阅读说明：本技术 一种矿山机械的微感应计数传输带设备 (Micro-sensing counting transmission belt equipment of mining machinery ) 是由 张利 于 2019-08-07 设计创作，主要内容包括：本发明是一种矿山机械的微感应计数传输带设备,包括本体架、至少四个升降螺栓、制动装置、带动运输装置、数控操作控制板和微感传感器组合,所述的本体架底部两侧各螺纹连接圆柱支腿,升降螺栓上下两端分别连接钢丝绳绳,圆柱支腿与本体架上方表面通过升降螺栓上下两端的钢丝绳绳连接,本体架下部连接电动机,本体架中部焊接横梁管焊接涡轮箱和无级变速箱,涡轮箱皮带连接电动机,涡轮箱滚轴连接无级变速箱,无级变速箱皮带连接带动运输装置的皮带轮,结合微感传感器、压辊、调节螺栓和推杆限位开关完成微感应计数传输,本次设备突破了传统意义上的传输带装置,实现以维护快传输的机械设备。(The invention relates to a micro-induction counting transmission belt device of mining machinery, which comprises a body frame, at least four lifting bolts, a braking device, a driving and transporting device, a numerical control operation control panel and a micro-induction sensor combination, wherein two sides of the bottom of the body frame are respectively connected with cylindrical supporting legs in a threaded manner, the upper ends and the lower ends of the lifting bolts are respectively connected with a steel wire rope, the cylindrical supporting legs are connected with the upper surface of the body frame through the steel wire ropes at the upper ends and the lower ends of the lifting bolts, the lower part of the body frame is connected with a motor, a cross beam pipe is welded in the middle of the body frame, a turbine box and a stepless speed changing box are welded, a turbine box belt is connected with the motor, a turbine box roller shaft is connected with the stepless speed changing box, the belt of the stepless speed changing box is connected with a belt pulley, this is achieved to maintain fast-transferring mechanical equipment.)

1. The invention relates to a micro-sensing counting transmission belt device of mining machinery, which comprises a body frame (1), at least four lifting bolts (2), a braking device (3), a driving and conveying device (4), a numerical control operation control panel (5) and a micro-sensing sensor assembly (6), and is characterized in that the body frame (1) comprises at least four cylindrical supporting legs (7) and a groove frame (8), both sides of the bottom of the body frame (1) are in threaded connection with the cylindrical supporting legs (7), a steel wire rope at the upper end of each lifting bolt (2) is connected with the surface of the upper part of the body frame (1), a steel wire rope at the lower end of each lifting bolt (2) is connected with the cylindrical supporting legs (7), the braking device (3) comprises a motor (8), a turbine box (9) and a stepless speed changing box (10), the bottom of the body frame (1) is fixedly connected with the motor (8), and the middle part of the body frame (1) is fixedly connected with a fixing, the upper part of a fixing block I (1.1) is fixedly connected with a turbine box (9), the upper part of a fixing block II (1.2) is fixedly connected with a continuously variable transmission case (10), the turbine box (9) is connected with the continuously variable transmission case (10) through a roller, the upper part of a body frame (10) is provided with a groove frame (8), the inside of the groove frame (8) is provided with a driving and conveying device (4), the driving and conveying device (4) comprises a belt pulley (4.1), a balance wheel (4.2), a transmission belt (4.3), a plurality of compression rollers (4.4) and a distance adjusting bolt (4.5), the belt pulley (4.1) is fixedly connected with one end of the groove frame (8), the balance wheel (4.2) is connected with the other end of the groove frame (8) through a shaft bolt (11), the belt pulley (4.1) is connected with the continuously variable transmission case (10), the transmission belt (4.3) is sequentially attached to the surface of the belt pulley (4.1), the surface of the balance wheel (4., the inner surface of the groove frame (8) is welded with a plurality of compression rollers (4.4), one end of a distance adjusting bolt (4.5) is welded with a handle (12), the other end of the distance adjusting bolt (4.5) penetrates through a through hole (1.3) arranged on the surface of the body frame (1) and is in threaded connection with a shaft bolt (11), the middle part of the transmission belt (4.3) is provided with a micro-sensor combination (6), the micro-sensor combination (6) comprises a quality sensor (13), a photoelectric technology sensor (14), an electromagnetic push rod (15) and a push rod limit switch (16), the quality sensor (13) and the photoelectric technology sensor (14) are arranged at one end of a balance wheel (4.2) of the transmission belt (4.3), the electromagnetic push rod (15) and the push rod limit switch (16) are symmetrically arranged at two sides of one end of a belt pulley (4.1) of the transmission belt (4.3), the upper part of the groove frame (8) close to the balance wheel (4.2) is fixedly connected, the upper part of the fixed rod (17) is connected with a numerical control operation control panel (5), the leads of the numerical control operation control panel (5) are respectively connected with a quality sensor (13), a photoelectric technology sensor (14) and a push rod limit switch (16), and the leads of the electromagnetic push rod (15) are connected with the push rod limit switch (16).

