CN110550390A - Ore transportation is with conveyer belt that can commutate - Google Patents

Abstract

The invention relates to a conveyor belt, in particular to a reversible conveyor belt for ore transportation. The technical problem of the invention is how to provide a reversible conveyor belt for ore transportation, which is simple to operate. A reversible conveyor belt for ore transportation comprises a base, vertical rods, a bracket and the like; the right side of the top of the base is connected with a vertical rod, and the upper part of the left side of the vertical rod is connected with a support. According to the invention, the conveying device can be driven to swing back and forth through the rotating device, so that ores can uniformly fall into the mine car, the ores are prevented from being accumulated together, and the operation is simple; the dust on the ore can be blocked by the isolating device, so that the dust is prevented from flying; dust can be reduced through the dust removal device, so that the influence of excessive dust on the surrounding environment is avoided; can play the supporting role to the horizontal pole through stabilising arrangement for the horizontal pole can be more stable.

Description

Ore transportation is with conveyer belt that can commutate

Technical Field

The invention relates to a conveyor belt, in particular to a reversible conveyor belt for ore transportation.

Background

The ore is extracted from a mine and contains certain valuable mineral substances which can be divided into metal mineral substances and non-metal mineral substances, the ore can be applied to the industries such as chemical industry, building and the like after being processed, and when the ore is extracted, the ore needs to be loaded into a mine car and then is transported to other places.

At present, ore is generally conveyed into a mine car through a conveyor belt for loading, and the conveyor belt is generally fixed, so that in order to avoid the ore being accumulated in the mine car, a miner needs to start the mine car to enable the ore to fall to another position of the mine car, and the mine car is troublesome.

Therefore, it is desirable to design a device that is simple to operate.

Disclosure of Invention

In order to overcome the defect that in order to avoid the accumulation of ores in a mine car, a miner needs to start the mine car and drop the ores to another position of the mine car, which is troublesome, the technical problem of the invention is as follows: provided is a reversible conveyor belt for ore transportation, which is easy to handle.

The utility model provides an ore transportation is with conveyer belt that can commutate, which comprises a base, the montant, and a support, support piece, loading attachment, rotary device and conveyor, base top right side is connected with the montant, montant left side upper portion is connected with the support, be equipped with rotary device on the support, the last conveyor that is equipped with of rotary device, conveyor is used for carrying the ore, rotary device is used for driving the conveyor swing, be connected with support piece between conveyor and the rotary device, base top left side is equipped with loading attachment, loading attachment is used for carrying the ore on conveyor.

Further, the device comprises a control module, an LCD display screen, a buzzer, a setting key, an adding key, a subtracting key and a confirmation key, wherein the LCD display screen, the buzzer, the setting key, the adding key, the subtracting key and the confirmation key are electrically connected with the control module.

Further, the supporting part is a suspension, and the suspension is connected between the conveying device and the rotating device.

Further explanation, loading attachment is including the pillar, the arc frame, the down tube, first conveyer belt, the elastic plate, the pay-off frame, a driving motor and first conveying roller, base top left side is connected with the pillar, be connected with arc frame and down tube between pillar and the support, the down tube is located arc frame top, a driving motor is installed to the down tube right part, be equipped with first conveying roller on a driving motor's the output shaft, the down tube left part also is equipped with first conveying roller, around having first conveyer belt between two first conveying rollers, be connected with the elastic plate on the first conveyer belt, be equipped with the pay-off frame on the elastic plate.

It is further explained that, rotary device is including first bearing, the solid fixed cylinder, first gear, the limiting plate, servo motor, the second gear, the protecting crust, first travel switch and second travel switch, the solid fixed cylinder is installed through first bearing rotary type on montant upper portion, the rigid coupling has protecting crust and servo motor on the support, servo motor is located the left part in the protecting crust, the montant passes the protecting crust, the solid fixed cylinder passes the protecting crust, first gear is installed to the solid fixed cylinder lower part, first gear is located the protecting crust, the top is connected with the limiting plate in the protecting crust, install the second gear on servo motor's the output shaft, second gear and first gear engagement, first gear top rear side is equipped with first travel switch, second travel switch sets up in first gear top front side.

