CN110538722A

CN110538722A - Underwater magnetite ultrahigh-magnetic mineral separation device with increased artificial intelligence

Info

Publication number: CN110538722A
Application number: CN201910946901.2A
Authority: CN
Inventors: 张黎寅; 丁翚
Original assignee: Northern Research Institute Nanjing University Of Science & Technology
Current assignee: Northern Research Institute Nanjing University Of Science & Technology
Priority date: 2019-10-07
Filing date: 2019-10-07
Publication date: 2019-12-06
Anticipated expiration: 2039-10-07
Also published as: CN110538722B

Abstract

The invention discloses an artificial intelligence-added ultrahigh magnetic magnetite beneficiation device in water, which comprises a substrate with a circular outer contour and a main controller, wherein a hollow round table is concentrically fixed on the upper end surface of the substrate, the diameter of the upper bottom of the hollow round table is larger than that of the lower bottom of the hollow round table, a round pipe is fixedly penetrated through the axis of the hollow round table, the lower end of the round pipe is fixedly connected with a cylinder, a partition plate is fixed in the round pipe, the round pipe is divided into an air passage and a sand passage by the partition plate, the sand passage is communicated with the cylinder, and the lower end of the round pipe is fixedly communicated with a plurality of shunt pipes. Has the advantages that: the throwing distance of sand grains with higher density is far, otherwise, the throwing distance of sand grains with lower density is near, so that the separation of the sand grains and the iron sand can be realized, the density of the sand grains is obviously smaller than that of the iron sand, and therefore, in the actual operation, the iron sand is positioned in the space between the two far layered covers, and the purpose of quickly separating the iron sand from the sand stone for ore dressing is realized.

Description

Underwater magnetite ultrahigh-magnetic mineral separation device with increased artificial intelligence

Technical Field

The invention relates to the technical field of mineral separation, in particular to an underwater magnetite ultrahigh-magnetic mineral separation device added with artificial intelligence.

Background

In the process of island-making and reef-filling, a large amount of sea sand needs to be dug out and transported away from the sea, and if the sea sand is the sea sand containing magnetite, concentrate in the sea sand is selected, so that resources are saved, economic benefits can be generated, and the cost of reef-filling is reduced.

Through retrieval, chinese invention with publication number CN106076615A discloses an ultrahigh magnetic mineral separation device for magnetite in water with added artificial intelligence, in which: the sea sand is pumped up and then enters the water magnetite spiral ultrahigh magnetic ore dressing device, the sprayed sea sand flow and the rotating fan blades rotate and are fused to form a new ore flow rotating upwards, at the moment, the sea sand flow in the ore dressing tank generates a rotating upwards thrust force, the sea sand containing iron can fall downwards, the sea sand containing no iron or less iron is pushed to the top, the speed of the spiral upward flow of the tailings outlet which is discharged … … in the rotation is determined by the size of a common piece containing the sea sand, the sea sand big point is faster, otherwise, the normal iron ore sand flow is not the ultrahigh magnetic ore dressing machine, the sea sand small point is slower, and otherwise the normal iron ore sand can flow away from the tailings outlet.

the scheme provided by the patent well realizes the selection of the iron sand ore, but in practical application, as the sand contains a large amount of moisture, more iron sand can be bonded together, so that the patent cannot be realized.

disclosure of Invention

The invention aims to solve the problems in the prior art and provides an underwater magnetite ultrahigh-magnetic ore dressing device added with artificial intelligence.

In order to achieve the purpose, the invention adopts the following technical scheme: an underwater magnetite ultrahigh-magnetic ore dressing device for increasing artificial intelligence comprises a base plate and a main controller, wherein the outer contour of the base plate is circular, a hollow round table is concentrically fixed on the upper end surface of the base plate, the diameter of the upper bottom of the hollow round table is larger than that of the lower bottom of the hollow round table, a round pipe is fixedly penetrated through the axis of the hollow round table, the lower end of the round pipe is fixedly connected with a cylinder, a partition plate is fixed in the round pipe and divides the round pipe into an air path channel and a sand path channel, the sand path channel is communicated with the cylinder, the lower end of the round pipe is fixedly communicated with a plurality of shunt pipes, the shunt pipes penetrate through the side wall of the cylinder and are communicated with the hollow round table, and a communicating hole;

the side wall of the hollow circular truncated cone is fixedly connected with a plurality of mutually sleeved layered covers, the sizes of the mutually sleeved layered covers are sequentially reduced from outside to inside, and the shortest distance between every two adjacent layered covers is equal;