2. The micro-induction counting conveyor belt equipment for mining machinery as claimed in claim 1, wherein the conveyor belt (4.3) is composed of at least two sections of belts (18), the belts (18) are connected with each other by using a chain plate block (22), the chain plate block (22) is composed of two lower bottom plates (19), two upper bottom plates (20), four flange plates (21), and a connecting plate (23), the upper ends of the lower bottom plates (19), the upper ends of the upper bottom plates (20), and one ends of the belts (18) are provided with hole sites corresponding to the holes of the flange plates (21), the interlayer between the upper ends of the lower bottom plates (19) and the upper ends of the upper bottom plates (20) is tightly attached to one end of the belts (18), the interlayer between the flange plates (21) is tightly attached to the upper ends of the lower bottom plates (19), one ends of the belts (18), and the upper ends of the upper bottom plates (20) are connected by screws, and the screw connection between the flange plates (21) sequentially penetrates through the upper ends of the lower bottom plates (19), Hole positions corresponding to the holes of the flange plate (21) are formed in one end of the belt (18) and the upper end of the upper bottom plate (20), the connection mode of the upper end of the upper bottom plate (20) and the upper end of the lower bottom plate (19) is the same as the connection mode of the lower end of the upper bottom plate (20) and the lower end of the lower bottom plate (19), the connecting piece (23) is arranged in the middle of the chain plate block (22), and one end of the connecting piece (23) is connected in an interlayer of the upper bottom plate (20) and the lower bottom plate (19) through rivets.

3. The mining machine microsensor counting conveyor belt installation according to claim 2, characterized in that the lower base sheet (19) and the upper base sheet (20) are made of silicon carbide, the interlayer between the press rollers (4.4) being in close contact with the surface of the conveyor belt (4.3).

Technical Field

The invention relates to a micro-sensing counting transmission belt device of mining machinery, belonging to the technical field of mining machinery.

Background

With the development of the transmission device, the development from manual force tool transportation to mechanical transportation is gradually changed to the present completely mechanized transportation construction, the development of the transportation tool at the present stage is mostly limited to hydraulic drive or electric drive or other ways of providing kinetic energy for operation, and does not use a faster and resource-saving method for transportation and transportation in the further transportation process, the transmission device at the present stage is more single brake, no components are arranged around the transmission belt device in a combined manner, the later maintenance of the transmission device is difficult, the implementation of the lifting problem in the construction process is difficult, the quality, gravity and quantity of objects in transportation cannot be detected, the construction can only be assisted by other later equipment, and the whole construction time is a disadvantageous factor.

Disclosure of Invention

Aiming at the problems in the prior art, the invention provides a micro-sensing counting transmission belt device of mining machinery, which is driven by a plurality of kinetic energy, is provided with a turbine and an inorganic speed change device, can meet the requirements of different construction conditions, is provided with a detection device combination, realizes the lifting function, and reserves the following structural connection easy to maintain in the arrangement of each part.