Further explaining, the conveying device comprises a connecting seat, a cross rod, a second driving motor, a second conveying belt and a second conveying roller, the top of the fixed cylinder is connected with the cross rod through the connecting seat, the second driving motor is installed on the left part of the rear side of the cross rod, the second conveying roller is arranged on an output shaft of the second driving motor, the second conveying roller is also arranged on the right part of the cross rod, and the second conveying belt is wound between the two second conveying rollers.

Further explaining, still including isolating device, isolating device is including first dead lever, first protection casing, isolation rubber strip, elastic tube, second protection casing and second dead lever, is connected with first dead lever on the down tube, and the rigid coupling has first protection casing on the first dead lever, and first protection casing left side is connected with isolation rubber strip, and first protection casing right side is connected with the elastic tube, is connected with the second protection casing on the elastic tube, is connected with the second dead lever in the second protection casing, second dead lever and horizontal pole fixed connection.

Further explaining, still including dust collector, dust collector is including inlet tube, water pump, outlet pipe, shower nozzle and dust sensor, and the water pump is installed in second protection casing top, and the water pump left side is connected with the inlet tube, and the water pump right side is connected with the outlet pipe, is connected with two shower nozzles on the outlet pipe, and one of them shower nozzle is connected with the second protection casing, and dust sensor is installed on the second protection casing right side.

Further explaining, still including stabilising arrangement, stabilising arrangement is including second bearing frame, solid fixed ring and oblique stay cord, and support upper portion is connected with solid fixed ring through the second bearing frame rotary type, is connected with oblique stay cord between solid fixed ring and the horizontal pole.

Further, the device comprises a protection box, a control box and a control panel, wherein the protection box is fixedly connected in the middle of the top of a base, the control box is connected to the bottom in the protection box, the control module is installed in the control box, the control box comprises a switching power supply and a power supply module, the output end of the switching power supply is electrically connected with the power supply module, the switching power supply can supply power to the device, the power supply module is electrically connected with the control module, the upper part of the front side of the protection box is connected with the control panel, an LCD display screen, a buzzer, a setting key, an adding key, a subtracting key and a confirmation key are all arranged on the control panel, the control module is connected with a 24C02 circuit and a DS1302 clock circuit, the 24C02 circuit is used for storing parameters, the set parameters are stored in the 24C02 circuit, relevant parameters are called out during working, the DS1302 clock circuit provides a time reference, timing can be carried out, and has a, the first travel switch, the second travel switch and the dust sensor are electrically connected with the control module, and the first driving motor, the servo motor, the second driving motor and the water pump are connected with the control module through a peripheral circuit.

Compared with the prior art, the invention has the following advantages: according to the invention, the conveying device can be driven to swing back and forth through the rotating device, so that ores can uniformly fall into the mine car, the ores are prevented from being accumulated together, and the operation is simple; the dust on the ore can be blocked by the isolating device, so that the dust is prevented from flying; dust can be reduced through the dust removal device, so that the influence of excessive dust on the surrounding environment is avoided; can play the supporting role to the horizontal pole through stabilising arrangement for the horizontal pole can be more stable.

Drawings

Fig. 1 is a schematic front view of the present invention.

Fig. 2 is an enlarged schematic view of part a of the present invention.

Fig. 3 is an enlarged schematic view of part B of the present invention.

Fig. 4 is an enlarged schematic view of the part C of the present invention.

Fig. 5 is an enlarged schematic view of the portion D of the present invention.

Fig. 6 is an enlarged schematic view of part E of the present invention.

Fig. 7 is a partial top view of the present invention.

Fig. 8 is a circuit diagram of the present invention.

Fig. 9 is a schematic circuit diagram of the present invention.

