CN117699374A - Remote safety monitoring device and method for belt conveyor - Google Patents

Abstract

The invention belongs to the technical field of belt conveyors, in particular to a remote safety monitoring device and a remote safety monitoring method for a belt conveyor, aiming at the situation that most existing cameras are installed at higher positions and are affected by vibration and weather of the device in the use process, deflection of the positions of the cameras and loosening of fixed positions are easy to cause, meanwhile, the fixed monitoring cameras can only shoot fixed angles, and in the later use process, multiple range visual angles cannot be monitored, so that the use effect of the monitoring device is reduced, and the following scheme is proposed. The remote safety monitoring device and the remote safety monitoring method for the belt conveyor, disclosed by the invention, have the advantages that the monitoring body is prevented from being influenced by vibration and weather of the device in the use process, the deflection of the position of the camera and the loosening of the fixed position are easy to cause, and meanwhile, the shooting angle of the monitoring camera is increased, so that in the later use process, the monitoring device can monitor a plurality of range visual angles, and the use effect of the monitoring device is improved.

Description

Remote safety monitoring device and method for belt conveyor

Technical Field

The invention relates to the technical field of belt conveyors, in particular to a remote safety monitoring device and method for a belt conveyor.

Background

The belt conveyor, also called as a belt conveyor line, has the characteristics of large conveying capacity, simple structure, convenient maintenance, low cost, strong universality and the like, and is widely applied to the fields of industries such as express delivery, logistics, factories, workshops and the like. When the belt conveyor is used in a wrong way in daily life, equipment is in fault, and the personal safety of users is concerned in serious conditions. With the development of society, the belt conveyor is provided with a remote safety monitoring device, so that the use safety of the belt conveyor can be effectively improved.

Most of the existing monitoring cameras are fixed by using screws and nuts between the cameras and the mounting frame in the mounting process, but most of the cameras are mounted at higher positions, the cameras are affected by vibration and weather in the use process, deflection of the positions of the cameras and loosening of the fixed positions are easily caused, meanwhile, the fixed monitoring cameras can only shoot fixed angles, in the later use process, the monitoring cannot be conducted on multiple range visual angles, and therefore the use effect of the monitoring device is reduced.

Disclosure of Invention

The invention discloses a remote safety monitoring device and method for a belt conveyor, which aim to solve the technical problems that in the background art, most of existing monitoring cameras are fixed by using screws and nuts in the installation process, but most of cameras are installed at higher positions, the cameras are easily influenced by vibration and weather of the device in the use process, deflection of the positions of the cameras and loosening of the fixed positions are easily caused, meanwhile, the fixed monitoring cameras can only shoot fixed angles, and in the later use process, monitoring cannot be performed on multiple range visual angles, so that the use effect of the monitoring device is reduced.