An annular groove is formed in the upper wall of the outer side of the hollow circular truncated cone, a plurality of pressure sensors are embedded in the annular groove, a layer of soft board is laid on the upper end faces of the plurality of pressure sensors, a plurality of electromagnets are fixed on the upper wall of the soft board in a gluing mode, and the pressure sensors and the electromagnets are electrically connected with a main controller;

the upper wall of the inner side of the hollow round platform is provided with a hemispherical top cover, and a crushing device is arranged in the top cover.

In the above-mentioned aquatic magnetite ultra-high magnetic separation device with artificial intelligence added, a plurality of infrared sensors are symmetrically arranged at the joint of the upper bottom and the side wall of the hollow circular truncated cone, the circular tube penetrates through the top cover and is rotatably connected with the top cover through a bearing, the crushing device comprises a driving motor, the driving motor is fixedly welded on the upper wall of the hollow circular truncated cone in the top cover, the output end of the driving motor is fixedly connected with a driving gear, the driving gear is engaged with a driven gear, the driven gear is concentrically and rotatably connected with the outer wall of the cylinder by using the bearing, the driven gear is coaxially and fixedly connected with a shaft sleeve, the shaft sleeve is sleeved on the outer wall of the cylinder, the outer wall of the shaft sleeve is fixedly connected with a circular plate, the circular plate is rotatably connected with a plurality of ultrasonic generators which can generate, and the driving motor, the infrared sensor and the ultrasonic generator are electrically connected with the main controller. .

In foretell aquatic magnetite ultra-high magnetism ore dressing device that increases artificial intelligence, every all use the round pin axle to rotate on the ultrasonic generator to be connected with an electric putter, set up a plurality of spouts rather than the axis is parallel on the axle sleeve, every the equal sliding connection of electric putter is in the spout that corresponds the position, electric putter and main control unit electric connection.

In foretell aquatic magnetite ultra-high magnetism ore dressing device that increases artificial intelligence, seted up a plurality of guiding holes on the hood, the guiding hole distributes along the radius of hood, the guiding hole equals with ultrasonic generrator quantity, every ultrasonic generrator all can slide in the guiding hole.

In foretell aquatic magnetite ultra-high magnetism ore dressing device that increases artificial intelligence, every ultrasonic generrator has an elastic webbing, every all glued near the one end of pipe, every the lateral wall that the pipe was kept away from to the guiding hole all seted up a curved hole, every equal sliding connection has a closing plate in the hole, every the closing plate all with ultrasonic generrator welded fastening who corresponds.

In the above artificial intelligence-added ultrahigh-magnetism magnetite beneficiation device in water, a circle of sealing gasket is glued at the contact part of the top cover and the hollow circular truncated cone.

In the artificial intelligence added ultrahigh-magnetism magnetite beneficiation device in water, the main controller is electrically connected with a control module and an amplifying circuit module; the discharge circuit module is electrically connected with a filter circuit module, the filter circuit module is electrically connected with a data analysis module, and the data analysis module is electrically connected with the pressure sensor and the infrared sensor;

the output end of the filter circuit module is electrically connected with the input end of the amplifying circuit module, the output ends of the infrared sensors are electrically connected with the input end of the data analysis module, the output ends of the pressure sensors are electrically connected with the input end of the data analysis module, and the output end of the amplifying circuit module is electrically connected with the input end of the main controller; the output end of the main controller is respectively and electrically connected with the input ends of the electric push rod, the driving motor and the ultrasonic generator.

In foretell aquatic magnetite superelevation magnetism ore dressing device that increases artificial intelligence, control module includes communication module, accuse letter module, infrared ray transceiver module, accuse letter module and infrared ray transceiver module electric interconnection, accuse letter module and communication module electric interconnection, communication module and infrared ray all with main control unit electric connection.