The parts are labeled as follows: 1. a base, 2, a vertical rod, 3, a bracket, 4, a suspension, 5, a protection box, 6, a control box, 7, a control panel, 8, an LCD display screen, 9, a buzzer, 10, a feeding device, 101, a support column, 102, an arc frame, 103, a diagonal rod, 104, a first conveying belt, 105, an elastic plate, 106, a feeding frame, 107, a first driving motor, 108, a first conveying roller, 11, a rotating device, 111, a first bearing seat, 112, a fixed cylinder, 113, a first gear, 114, a limiting plate, 115, a servo motor, 116, a second gear, 117, a protective shell, 118, a first travel switch, 119, a second travel switch, 12, a conveying device, 121, a connecting seat, 122, a cross rod, 123, a second driving motor, 124, a second conveying belt, 125, a second conveying roller, 13, an isolation device, 131, a first fixed rod, 132, a first protective cover, 133, an isolation rubber strip, 134. the dust collector comprises an elastic pipe 135, a second protective cover 136, a second fixing rod 14, a dust removing device 141, a water inlet pipe 142, a water pump 143, a water outlet pipe 144, a spray head 145, a dust sensor 15, a stabilizing device 151, a second bearing seat 152, a fixing ring 153 and a stay rope.

Detailed Description

It is to be noted that, in the case of the different described embodiments, identical components are provided with the same reference numerals or the same component names, wherein the disclosure contained in the entire description can be transferred to identical components having the same reference numerals or the same component names in a meaningful manner. The positional references selected in the description, such as upper, lower, lateral, etc., refer also to the directly described and illustrated figures and are to be read into the new position in the sense of a change in position.

First embodiment

The utility model provides an ore transportation is with conveyer belt that can commutate, as attached figure 1, as shown in figure 2 and figure 3, including base 1, montant 2, support 3, suspension 4, loading attachment 10, rotary device 11 and conveyor 12, 1 top right side of base is connected with montant 2, base 1 is connected with montant 2 through bolted connection's mode, 2 left side upper portions of montant are connected with support 3, be equipped with rotary device 11 on the support 3, be equipped with conveyor 12 on the rotary device 11, conveyor 12 is used for carrying the ore, rotary device 11 is used for driving conveyor 12 and swings, be connected with suspension 4 between conveyor 12 and the rotary device 11, 1 top left side of base is equipped with loading attachment 10, loading attachment 10 is used for carrying the ore on conveyor 12.

As shown in fig. 6, fig. 8 and fig. 9, the device further comprises a control module, an LCD display screen 8, a buzzer 9, a set key, a plus key, a minus key and a confirm key, wherein the LCD display screen 8, the buzzer 9, the set key, the plus key, the minus key and the confirm key are all electrically connected with the control module.

The miner places this equipment in ore heap right side, then press the power master switch, power on this equipment, use for the first time or when needing to adjust relevant parameter, the miner sets up the operating parameter of relevant automatically controlled equipment and sensor through the set key, add the key, subtract a key and enter into the setting interface with the enter into by the set key, the interface display is on LCD display screen 8, then press and add the key and subtract a key set parameter or move about, after setting up, the miner presses the enter into by the enter into, the parameter that has set up passes through control module and stores in 24C02 circuit, the miner presses the power master switch once more, cut off the power supply with this equipment. When ore needs to be conveyed, a miner drives a mine car to the position below the conveying device 12, then a power supply main switch is pressed down, the equipment is powered on, the current time and the current date are displayed on the LCD display screen 8, the control module controls the feeding device 10 to work for 30 minutes, the control module controls the rotating device 11 and the conveying device 12 to work simultaneously, the feeding device 10 can convey the ore to the conveying device 12, the conveying device 12 can convey the ore into the mine car, the rotating device 11 can drive the conveying device 12 to swing front and back, so that the ore can uniformly fall into the mine car, the ore accumulation is avoided, the operation is simple, after 30 minutes, the control module controls the feeding device 10 to stop working, the control module controls the rotating device 11 and the conveying device 12 to stop working simultaneously, and the control module controls the buzzer 9 to sound for 4 seconds to remind the miner that ore loading is finished, after 4 seconds, the buzzer 9 does not sound, and a miner can press the power supply main switch to cut off the power supply.