The invention provides a remote safety monitoring device for a belt conveyor, which comprises a conveyor body, wherein one side of the conveyor body is provided with an adjusting and mounting assembly, the adjusting and mounting assembly comprises a U-shaped tool rod, one side of the U-shaped tool rod is fixedly connected with a same protective frame, both sides of the protective frame are respectively provided with an observation port, the interiors of the two observation ports are respectively fixedly connected with a transparent observation window, one side of the protective frame is fixedly connected with a signal transmitter, two opposite sides of the U-shaped tool rod are fixedly connected with two guide circular rods, the outsides of the two guide circular rods are respectively and slidably connected with a hollow limit pipe, the outsides of the two hollow limit pipes are respectively and fixedly connected with a same movable mounting seat, one side of the U-shaped tool rod is respectively provided with a round hole I, the interiors of the two round holes I are respectively connected with a same screw rod through a bearing, one side of one U-shaped tool rod is fixedly connected with a screw rod motor, one side of the screw rod motor is connected with one end of the screw rod through a coupler, one side of the movable mounting seat is provided with two mounting round holes, the interiors of the two mounting round holes are respectively and fixedly connected with two guide circular rods through bearings, one side of the two guide circular rods is fixedly connected with two hollow guide shafts, one side of the two guide shafts are fixedly connected with two hollow guide shafts are respectively, one side of the two guide shafts are fixedly connected with one side of a rotary adjusting gear seat is fixedly connected with one side of a rotary adjusting gear seat, one side of a rotary adjusting gear seat is fixedly, one end seat is fixedly connected with one end seat is rotatably, and two guide shafts is fixedly connected with one end seat is fixedly and two guide one end adjusting and two guide shafts and two adjusting installation shafts and one end safety device, the inside of two guide rails II all sliding connection has the ratch II, ratch II with adjusting gear two phase engagement, one side fixedly connected with of removal mount pad electric telescopic handle II, one side of electric telescopic handle II and ratch II is fixedly connected with mutually, two the equal fixedly connected with installing frame of outside of cavity swivelling tube, and round hole II has all been seted up to the both sides of two installing frames, the inside of two relative round holes II has the rotation axis through bearing connection, the equal fixedly connected with conical gear II of outside of two rotation axes, the equal fixedly connected with conical gear I of outside of two rotatory cylinders, conical gear I and conical gear two phase engagement, two the equal fixedly connected with control fixed frame of outside of rotation axis, and the equal fixedly connected with two spacing extension boards of one side of two control fixed frames, the spout has all been seted up to one side of every spacing extension board, the equal fixedly connected with sucking disc I of one side of two equal fixedly connected with sucking discs of two monitoring fixed frames, the equal fixedly connected with two side of two compression spring supports of each side of equal fixedly connected with two compression spring supports, the equal fixedly connected with two opposite side of two compression spring supports of each rotation support.

Through being provided with and adjusting the installation component, when using this control body to monitor the conveyer body operation in-process, at first slide the control body to in the spout of two spacing extension boards, at this moment adsorb through sucking disc one pair of control body one side, the pulling clamping lever simultaneously, make extrusion spring receive the compression, thereby make sucking disc two on the swivel mount carry out extrusion absorption to control body one side, when using this control body to monitor the conveyer body, can drive the toothed bar through electric telescopic handle one at first inside slip of guide rail this moment, thereby make toothed bar drive adjusting gear one rotate, thereby make adjusting gear one drive hollow rotatory pipe rotate, thereby adjust the horizontal surveillance direction of control body, simultaneously drive toothed bar two at second inside slip of guide rail through electric telescopic handle, thereby make toothed bar two drive adjusting gear two rotate, make adjusting gear two drive conical gear one rotation on the rotary cylinder, thereby make conical gear two drive the control body on the control fixed frame of rotation axis rotate, thereby adjust the longitudinal monitoring angle of control body, through adjusting the body installation component, monitor the device receives the inside slip at first inside at guide rail, can make the monitor camera of the device and the time, can be influenced by the time, the camera is easy to make the monitor the device is rotated in the use, the monitor the life, the camera is more stable, the camera is used in the monitor the position is avoided, the monitor the use, the camera is easy to be in the life, the monitor the device is high-to be used, the life, and the camera is easy to be used.

In a preferred scheme, one of them one side of U type frock pole is provided with the cooling subassembly, and the cooling subassembly includes fixed plate, mount pad and spacing axle, two notches have been seted up to one side of fixed plate, round hole four has all been seted up to one side of two notches, the inside of two round holes four all is connected with the rotatory round frame of cavity through the bearing, the equal fixedly connected with cleaning cloth in one side of two rotatory round frames of cavity, the equal equidistance in one side of two rotatory round frames of cavity leaves and is equipped with the installing port, the equal fixedly connected with cavity air-blowing board in inside of every installing port.