Compared with the prior art, the invention has the advantages that:

1. The sprayed sea sand is scattered and is also agglomerated into blocks to a certain extent, when the agglomerated blocks are sprayed out, the body of the sea sand is cracked by the strong kinetic energy of the sea sand, the reason is that the acceleration of each point is inconsistent when the air resistance is applied due to the uneven gravity of each part, so that the sea sand is cracked, and the sprayed sea sand can be considered to be in a fine sand state after being cracked into broken sand;

2. The sprayed sea sand moves in a parabolic manner in the air, and the densities of sand grains and iron sand are different, so that the reverse acceleration generated by air resistance on the air is also different, the speed reduction rates are different, and the sand grains with different densities are different in throwing distance;

3. in the actual operation process, part of sand grains are condensed into a block structure, the block structure is large and cannot be rapidly and freely cracked in the air, if obvious iron sand exists in the block structure, the block structure is subjected to more obvious attraction of an electromagnet, otherwise, the part of the electromagnet, which is over against the block sand grains, receives downward acting force, the electromagnet extrudes a soft plate and applies the acting force to a pressure sensor, the pressure sensor transmits a signal to a main controller to enable an infrared sensor to start working, the infrared sensor works to measure the position of the block iron sand, and the specific position of the iron sand block can be calculated and real-time tracking can be realized by combining the signal of the pressure sensor.

4. After the position of the iron sand block is tracked, the main controller controls the driving motor and the electric push rod to work, the driving motor works to drive the driving gear to rotate, the driving gear rotates to drive the driven gear to rotate, the driven gear drives the fixed shaft sleeve and the circular plate to rotate, and the circular plate drives the ultrasonic generator to rotate; electric putter work extension can make ultrasonic generrator produce and deflect, synthesizes driving motor's effect and can make ultrasonic generrator point to cubic iron sand's position rapidly and begin to produce the ultrasonic wave, thereby the ultrasonic wave effect makes it produce high frequency vibration to iron sand department makes its fast disintegration, and the separation of iron sand and grit guarantees that iron sand and grit can be located respectively between two layering covers of different positions.

Drawings

FIG. 1 is a schematic structural diagram of an artificial intelligence-added ultrahigh magnetic concentration device for magnetite in water according to the present invention;

FIG. 2 is a view from A-A direction of an artificial intelligence added ultrahigh magnetic magnetite beneficiation device in water, provided by the invention;

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

Fig. 4 is a schematic block diagram of an artificial intelligence-added ultrahigh magnetic concentration device for magnetite in water.

In the figure: the ultrasonic generator comprises a base plate 1, a hollow circular table 2, an electromagnet 3, a soft plate 4, a pressure sensor 5, a circular tube 6, a partition plate 7, a cylinder 8, a communicating hole 9, a shunt tube 10, an infrared sensor 11, a layering cover 12, a top cover 13, a driving motor 14, a driving gear 15, a driven gear 16, a shaft sleeve 17, a circular plate 18, an ultrasonic generator 19, an electric push rod 20, a sliding groove 21, a guide hole 22, a sealing gasket 23, an inner hole 24, a sealing plate 25 and an elastic belt 26.

Detailed Description

the following examples are for illustrative purposes only and are not intended to limit the scope of the present invention.

Examples

Referring to fig. 1-4, an underwater magnetite ultrahigh magnetic separation device for increasing artificial intelligence comprises a base plate 1 and a main controller, wherein the outer contour of the base plate 1 is circular, a hollow circular truncated cone 2 is concentrically fixed on the upper end surface of the base plate 1, the diameter of the upper bottom of the hollow circular truncated cone 2 is larger than that of the lower bottom, a circular tube 6 is fixedly penetrated through the axis of the hollow circular truncated cone 2, a cylinder 8 is fixedly connected to the lower end of the circular tube 6, a partition plate 7 is fixed in the circular tube 6, the circular tube 6 is divided into a gas path channel and a sand path channel by the partition plate 7, the sand path channel is communicated with the cylinder 8, a plurality of shunt tubes 10 are fixedly communicated with the lower end of the circular tube 6, the shunt tubes 10 penetrate through the side wall of the cylinder 8 and are communicated with;

the side wall of the hollow circular truncated cone 2 is fixedly connected with a plurality of mutually sleeved layered covers 12, the sizes of the mutually sleeved layered covers 12 are sequentially reduced from outside to inside, and the shortest distance between every two adjacent layered covers 12 is equal;