As shown in fig. 2 and fig. 3, the feeding device 10 includes a pillar 101, an arc frame 102, an inclined rod 103, a first conveying belt 104, an elastic plate 105, a feeding frame 106, a first driving motor 107 and a first conveying roller 108, the pillar 101 is connected to the left side of the top of the base 1, the base 1 is connected to the pillar 101 in a bolt connection manner, the arc frame 102 and the inclined rod 103 are connected between the pillar 101 and the support 3, the inclined rod 103 is located above the arc frame 102, the first driving motor 107 is installed at the right portion of the inclined rod 103, the inclined rod 103 is connected to the first driving motor 107 in a bolt connection manner, a first conveying roller 108 is arranged on an output shaft of the first driving motor 107, a first conveying roller 108 is also arranged at the left portion of the inclined rod 103, the first conveying belt 104 is wound between the two first conveying rollers 108, the elastic plate 105 is connected to the first conveying belt 104, and the feeding frame 106 is arranged on.

When the device is powered on, the control module controls the first driving motor 107 to rotate clockwise for 30 minutes, the first driving motor 107 drives the first conveying roller 108 above to rotate clockwise, the first conveying belt 104 drives the elastic plate 105 to rotate clockwise, so that the material conveying frame 106 is driven to rotate clockwise, the material conveying frame 106 can convey ores to the conveying device 12, and after 30 minutes, the control module controls the first driving motor 107 to stop rotating clockwise.

As shown in fig. 3 and 7, the rotating device 11 includes a first bearing seat 111, a fixed cylinder 112, a first gear 113, a limit plate 114, a servo motor 115, a second gear 116, a protective shell 117, a first travel switch 118 and a second travel switch 119, the fixed cylinder 112 is rotatably installed on the upper portion of the vertical rod 2 through the first bearing seat 111, the protective shell 117 and the servo motor 115 are fixedly connected to the bracket 3, the servo motor 115 is located at the left portion in the protective shell 117, the vertical rod 2 passes through the protective shell 117, the fixed cylinder 112 passes through the protective shell 117, the first gear 113 is installed at the lower portion of the fixed cylinder 112, the fixed cylinder 112 is connected to the first gear 113 through a key connection, the first gear 113 is located in the protective shell 117, the limit plate 114 is connected to the top portion in the protective shell 117, the protective shell 117 is connected to the limit plate 114 through a welding connection, the second gear 116 is installed on an output shaft of the servo motor 115, the servo motor 115 is connected to the second, the second gear 116 is meshed with the first gear 113, a first travel switch 118 is arranged on the rear side of the top of the first gear 113, and a second travel switch 119 is arranged on the front side of the top of the first gear 113.

When the device is powered on, the control module controls the servo motor 115 to rotate anticlockwise, the servo motor 115 drives the second gear 116 to rotate anticlockwise, so as to drive the first gear 113 to rotate clockwise, and further drive the first travel switch 118 and the second travel switch 119 to rotate clockwise, when the second travel switch 119 rotates clockwise and touches the limit plate 114, the second travel switch 119 sends a signal, the control module receives the signal and then controls the servo motor 115 to rotate clockwise, the servo motor 115 drives the second gear 116 to rotate clockwise, so as to drive the first gear 113 to rotate anticlockwise, and further drive the first travel switch 118 and the second travel switch 119 to rotate anticlockwise, when the first travel switch 118 rotates anticlockwise and touches the limit plate 114, the first travel switch 118 sends a signal, the control module receives the signal and then controls the servo motor 115 to rotate anticlockwise, and so on, the first gear 113 can rotate forward and backward continuously, so that the fixed cylinder 112 can rotate forward and backward alternately, and the conveying device 12 can be driven to swing back and forth. When the control module controls the first driving motor 107 to stop rotating clockwise, the control module controls the servo motor 115 to stop working at the same time.

As shown in fig. 3 and 4, the conveying device 12 includes a connecting seat 121, a cross bar 122, a second driving motor 123, a second conveying belt 124 and second conveying rollers 125, the top of the fixed cylinder 112 is connected with the cross bar 122 through the connecting seat 121, the second driving motor 123 is installed at the left portion of the rear side of the cross bar 122, the second driving motor 123 is connected with the cross bar 122 through a bolt connection mode, a second conveying roller 125 is arranged on an output shaft of the second driving motor 123, a second conveying roller 125 is also arranged at the right portion of the cross bar 122, and the second conveying belt 124 is wound between the two second conveying rollers 125.