In a preferred scheme, two the outside of cavity rotatory round frame is equal fixedly connected with band pulley, and the outside sliding connection of two band pulleys has the same belt, one side fixedly connected with linkage gear of one of them cavity rotatory round frame, the outside fixedly connected with T type ratch of spacing axle, the spout has been seted up to one side of T type ratch, one side fixedly connected with universal motor of mount pad, universal motor's drive end fixedly connected with rotary rod, round hole five has been seted up to one side of rotary rod, the inside of round hole five is connected with spacing gyro wheel through the bearing, one side fixedly connected with two mounts of fixed plate, one side fixedly connected with same communicating pipe of two mounts, one side fixedly connected with refrigeration case of protection frame.

Through being provided with the cooling subassembly, this control body is when using for a long time, through remove the control body to two inside rotatory round frames of cavity on the fixed plate, start the refrigeration case simultaneously, through communicating pipe inside drum income air conditioning of rotatory round frame of hollow, then blow out through the hollow air-blast board and cool down to the control body, avoid the control body to appear high temperature damage when using for a long time, when the air-blast board of hollow air-blast, start universal motor, drive spacing gyro wheel rotation on the rotary rod through universal motor, make the tooth piece end reciprocating motion of T type rack, make T type rack drive the two-way rotation of linkage gear, make the even air-blast of hollow air-blast board on the rotatory round frame of hollow cool down to the control body.

In a preferred scheme, two the equal distance fixedly connected with extension spring in multiple sides of cavity spacing pipe, and the outside fixedly connected with same fixed frame of a plurality of extension springs that are located same one side, the equal equidistance in both sides of every fixed frame leave and are equipped with round hole six, and the inside of two relative round holes six is connected with spacing roller through the bearing.

Through being provided with expansion spring, fixed frame and spacing roller, remove the mount pad when outside the removal of direction round bar, the spacing roller that is located the inside fixed frame of cavity spacing pipe this moment makes closely and outside laminating of direction round bar through expansion spring's elasticity, and spacing roller and the outside area of contact of direction round bar is only a bit to reduce the outside friction of spacing roller to direction round bar, thereby promote the life of device.

The use method of the remote safety monitoring device for the belt conveyor comprises the following steps of:

when the monitoring body is used for monitoring the running process of the conveyor body, the monitoring body is firstly slid into the sliding grooves of the two limiting support plates, at the moment, one side of the monitoring body is firstly adsorbed through the first sucker, and meanwhile, the clamping rod is pulled, so that the extrusion spring is compressed, and the second sucker on the rotary support is used for extruding and adsorbing one side of the monitoring body;

step two, a toothed bar I is driven by an electric telescopic rod to slide in a guide track I, so that the toothed bar drives an adjusting gear I to rotate, and the adjusting gear drives a hollow rotating pipe to rotate, and the horizontal monitoring direction of a monitoring body is adjusted;

step three, drive rack bar two through electric telescopic handle two and slide in guide rail two inside to make rack bar two drive adjusting gear two rotate, make adjusting gear two drive the rotation of conical gear one on the rotatory cylinder, thereby make conical gear one drive conical gear two make the control body on the control fixed frame on the rotation axis rotate, thereby adjust the vertical control angle of control body.

Therefore, the remote safety monitoring device for the belt conveyor has the advantages that the monitoring body is prevented from being affected by vibration and weather of the device in the using process, deflection of the position of the camera and looseness of the fixed position are easy to cause, meanwhile, the shooting angle of the monitoring camera is increased, and in the later using process, multiple range visual angles can be monitored, so that the using beneficial effect of the monitoring device is improved.

Drawings

FIG. 1 is a schematic diagram of a remote safety monitoring device for a belt conveyor according to the present invention;

FIG. 2 is a schematic side view of a remote safety monitoring device for a belt conveyor according to the present invention;

FIG. 3 is a schematic diagram of an adjusting and installing assembly of a remote safety monitoring device for a belt conveyor according to the present invention;

FIG. 4 is a schematic diagram of a part of an adjusting and installing assembly of a remote safety monitoring device for a belt conveyor according to the present invention;

FIG. 5 is a schematic diagram of a mobile mounting base of a remote safety monitoring device for a belt conveyor according to the present invention;

FIG. 6 is an enlarged schematic view of the portion A of FIG. 5;

FIG. 7 is a schematic diagram of a cooling assembly of a remote safety monitoring device for a belt conveyor according to the present invention;

FIG. 8 is a schematic diagram of a portion of a cooling assembly of a remote safety monitoring device for a belt conveyor according to the present invention;

FIG. 9 is a schematic diagram of a mounting plate of a remote safety monitoring device for a belt conveyor according to the present invention;

fig. 10 is a schematic cross-sectional view of a hollow limiting tube of a remote safety monitoring device for a belt conveyor according to the present invention.