An annular groove is formed in the upper wall of the outer side of the hollow circular truncated cone 2, a plurality of pressure sensors 5 are embedded in the annular groove, a layer of soft board 4 is laid on the upper end faces of the plurality of pressure sensors 5, a plurality of electromagnets 3 are fixed on the upper wall of the soft board 4 in a gluing mode, and the pressure sensors 5 and the electromagnets 3 are electrically connected with a main controller;

the upper wall of the inner side of the hollow round table 2 is provided with a hemispherical top cover 13, and a crushing device is arranged in the top cover 13.

the connection part of the upper bottom and the side wall of the hollow circular truncated cone 2 is symmetrically provided with a plurality of infrared sensors 11, a circular tube 6 penetrates through a top cover 13 and is rotationally connected with the top cover through a bearing, the crushing device comprises a driving motor 14, the driving motor 14 is fixedly welded on the upper wall of the hollow circular truncated cone 2 positioned in the top cover 13, the output end of the driving motor 14 is fixedly connected with a driving gear 15, the driving gear 15 is meshed with a driven gear 16, the driven gear 16 is concentrically and rotationally connected with the outer wall of the cylinder 8 through the bearing, the driven gear 16 is coaxially and fixedly connected with a shaft sleeve 17, the shaft sleeve 17 is sleeved on the outer wall of the cylinder 8, the outer wall of the shaft sleeve 17 is fixedly connected with a circular plate 18, the circular plate 18 is rotationally connected with a plurality of ultrasonic generators 19 capable of generating ultrasonic, the ultrasonic generators 19 are all electrically connected with the main controller.

all use the round pin axle to rotate on every ultrasonic generator 19 to be connected with an electric putter 20, set up a plurality of spouts 21 parallel rather than the axis on the axle sleeve 17, every electric putter 20 all sliding connection in the spout 21 that corresponds the position, electric putter 20 and main control unit electric connection.

a plurality of guide holes 22 are formed in the top cover 13, the guide holes 22 are distributed along the radius of the top cover 13, the number of the guide holes 22 is equal to that of the ultrasonic generators 19, and each ultrasonic generator 19 can slide in each guide hole 22.

Every ultrasonic generator 19 all glues there is an elastic band 26 near the one end of pipe 6, and every guiding hole 22 keeps away from the lateral wall of pipe 6 and all offers a curved hole 24, and equal sliding connection has a closing plate 25 in every hole 24, and every closing plate 25 all with ultrasonic generator 19 welded fastening who corresponds. A circle of sealing gasket 23 is glued at the contact part of the top cover 13 and the hollow circular truncated cone 2.

The main controller is electrically connected with the control module and the amplifying circuit module; the discharge circuit module is electrically connected with a filter circuit module, the filter circuit module is electrically connected with a data analysis module, and the data analysis module is electrically connected with the pressure sensor and the infrared sensor;

The output end of the filter circuit module is electrically connected with the input end of the amplifying circuit module, the output ends of the infrared sensors are electrically connected with the input end of the data analysis module, the output ends of the pressure sensors are electrically connected with the input end of the data analysis module, and the output end of the amplifying circuit module is electrically connected with the input end of the main controller; the output end of the main controller is respectively electrically connected with the input ends of the electric push rod 20, the driving motor 14 and the ultrasonic generator 19.

The control module comprises a communication module, a control signal module and an infrared ray transceiving module, the control signal module is electrically interconnected with the communication module, and the communication module and the infrared ray are both electrically connected with the main controller.

In the invention, compressed air is introduced into the air passage of the circular tube 6, the sand passage is communicated with an external sand pump so as to pump sand to be screened into the cylinder 8, when the sand pump starts to work, the compressed air enters the shunt tube 10 from the circular tube 6, when the sand pump works normally, the pressure intensity in the cylinder 8 is greater than that at the position of the communication hole 9, at the moment, when the compressed air circulates outwards through the shunt tube 10, sea sand in the cylinder 8 enters the shunt tube 10 through the communication hole 9 and moves along with the compressed air, and is finally sprayed out from the shunt tube 10, and as the compressed air has larger kinetic energy, the sea sand is also endowed with larger kinetic energy when being driven to be sprayed out from the shunt tube 10;

The sprayed sea sand is scattered and is also agglomerated into blocks to a certain extent, when the agglomerated blocks are sprayed out, the body of the sea sand is cracked by the strong kinetic energy of the sea sand, the reason is that the acceleration of each point is inconsistent when the air resistance is applied due to the uneven gravity of each part, so that the sea sand is cracked, and the sprayed sea sand can be considered to be in a fine sand state after being cracked into broken sand;

The sprayed sea sand moves in a parabolic manner in the air, and in the process, the densities of sand grains with different contents are different, and the reverse acceleration generated by air resistance is also different, so that the speed reduction rates are different, and the sand grains with different densities are different in throwing distance.