When the feeding frame 106 rotates clockwise, the feeding frame 106 can convey ores onto the second conveying belt 124, when the device is powered on, the control module controls the second driving motor 123 to rotate clockwise, the second driving motor 123 drives the second conveying roller 125 on the left side to rotate clockwise, the ores are conveyed into the mine car through the second conveying belt 124, and when the fixed cylinder 112 rotates forwards and backwards alternately, the right part of the cross rod 122 is driven to swing back and forth through connection, so that the second conveying belt 124 is driven to swing back and forth. When the control module controls the first driving motor 107 to stop clockwise rotation, the control module simultaneously controls the second driving motor 123 to stop clockwise rotation.

Second embodiment

On the basis of the first embodiment, as shown in fig. 2, fig. 3 and fig. 4, the present embodiment further includes an isolation device 13, the isolation device 13 includes a first fixing rod 131, a first shield 132, an isolation rubber strip 133, an elastic tube 134, a second shield 135 and a second fixing rod 136, the first fixing rod 131 is connected to the diagonal rod 103, the diagonal rod 103 is connected to the first fixing rod 131 by welding, the first shield 132 is fixedly connected to the first fixing rod 131, the isolation rubber strip 133 is connected to the left side of the first shield 132, the elastic tube 134 is connected to the right side of the first shield 132, the second shield 135 is connected to the elastic tube 134, the second fixing rod 136 is connected to the second shield 135, and the second fixing rod 136 is fixedly connected to the cross rod 122.

When the feeding frame 106 and the second conveyor belt 124 convey ore, the first protective cover 132 and the second protective cover 135 can shield dust on the ore, so as to avoid dust flying. When the cross bar 122 swings back and forth, the cross bar 122 drives the second fixing rod 136 to swing back and forth, so as to drive the second shield 135 to swing back and forth, and under the action of the elastic tube 134, the swing back and forth of the second shield 135 is not affected, so that the swing back and forth of the cross bar 122 is not affected.

As shown in fig. 4, the dust removing device 14 is further included, the dust removing device 14 includes a water inlet pipe 141, a water pump 142, a water outlet pipe 143, a spray nozzle 144 and a dust sensor 145, the water pump 142 is installed on the top of the second protective cover 135, the water pump 142 is connected with the second protective cover 135 through a bolt connection mode, the left side of the water pump 142 is connected with the water inlet pipe 141, the right side of the water pump 142 is connected with the water outlet pipe 143, the water outlet pipe 143 is connected with two spray nozzles 144, one of the spray nozzles 144 is connected with the second protective cover 135, the right side of the second protective cover 135 is installed with the dust sensor 145, and the second.

The external water source of inlet tube 141 is with the miner, when this equipment is electrified, control module control dust sensor 145 work, dust sensor 145 can detect the dust volume, when the dust volume that dust sensor 145 detected reaches the default among the control module, dust sensor 145 signals, control module received signal back control water pump 142 work 2 minutes, water pump 142 work is through inlet tube 141 with water intake in outlet pipe 143, water carries out the dust fall from shower nozzle 144 blowout, avoid too much dust to influence the surrounding environment, 2 minutes later, control module control water pump 142 stop work.

As shown in fig. 5, the device further includes a stabilizing device 15, the stabilizing device 15 includes a second bearing seat 151, a fixing ring 152 and a stay rope 153, the upper portion of the bracket 3 is rotatably connected with the fixing ring 152 through the second bearing seat 151, and the stay rope 153 is connected between the fixing ring 152 and the cross bar 122.

Stay cord 153 can play the supporting role to horizontal pole 122 for horizontal pole 122 can be more stable, and when horizontal pole 122 luffing motion, under the effect of second bearing frame 151, stay cord 153 is swung luffing motion together along with horizontal pole 122 to an one side, so do not influence horizontal pole 122 luffing motion.