In the figure: 1. a conveyor body; 2. a signal transmitter; 3. adjusting the mounting assembly; 301. u-shaped tool bar; 302. a protective frame; 303. a guide round bar; 304. a screw rod; 305. a screw motor; 306. a transparent viewing window; 307. moving the mounting base; 308. a hollow limit tube; 309. a hollow rotating tube; 310. a first guide rail; 311. a toothed bar I; 312. an electric telescopic rod I; 313. an adjusting gear I; 314. rotating the cylinder; 315. a second guide rail; 316. a toothed bar II; 317. an electric telescopic rod II; 318. an adjusting gear II; 319. a mounting frame; 320. a first conical gear; 321. a rotation shaft; 322. a second bevel gear; 323. monitoring a fixed frame; 324. monitoring the body; 325. a sucking disc I; 326. limiting support plates; 327. a rotating shaft; 328. a clamping rod; 329. a rotary support; 330. a second sucker; 331. a support rod; 332. extruding a spring; 4. a cooling component; 401. a fixing plate; 402. a hollow rotary round frame; 403. a hollow air-blowing plate; 404. a cleaning cloth; 405. a communicating pipe; 406. a fixing frame; 407. a belt; 408. a linkage gear; 409. a mounting base; 410. a universal motor; 411. t-shaped toothed bars; 412. limiting idler wheels; 413. a rotating rod; 414. a refrigeration box; 415. a limiting shaft; 5. a telescopic spring; 6. a fixed frame; 7. and a limit roller.

Detailed Description

The following description of the embodiments of the present invention will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present invention, but not all embodiments.

The invention discloses a remote safety monitoring device for a belt conveyor, which is mainly applied to the prior monitoring camera, wherein most of the cameras are fixed with a mounting frame by using screws and nuts, but most of the cameras are arranged at higher positions, and are easily influenced by vibration and weather of the device in the use process, so that the deflection of the positions of the cameras and the looseness of the fixed positions are easily caused, and meanwhile, the fixed monitoring camera can only shoot fixed angles, and can not monitor a plurality of range visual angles in the later use process, so that the use effect of the monitoring device is reduced.