In order to achieve the purpose, the invention is realized by the following technical scheme: a micro-sensing counting transmission belt device of mining machinery comprises a body frame, at least four lifting bolts, a braking device, a driving and transporting device, a numerical control operation control panel and a micro-sensing sensor combination, wherein the body frame comprises at least four cylindrical supporting legs and a groove frame, the two sides of the bottom of the body frame are both in threaded connection with the cylindrical supporting legs, a steel wire rope at the upper end of each lifting bolt is connected with the surface of the upper part of the body frame, a steel wire rope at the lower end of each lifting bolt is connected with the cylindrical supporting legs, the braking device comprises a motor, a turbine box and a stepless speed changing box, the bottom of the body frame is fixedly connected with the motor, the middle of the body frame is fixedly connected with a fixed block I and a fixed block II, the upper part of the fixed block I is fixedly connected with the turbine box, the upper part of the fixed block II is fixedly, the driving and conveying device comprises a belt pulley, a balance wheel, a transmission belt, a plurality of compression rollers and a distance adjusting bolt, wherein the belt pulley is fixedly connected at one end of a groove frame, the balance wheel is connected at the other end of the groove frame through a shaft bolt, the belt pulley and the belt are connected with a stepless speed changing box, the transmission belt is sequentially attached to the surface of the belt pulley, the surface of the balance wheel and the surface of the compression rollers, a plurality of compression rollers are welded on the inner surface of the groove frame, one end of the distance adjusting bolt is welded with a handle, the other end of the distance adjusting bolt penetrates through a through hole arranged on the surface of a body frame and is connected with the shaft bolt in a threaded manner, a micro-sensor combination is arranged in the middle of the transmission belt and comprises a quality sensor, a photoelectric technical sensor, an electromagnetic push rod and a push rod limit switch, the quality sensor and the photoelectric technical sensor, the upper part of one end of the groove frame close to the balance wheel is fixedly connected with a fixed rod, the upper part of the fixed rod is connected with a numerical control operation control panel, the numerical control operation control panel is respectively connected with a mass sensor, a photoelectric technology sensor and a push rod limit switch through wires, and an electromagnetic push rod is connected with the push rod limit switch through wires.

The transmission belt consists of at least two sections of belts which are connected by using a chain plate block, the chain plate block consists of two lower bottom sheets, two upper bottom sheets, four flange sheets and a connecting sheet, the upper ends of the lower bottom sheets, the upper ends of the upper bottom sheets and one end of each belt are respectively provided with a hole site corresponding to the hole of each flange sheet, the upper ends of the lower bottom sheets and the interlayer at the upper end of the upper bottom sheet are tightly attached to one end of each belt, the interlayers between the flange sheets are sequentially tightly attached to the upper ends of the lower bottom sheets, the upper end of the upper bottom sheet and the upper end of the lower bottom sheet are connected through screws, hole positions corresponding to the flange holes are formed in the upper ends of the lower bottom sheet, the belt and the upper bottom sheet in sequence, the connection mode of the upper end of the upper bottom sheet and the upper end of the lower bottom sheet is the same as that of the lower end of the upper bottom sheet and the lower end of the lower bottom sheet, the connecting sheet is arranged in the middle of the chain plate block, and one end of the connecting sheet is connected in an interlayer of the upper bottom sheet and the lower bottom sheet through rivets.

The lower bottom plate and the upper bottom plate are both made of carbonized silica gel, and the interlayer between the press rollers is tightly attached to the surface of the transmission belt.

In conclusion, the device has a plurality of kinetic energy drives, is provided with the turbine and the inorganic speed change device, can meet the requirements of different construction conditions, is provided with a detection device combination, realizes the lifting function, and reserves the following structural connection easy to maintain in the arrangement of each part.

Drawings

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

FIG. 2 is a schematic diagram of the structure of the plate of FIG. A chain according to the present invention;

FIG. 3 is a schematic view of the structure of the entraining transportation device;

FIG. 4 is a schematic diagram of the connection of a microsensor assembly;

in the figure: 1. the device comprises a body frame, 1.1, a fixing block I, 1.2, a fixing block II, 1.3, through holes, 2, lifting bolts, 3, a braking device, 4, a driving and conveying device, 4.1, belt pulleys, 4.2, balance wheels, 4.3, a conveying belt, 4.4, a compression roller, 4.5, a distance adjusting bolt, 5, a numerical control operation control panel, 6, a micro-sensor combination, 7, cylindrical supporting legs, 8, a groove frame, 9, a turbine box, 10, a stepless speed changing box, 11, a shaft bolt, 13, a quality sensor, 14, a photoelectric technology sensor, 15, an electromagnetic push rod, 16, a push rod limit switch, 17, a fixing rod, 18, a belt, 19, a lower bottom plate, 20, an upper bottom plate, 21, a flange plate, 22, a chain plate block, 23 and a connecting plate.

Detailed Description

The invention is further described below with reference to the accompanying drawings.

