be positioned at the fixed bar above described cylinder, the cushion block being positioned at the gripper shoe below described cylinder and being positioned at above described gripper shoe, described retracting device comprises recovery bucket, be positioned at the described fixed frame reclaiming bucket below, the backstay being positioned at described fixed frame inside and the spring be positioned on the left of described backstay, described gathering-device comprises collecting box, be positioned at the corner block of described collecting box inside, the projection being positioned at the roller above described corner block and being arranged on described roller, caves in left in curved in the right surface of described recovery bucket.

2. there is the ore extraction machine of real-time monitoring and control as claimed in claim 1, it is characterized in that: described first support column is cuboid, described first support column is vertically placed, the soffit of described first support column is fixedly connected with the upper surface of described base, described first cross bar is cuboid, described first cross bar horizontal positioned, the left surface of described first cross bar is fixedly connected with the right surface of described first support column.

3. there is the ore extraction machine of real-time monitoring and control as claimed in claim 2, it is characterized in that: described first support is inverted concave character type, one end of described first support is fixedly connected with the upper surface of described first cross bar, and described camera is fixedly connected with the soffit of described first cross bar.

4. there is the ore extraction machine of real-time monitoring and control as claimed in claim 3, it is characterized in that: described collecting box is cuboid, the soffit of described collecting box is fixedly connected with the upper surface of described base, and the upper surface of described collecting box is recessed to form the second host cavity downwards.

5. there is the ore extraction machine of real-time monitoring and control as claimed in claim 4, it is characterized in that: described gripper shoe is cuboid, described gripper shoe horizontal positioned, the left surface of described gripper shoe is fixedly connected with the right surface of described first support column, and described 3rd support is fixedly connected with the soffit of described gripper shoe.

6. there is the ore extraction machine of real-time monitoring and control as claimed in claim 5, it is characterized in that: the left surface of described cylinder is fixedly connected with the right surface of described first support column, the soffit of described cylinder is fixedly connected with the upper surface of described gripper shoe, described fixed bar is L-type, one end of described fixed bar is fixedly connected with the right surface of described first support column, and the other end of described fixed bar leans on the right surface of described cylinder.

7. there is the ore extraction machine of real-time monitoring and control as claimed in claim 6, it is characterized in that: described catch bar is cylinder, described catch bar horizontal positioned, the left end of described catch bar is connected with described cylinder, and the right-hand member of described catch bar is fixedly connected with the left surface of described motor.

8. have the ore extraction machine of real-time monitoring and control as claimed in claim 7, it is characterized in that: the described upper surface reclaiming bucket is that upper right lower left tilts, the soffit of described recovery bucket is horizontal.

9. there is the ore extraction machine of real-time monitoring and control as claimed in claim 8, it is characterized in that: described fixed frame is cuboid, the soffit of described fixed frame is fixedly connected with the upper surface of described base, the upper surface of described fixed frame is recessed to form the first host cavity downwards, and the soffit of described recovery bucket contacts with the upper surface of described fixed frame.

10. there is the ore extraction machine of real-time monitoring and control as claimed in claim 9, it is characterized in that: described backstay is cuboid, described backstay is vertically placed, the upper surface of described backstay is fixedly connected with the described soffit struggled against that reclaims, described backstay is contained in described first host cavity, the left end of described spring is fixedly connected with the inner surface of described fixed frame, and the right-hand member of described spring is fixedly connected with the left surface of described backstay.