Referring to fig. 1-7, a remote safety monitoring device for a belt conveyor comprises a conveyor body 1, wherein an adjusting and installing assembly 3 is arranged on one side of the conveyor body 1, the adjusting and installing assembly 3 comprises a U-shaped tool bar 301, one side of the two U-shaped tool bars 301 is fixedly connected with a same protective frame 302, both sides of the protective frame 302 are provided with observation openings, the interiors of the two observation openings are fixedly connected with transparent observation windows 306, one side of the protective frame 302 is fixedly connected with a signal transmitter 2, two guide round bars 303 are fixedly connected on the opposite sides of the two U-shaped tool bars 301, hollow limiting tubes 308 are fixedly connected with a same movable installing seat 307 on the exteriors of the two guide round bars 303, one side of the two U-shaped tool bars 301 is provided with round holes one, the interiors of the two round holes one are connected with a same screw rod 304 through bearings, one side of one U-shaped tool rod 301 is fixedly connected with a screw rod motor 305, the driving end of the screw rod motor 305 is connected with one end of the screw rod 304 through a coupler, one side of the movable mounting seat 307 is provided with two mounting round holes, the interiors of the two mounting round holes are respectively connected with a hollow rotating tube 309 through bearings, the exteriors of the two hollow rotating tubes 309 are respectively fixedly connected with an adjusting gear I313, one side of the movable mounting seat 307 is fixedly connected with two guiding rails I310, the interiors of the two guiding rails I310 are respectively and slidingly connected with a toothed bar I311, the toothed bar I311 is meshed with the adjusting gear I313, one side of the movable mounting seat 307 is fixedly connected with two electric telescopic rods I312, the driving end of the electric telescopic rods I312 is fixedly connected with one side of the toothed bar I311, the interiors of the two hollow rotating tubes 309 are respectively and movably connected with a rotating cylinder 314, the outer parts of the two rotary cylinders 314 are fixedly connected with a second adjusting gear 318, one side of the movable mounting seat 307 is fixedly connected with a second guiding track 315, the inner parts of the second guiding tracks 315 are fixedly connected with a second toothed bar 316, the second toothed bar 316 is meshed with the second adjusting gear 318, one side of the movable mounting seat 307 is fixedly connected with a second electric telescopic rod 317, the driving end of the second electric telescopic rod 317 is fixedly connected with one side of the second toothed bar 316, the outer parts of the two hollow rotary pipes 309 are fixedly connected with mounting frames 319, round holes II are formed in two sides of the two mounting frames 319, the inner parts of the two opposite round holes II are connected with rotary shafts 321 through bearings, the outer parts of the two rotary shafts 321 are fixedly connected with a second conical gear 322, the outer parts of the two rotary cylinders 314 are fixedly connected with a first conical gear 320, the first conical gear 320 is meshed with the second conical gear 322, the outside of the two rotation shafts 321 is fixedly connected with a monitoring fixing frame 323, one side of the two monitoring fixing frames 323 is fixedly connected with two limiting support plates 326, one side of each limiting support plate 326 is provided with a sliding groove, the inside of the two sliding grooves on the same side is slidingly connected with the same monitoring body 324, one side of the two monitoring fixing frames 323 is fixedly connected with a sucker one 325, one side of each limiting support plate 326 is provided with a round hole three, the inside of each round hole three is connected with a rotation shaft 327 through a bearing, the outside of each rotation shaft 327 is fixedly connected with two clamping rods 328, one side of the two opposite clamping rods 328 is movably connected with a rotary support 329, one side of each rotary support 329 is fixedly connected with a sucker two 330 at equal distance, one side of each limiting support plate 326 is fixedly connected with two struts 331, one side of each strut 331 is fixedly connected with a compression spring 332, one side of the pressing spring 332 is fixedly connected with one side of the clamping lever 328.

In a specific application scenario, when the monitoring body 324 is used for monitoring the running process of the conveyor body 1, the monitoring body 324 is firstly slid into the sliding grooves of the two limiting support plates 326, at this time, one side of the monitoring body 324 is firstly absorbed by the first sucker 325, and meanwhile, the clamping rod 328 is pulled, so that the compression spring 332 is compressed, and the second sucker 330 on the rotating support 329 is used for compressing and absorbing one side of the monitoring body 324, the first electric telescopic rod 312 is used for driving the first toothed rod 311 to slide in the guide track 310, so that the first toothed rod 311 drives the adjusting gear 313 to rotate, the first adjusting gear 313 is used for driving the hollow rotating tube 309 to rotate, the horizontal monitoring direction of the monitoring body 324 is adjusted, the second electric telescopic rod 317 is used for driving the second toothed rod 316 to slide in the guide track 315, so that the second toothed rod 316 drives the adjusting gear 318 to rotate, and the second adjusting gear 318 drives the first conical gear 320 to rotate, so that the first conical gear 320 drives the monitoring body 324 on the monitoring fixing frame 323 on the rotating shaft 321 to rotate, and the longitudinal angle of the monitoring body 324 is monitored, and the longitudinal angle of the monitoring body 324 is adjusted.