As shown in the attached fig. 6, fig. 8 and fig. 9, the device further comprises a protection box 5, a control box 6 and a control panel 7, the protection box 5 is fixedly connected to the middle of the top of the base 1, the control box 6 is connected to the bottom of the protection box 5, the control module is installed in the control box 6, the control box 6 comprises a switching power supply and a power supply module, the output end of the switching power supply is electrically connected with the power supply module, the switching power supply can supply power to the device, the power supply module is electrically connected with the control module, the control panel 7 is connected to the upper portion of the front side of the protection box 5, the LCD display 8, the buzzer 9, the setting key, the plus key, the minus key and the confirmation key are all arranged on the control panel 7, the control module is connected with a 24C02 circuit and a DS1302 clock circuit, the 24C02 circuit is used for storing parameters, the set parameters are stored in the 24C02 circuit, the related parameters are called during operation, the DS, the timing device can perform timing and has a leap year compensation function, the first travel switch 118, the second travel switch 119 and the dust sensor 145 are electrically connected with the control module, and the first driving motor 107, the servo motor 115, the second driving motor 123 and the water pump 142 are connected with the control module through peripheral circuits.

The present application is described in detail above, and the principles and embodiments of the present application are described herein by using specific examples, which are only used to help understand the method and the core idea of the present application; meanwhile, for a person skilled in the art, according to the idea of the present application, there may be variations in the specific embodiments and the application scope, and in summary, the content of the present specification should not be construed as a limitation to the present application.

Claims (10)

1. The utility model provides an ore transportation is with conveyer belt that can commutate, including base (1), montant (2) and support (3), base (1) top right side is connected with montant (2), montant (2) left side upper portion is connected with support (3), a serial communication port, still including support piece, loading attachment (10), rotary device (11) and conveyor (12), be equipped with rotary device (11) on support (3), be equipped with conveyor (12) on rotary device (11), conveyor (12) are used for carrying the ore, rotary device (11) are used for driving conveyor (12) swing, be connected with support piece between conveyor (12) and rotary device (11), base (1) top left side is equipped with loading attachment (10), loading attachment (10) are used for carrying the ore on conveyor (12).

2. The conveyor belt capable of reversing for ore transportation according to claim 1, further comprising a control module, an LCD display screen (8), a buzzer (9), a setting key, an adding key, a subtracting key and a confirmation key, wherein the LCD display screen (8), the buzzer (9), the setting key, the adding key, the subtracting key and the confirmation key are electrically connected with the control module.

3. A reversible conveyor belt for ore transport according to claim 2, characterised in that said support is a suspension (4), the suspension (4) being connected between the conveyor means (12) and the rotating means (11).

4. The conveyor belt capable of reversing for ore transportation according to claim 3, wherein the feeding device (10) comprises a support column (101), an arc-shaped frame (102), an inclined rod (103), a first conveyor belt (104), an elastic plate (105), a feeding frame (106), a first driving motor (107) and a first conveyor roller (108), the support column (101) is connected to the left side of the top of the base (1), the arc-shaped frame (102) and the inclined rod (103) are connected between the support column (101) and the support (3), the inclined rod (103) is located above the arc-shaped frame (102), the first driving motor (107) is installed on the right portion of the inclined rod (103), the first conveyor roller (108) is arranged on an output shaft of the first driving motor (107), the first conveyor roller (108) is also arranged on the left portion of the inclined rod (103), the first conveyor belt (104) is wound between the two first conveyor rollers (108), and the elastic plate (105) is connected to the first conveyor belt (104), the elastic plate (105) is provided with a feeding frame (106).