In the actual operation process, part of sand grains are condensed into a block structure, the block structure is large and cannot be cracked freely in the air quickly, if obvious iron sand exists in the block structure, the block structure is attracted by the electromagnet 3 more obviously, otherwise, the part of the electromagnet 3, which is over against the block sand grains, receives downward acting force, the electromagnet 3 extrudes the soft plate 4 and applies the acting force on the pressure sensor 5, the pressure sensor 5 transmits a signal to the main controller to enable the infrared sensor 11 to start working, the infrared sensor 11 works to measure the position of the block iron sand, and the specific position of the iron sand block can be calculated and real-time tracking can be realized by combining the signal of the pressure sensor 5.

after the position of the iron sand block is measured, the main controller controls the driving motor 14 and the electric push rod 20 to work, the driving motor 14 works to drive the driving gear 15 to rotate, the driving gear 15 rotates to drive the driven gear 16 to rotate, the driven gear drives the fixed shaft sleeve 17 and the circular plate 18 to rotate, the circular plate 18 drives the ultrasonic generator 19 to rotate, and the top cover 13 can also rotate along with the ultrasonic generator 19 as the ultrasonic generator 19 can slide in the guide hole 22; the electric push rod 20 can make the ultrasonic generator 19 generate deflection when working and extending, the effect of the comprehensive driving motor 14 can make the ultrasonic generator 19 quickly point to the position of the massive iron sand and start to generate ultrasonic waves, the ultrasonic waves act on the iron sand to generate high-frequency vibration so as to promote the rapid disintegration of the iron sand, and finally the separation of the iron sand and the sand.

Although terms such as the base plate 1, the hollow circular truncated cone 2, the electromagnet 3, the soft plate 4, the pressure sensor 5, the circular tube 6, the partition plate 7, the cylinder 8, the communication hole 9, the shunt tube 10, the infrared sensor 11, the layered cover 12, the top cover 13, the driving motor 14, the driving gear 15, the driven gear 16, the shaft sleeve 17, the circular plate 18, the ultrasonic generator 19, the electric push rod 20, the slide groove 21, the guide hole 22, the gasket 23, the inner hole 24, the sealing plate 25, and the elastic band 26 are used more frequently, the possibility of using other terms is not excluded. These terms are used merely to more conveniently describe and explain the nature of the present invention; they are to be construed as being without limitation to any additional limitations that may be imposed by the spirit of the present invention.

Claims

1. The utility model provides an increase artificial intelligence's aquatic magnetite superelevation magnetism ore dressing device, includes that the outline is circular shape base plate (1) and main control unit, its characterized in that, base plate (1) up end is fixed with a hollow round platform (2) with one heart, hollow round platform (2) upper base diameter is greater than the diameter of going to the bottom, the axle center department of hollow round platform (2) is fixed to run through has a pipe (6), the lower extreme fixedly connected with drum (8) of pipe (6), pipe (6) internal fixation has a baffle (7), baffle (7) are separated pipe (6) for gas circuit passageway and sand path passageway, sand path passageway and drum (8) intercommunication, pipe (6) lower extreme is fixed the intercommunication has a plurality of shunt tubes (10), shunt tubes (10) run through the lateral wall of drum (8) and communicate with hollow round platform (2), a communicating hole (9) is formed in the part, located in the cylinder (8), of each shunt pipe (10);

the side wall of the hollow circular truncated cone (2) is fixedly connected with a plurality of mutually sleeved layered covers (12), the sizes of the mutually sleeved layered covers (12) are sequentially reduced from outside to inside, and the shortest distance between every two adjacent layered covers (12) is equal;

an annular groove is formed in the upper wall of the outer side of the hollow circular truncated cone (2), a plurality of pressure sensors (5) are embedded in the annular groove, a layer of soft board (4) is laid on the upper end faces of the pressure sensors (5), a plurality of electromagnets (3) are fixed on the upper wall of the soft board (4) in a gluing mode, and the pressure sensors (5) and the electromagnets (3) are electrically connected with a main controller;

the inner side upper wall of the hollow circular truncated cone (2) is provided with a hemispherical top cover (13), and a crushing device is arranged in the top cover (13).