Referring to fig. 1, 8 and 9, one side of one of the U-shaped tool bars 301 is provided with a cooling component 4, and the cooling component 4 comprises a fixing plate 401, a mounting seat 409 and a limiting shaft 415, two notches are formed in one side of the fixing plate 401, round holes four are formed in one sides of the two notches, hollow rotary round frames 402 are connected to the inside of the two round holes four through bearings, cleaning cloth 404 is fixedly connected to one sides of the two hollow rotary round frames 402, mounting openings are formed in one sides of the two hollow rotary round frames 402 at equal intervals, and a hollow air blowing plate 403 is fixedly connected to the inside of each mounting opening.

Referring to fig. 1, 8 and 9, the outside of two hollow rotatory round frames 402 is all fixedly connected with band pulley, and the outside sliding connection of two band pulleys has the same belt 407, one side fixedly connected with linkage gear 408 of one of them hollow rotatory round frame 402, the spout has been seted up to one side of spacing axle 415's outside fixedly connected with T type ratch 411, one side fixedly connected with universal motor 410 of mount pad 409, the drive end fixedly connected with rotary rod 413 of universal motor 410, round hole five has been seted up to one side of rotary rod 413, the inside of round hole five is connected with spacing gyro wheel 412 through the bearing, one side fixedly connected with two mounts 406 of fixed plate 401, one side fixedly connected with same communicating pipe 405 of two mounts 406, one side fixedly connected with refrigeration case 414 of protection frame 302.

In a specific application scenario, this control body 324 is when using for a long time, through moving the control body 324 to the inside of two rotatory round frames 402 of cavity on the fixed plate 401, start the refrigeration case 414 simultaneously, blow in air conditioning to the inside of rotatory round frame 402 of hollow through communicating pipe 405, then blow out through the air-blowing board 403 and cool down to control body 324, avoid control body 324 to appear high temperature damage when using for a long time, air-blowing board 403 blows out, start universal motor 410, drive spacing gyro wheel 412 rotation on rotary rod 413 through universal motor 410, make the tooth piece end reciprocating motion of T type rack 411, make T type rack 411 drive the both-way rotation of linkage gear 408, make the even air-blowing of cavity air-blowing board 403 on the rotatory round frame 402 of cavity carry out the cooling operation to control body 324.

Referring to fig. 4 and 10, the telescopic springs 5 are fixedly connected to the sides of the two hollow limiting pipes 308 at equal distances, the outer parts of the telescopic springs 5 located on the same side are fixedly connected with the same fixed frame 6, two sides of each fixed frame 6 are equally spaced from each other, a round hole six is formed in each side of each fixed frame 6, and the limiting roller 7 is connected to the inner parts of the two opposite round holes six through bearings.

In a specific application scenario, when the movable mounting seat 307 moves outside the guide round rod 303, the limiting roller 7 on the fixed frame 6 inside the hollow limiting tube 308 is tightly attached to the outside of the guide round rod 303 through the retractility of the telescopic spring 5, and the contact area between the limiting roller 7 and the outside of the guide round rod 303 is only one point, so that friction of the limiting roller 7 to the outside of the guide round rod 303 is reduced, and the service life of the device is prolonged.

The use method of the remote safety monitoring device for the belt conveyor comprises the following steps of:

when the monitoring body 324 is used for monitoring the running process of the conveyor body 1, the monitoring body 324 is firstly slid into the sliding grooves of the two limiting support plates 326, at the moment, one side of the monitoring body 324 is firstly adsorbed by the first sucker 325, and meanwhile, the clamping rod 328 is pulled, so that the extrusion spring 332 is compressed, and the second sucker 330 on the rotary support 329 is used for extruding and adsorbing one side of the monitoring body 324;

step two, the first toothed bar 311 is driven to slide in the first guide track 310 by the first electric telescopic bar 312, so that the first toothed bar 311 drives the first adjusting gear 313 to rotate, and the first adjusting gear 313 drives the hollow rotating tube 309 to rotate, so as to adjust the horizontal monitoring direction of the monitoring body 324;

step three, the second electric telescopic rod 317 drives the second toothed rod 316 to slide in the second guide rail 315, so that the second toothed rod 316 drives the second adjusting gear 318 to rotate, the second adjusting gear 318 drives the first conical gear 320 on the rotary cylinder 314 to rotate, and the first conical gear 320 drives the second conical gear 322 to rotate the monitoring body 324 on the monitoring fixing frame 323 on the rotary shaft 321, so that the longitudinal monitoring angle of the monitoring body 324 is adjusted.