5. The conveyor belt capable of changing the direction for ore transportation according to claim 4, wherein the rotating device (11) comprises a first bearing seat (111), a fixed cylinder (112), a first gear (113), a limiting plate (114), a servo motor (115), a second gear (116), a protective shell (117), a first travel switch (118) and a second travel switch (119), the fixed cylinder (112) is rotatably installed on the upper portion of the vertical rod (2) through the first bearing seat (111), the protective shell (117) and the servo motor (115) are fixedly connected to the support (3), the servo motor (115) is located at the left portion inside the protective shell (117), the vertical rod (2) penetrates through the protective shell (117), the fixed cylinder (112) penetrates through the protective shell (117), the first gear (113) is installed at the lower portion of the fixed cylinder (112), the first gear (113) is located inside the protective shell (117), the limiting plate (114) is connected to the top inside the protective shell (117), a second gear (116) is mounted on an output shaft of the servo motor (115), the second gear (116) is meshed with the first gear (113), a first travel switch (118) is arranged on the rear side of the top of the first gear (113), and a second travel switch (119) is arranged on the front side of the top of the first gear (113).

6. The conveyor belt capable of reversing for ore transportation according to claim 5, wherein the conveying device (12) comprises a connecting seat (121), a cross rod (122), a second driving motor (123), a second conveyor belt (124) and second conveyor rollers (125), the top of the fixed cylinder (112) is connected with the cross rod (122) through the connecting seat (121), the second driving motor (123) is installed on the left portion of the rear side of the cross rod (122), the second conveyor rollers (125) are arranged on an output shaft of the second driving motor (123), the second conveyor rollers (125) are also arranged on the right portion of the cross rod (122), and the second conveyor belts (124) are wound between the two second conveyor rollers (125).

7. The conveyor belt capable of changing the direction for ore transportation according to claim 6, further comprising an isolation device (13), wherein the isolation device (13) comprises a first fixing rod (131), a first protective cover (132), an isolation rubber strip (133), an elastic tube (134), a second protective cover (135) and a second fixing rod (136), the first fixing rod (131) is connected to the diagonal rod (103), the first protective cover (132) is fixedly connected to the first fixing rod (131), the isolation rubber strip (133) is connected to the left side of the first protective cover (132), the elastic tube (134) is connected to the right side of the first protective cover (132), the second protective cover (135) is connected to the elastic tube (134), the second fixing rod (136) is connected to the second protective cover (135), and the second fixing rod (136) is fixedly connected to the cross rod (122).

8. The conveyor belt capable of changing the direction for ore transportation according to claim 7, further comprising a dust removal device (14), wherein the dust removal device (14) comprises a water inlet pipe (141), a water pump (142), a water outlet pipe (143), spray heads (144) and a dust sensor (145), the water pump (142) is installed at the top of the second protective cover (135), the water inlet pipe (141) is connected to the left side of the water pump (142), the water outlet pipe (143) is connected to the right side of the water pump (142), two spray heads (144) are connected to the water outlet pipe (143), one of the spray heads (144) is connected to the second protective cover (135), and the dust sensor (145) is installed at the right side of the second protective cover (135.

9. The conveyor belt capable of reversing for ore transportation according to claim 8, further comprising a stabilizing device (15), wherein the stabilizing device (15) comprises a second bearing seat (151), a fixing ring (152) and a stay rope (153), the fixing ring (152) is rotatably connected to the upper portion of the support (3) through the second bearing seat (151), and the stay rope (153) is connected between the fixing ring (152) and the cross bar (122).

10. The ore transportation reversible conveyor belt according to claim 9, further comprising a protection box (5), a control box (6) and a control panel (7), wherein the protection box (5) is fixedly connected to the middle of the top of the base (1), the control box (6) is connected to the bottom of the protection box (5), the control module is installed in the control box (6), the control box (6) comprises a switching power supply and a power supply module, the output end of the switching power supply is electrically connected with the power supply module, the switching power supply can supply power to the equipment, the power supply module is electrically connected with the control module, the control panel (7) is connected to the upper portion of the front side of the protection box (5), the LCD display screen (8), the buzzer (9), the setting key, the plus key, the minus key and the confirmation key are all arranged on the control panel (7), and the control module is connected with a 24C02 circuit and a DS1302 clock circuit, the 24C02 circuit is used for storing parameters, the set parameters are stored in the 24C02 circuit, relevant parameters are called out during working, the DS1302 clock circuit provides time reference, timing can be carried out, and the leap year compensation function is achieved.