As shown in fig. 1 to 4, the invention is a micro-sensing counting transmission belt device of mining machinery, which comprises a body frame 1, at least four lifting bolts 2, a braking device 3, a driving and transporting device 4, a numerical control operation control panel 5 and a micro-sensing sensor assembly 6, and is characterized in that the body frame 1 comprises at least four cylindrical supporting legs 7 and a groove frame 8, both sides of the bottom of the body frame 1 are in threaded connection with the cylindrical supporting legs 7, a steel wire rope at the upper end 2 of each lifting bolt is connected with the upper surface of the body frame 1, a steel wire rope at the lower end of each lifting bolt 2 is connected with the cylindrical supporting legs 7, the braking device 3 comprises a motor 8, a turbine box 9 and a stepless gearbox 10, the bottom of the body frame 1 is fixedly connected with the motor 8, the middle of the body frame 1 is fixedly connected with a fixing block i 1.1 and a fixing block ii 1.2, the upper part of the fixing block i 1.1 is fixedly connected, the turbine box 9 is connected with a stepless speed changing box 10 through a rolling shaft, the upper part of the body frame 10 is provided with a groove frame 8, the inside of the groove frame 8 is provided with a driving and transporting device 4, the driving and transporting device 4 comprises a belt pulley 4.1, a balance wheel 4.2, a transmission belt 4.3, a plurality of compression rollers 4.4 and a distance adjusting bolt 4.5, the belt pulley 4.1 is fixedly connected with one end of the groove frame 8, the balance wheel 4.2 is connected with the other end of the groove frame 8 through a shaft bolt 11, the belt pulley 4.1 is connected with the stepless speed changing box 10 through a belt, the transmission belt 4.3 is sequentially and tightly attached to the surface of the belt pulley 4.1, the surface of the balance wheel 4.2 and the surface of the compression roller 4.4, the surface of the inside of the groove frame 8 is welded with a plurality of compression rollers 4.4, one end of the distance adjusting bolt 4.5 is welded with a handle 12, the other end of the distance adjusting bolt 4.5 penetrates through a through hole 1.3, the micro-sensor combination 6 comprises a mass sensor 13, a photoelectric technology sensor 14, an electromagnetic push rod 15 and a push rod limit switch 16, the mass sensor 13 and the photoelectric technology sensor 14 are arranged at one end of a balance wheel 4.2 of a transmission belt 4.3, the electromagnetic push rod 15 and the push rod limit switch 16 are symmetrically arranged at two sides of one end of a belt pulley 4.1 of the transmission belt 4.3, a fixing rod 17 is fixedly connected to the upper portion of one end of a groove frame 8 close to the balance wheel 4.2, the upper portion of the fixing rod 17 is connected with a numerical control operation control panel 5, the numerical control operation control panel 5 is respectively connected with the mass sensor 13 through wires, the photoelectric technology sensor 14 and the push rod limit switch 16 through wires, and the electromagnetic push rod.

The transmission belt 4.3 consists of at least two sections of belts 18, the belts 18 are connected by using a chain plate block 22, the chain plate block 22 consists of two lower bottom sheets 19, two upper bottom sheets 20, four flange sheets 21 and a connecting sheet 23, the upper end of the lower bottom sheet 19, the upper end of the upper bottom sheet 20 and one end of the belts 18 are all provided with hole sites corresponding to the holes of the flange sheets 21, the upper end of the lower bottom sheet 19 and the interlayer at the upper end of the upper bottom sheet 20 are tightly attached to one end of the belts 18, the interlayer between the flange sheets 21 is sequentially tightly attached to the upper end of the lower bottom sheet 19, one end of the belts 18 and the upper end of the upper bottom sheet 20, the flange sheets 21 are connected by screws and sequentially penetrate through the upper end of the lower bottom sheet 19, the hole sites corresponding to the holes of the flange sheets 21 are arranged at one end of the belts 18 and the upper end of the upper bottom sheet 19, the connection mode of the upper, the connecting sheet 23 is arranged in the middle of the chain plate block 22, and one end of the connecting sheet 23 is connected in the interlayer of the upper bottom sheet 20 and the lower bottom sheet 19 through rivets.

The lower bottom plate 19 and the upper bottom plate 20 are both made of carbonized silica gel, and the interlayer between the press rollers 4.4 is tightly attached to the surface of the transmission belt 4.3.

In summary, the device of the invention has a plurality of kinetic energy drives, has turbines and inorganic speed change devices, can meet the requirements of different construction conditions, is provided with a detection device combination, realizes the lifting function, reserves the following easy-maintenance structural connection in the arrangement of each part, breaks through the traditional transmission belt device, and realizes the effective combination of numerical control, sensor information transmission and electric kinetic energy braking.