2. The underwater magnetite ultrahigh-magnetism mineral separation device for increasing artificial intelligence according to claim 1, characterized in that a plurality of infrared sensors (11) are symmetrically arranged at the joint of the upper bottom and the side wall of the hollow circular truncated cone (2), the circular tube (6) penetrates through the top cover (13) and is rotatably connected with the top cover through a bearing, the crushing device comprises a driving motor (14), the driving motor (14) is welded and fixed on the upper wall of the hollow circular truncated cone (2) in the top cover (13), the output end of the driving motor (14) is fixedly connected with a driving gear (15), the driving gear (15) is engaged with a driven gear (16), the driven gear (16) is concentrically and rotatably connected with the outer wall of the cylinder (8) through the bearing, the driven gear (16) is coaxially and fixedly connected with a shaft sleeve (17), and the shaft sleeve (17) is sleeved on the outer wall of the cylinder (8), the ultrasonic sand box is characterized in that a circular plate (18) is fixedly connected to the outer wall of the shaft sleeve (17), a plurality of ultrasonic generators (19) capable of generating ultrasonic waves and crushing sand blocks to be condensed together are rotatably connected to the circular plate (18) through pin shafts, and the driving motor (14), the infrared sensor (11) and the ultrasonic generators (19) are all electrically connected with the main controller.

3. the underwater magnetite ultrahigh-magnetism ore dressing device added with artificial intelligence according to claim 2, characterized in that each ultrasonic generator (19) is rotatably connected with an electric push rod (20) by a pin shaft, the shaft sleeve (17) is provided with a plurality of sliding grooves (21) parallel to the axis of the shaft sleeve, each electric push rod (20) is slidably connected in the sliding groove (21) at the corresponding position, and the electric push rods (20) are electrically connected with a main controller.

4. The underwater magnetite ultra-high magnetic separation device for increasing artificial intelligence of claim 2, wherein a plurality of guide holes (22) are formed in the top cover (13), the guide holes (22) are distributed along the radius of the top cover (13), the number of the guide holes (22) is equal to that of the ultrasonic generators (19), and each ultrasonic generator (19) can slide in the guide hole (22).

5. the underwater magnetite ultrahigh-magnetic mineral separation device for increasing artificial intelligence is characterized in that one end, close to a circular tube (6), of each ultrasonic generator (19) is glued with an elastic belt (26), the side wall, far away from the circular tube (6), of each guide hole (22) is provided with an arc-shaped inner hole (24), a sealing plate (25) is connected in each inner hole (24) in a sliding mode, and each sealing plate (25) is fixedly welded with the corresponding ultrasonic generator (19).

6. the underwater magnetite ultra-high magnetic separation device for increasing artificial intelligence of claim 1, wherein a circle of sealing gasket (23) is glued at the contact part of the top cover (13) and the hollow circular truncated cone (2).

7. the underwater magnetite ultrahigh-magnetism ore-dressing device added with artificial intelligence of claim 1 is characterized in that the main controller is electrically connected with a control module and an amplifying circuit module; the discharge circuit module is electrically connected with a filter circuit module, the filter circuit module is electrically connected with a data analysis module, and the data analysis module is electrically connected with the pressure sensor and the infrared sensor;

The output end of the filter circuit module is electrically connected with the input end of the amplifying circuit module, the output ends of the infrared sensors are electrically connected with the input end of the data analysis module, the output ends of the pressure sensors are electrically connected with the input end of the data analysis module, and the output end of the amplifying circuit module is electrically connected with the input end of the main controller; the output end of the main controller is respectively and electrically connected with the input ends of the electric push rod (20), the driving motor (14) and the ultrasonic generator (19).

8. The underwater magnetite ultrahigh-magnetism mineral separation device added with artificial intelligence of claim 1, wherein the control module comprises a communication module, a signal control module and an infrared ray transceiving module, the signal control module is electrically interconnected with the communication module, and the communication module and the infrared ray are both electrically connected with a main controller.