Working principle: when the monitoring body 324 is used for monitoring the running process of the conveyor body 1, the monitoring body 324 is firstly slid into the sliding grooves of the two limiting support plates 326, at the moment, one side of the monitoring body 324 is firstly absorbed by the sucker I325, meanwhile, the clamping rod 328 is pulled, the extrusion spring 332 is compressed, the sucker II 330 on the rotary support 329 is used for extruding and absorbing one side of the monitoring body 324, the electric telescopic rod I312 is used for driving the toothed rod I311 to slide in the guide track I310, so that the toothed rod I311 drives the adjusting gear I313 to rotate, the adjusting gear I313 drives the hollow rotary tube 309 to rotate, the horizontal monitoring direction of the monitoring body 324 is adjusted, the electric telescopic rod II 317 is used for driving the toothed rod II 316 to slide in the guide track II 315, the toothed rod II 316 is used for driving the adjusting gear II 318 to rotate, the adjusting gear II 318 drives the first bevel gear 320 on the rotary cylinder 314 to rotate, the first bevel gear 320 drives the second bevel gear 322 to rotate the monitoring body 324 on the monitoring fixing frame 323 on the rotary shaft 321, so as to adjust the longitudinal monitoring angle of the monitoring body 324, when the monitoring body 324 is used for a long time, the monitoring body 324 is moved to the inside of the two hollow rotary circular frames 402 on the fixing plate 401, meanwhile, the refrigerating box 414 is started, cold air is blown into the inside of the hollow rotary circular frames 402 through the communicating pipe 405, then the air blowing plate 403 is blown out to cool the monitoring body 324, the high-temperature damage of the monitoring body 324 is avoided when the air blowing plate 403 is used for a long time, the universal motor 410 is started, the limit roller 412 on the rotary rod 413 is driven to rotate through the universal motor 410, the tooth block end of the T-shaped toothed rod 411 is reciprocated, make T type rack 411 drive the bi-directional rotation of linkage gear 408 for the even air-blast of cavity air-blast board 403 on the rotatory round frame 402 of cavity carries out the operation of cooling to control body 324, remove mount pad 307 when outside the removal of direction round bar 303, the spacing roller 7 that is located on the inside fixed frame 6 of cavity spacing pipe 308 this moment makes closely and the outside laminating of direction round bar 303 through the elasticity of telescopic spring 5, spacing roller 7 is only a bit with the outside area of contact of direction round bar 303, thereby reduce spacing roller 7 to the outside friction of direction round bar 303.

The foregoing is only a preferred embodiment of the present invention, but the scope of the present invention is not limited thereto, and any person skilled in the art, who is within the scope of the present invention, should make equivalent substitutions or modifications according to the technical scheme of the present invention and the inventive concept thereof, and should be covered by the scope of the present invention.

Claims (5)

1. The utility model provides a belt conveyor remote safety monitoring device, includes conveyer body (1), its characterized in that, one side of conveyer body (1) is provided with adjusts installation component (3), and adjusts installation component (3) including U type frock pole (301), two one side fixedly connected with one protection frame (302) of U type frock pole (301), and the viewing aperture has all been seted up to the both sides of protection frame (302), and the inside of two viewing apertures is all fixedly connected with transparent observation window (306), one side fixedly connected with signal transmitter (2) of protection frame (302), two opposite side fixedly connected with of U type frock pole (301) two direction round bars (303), and the outside of two direction round bars (303) is equal sliding connection with cavity spacing pipe (308), and the outside fixedly connected with same removal mount pad (307) of two cavity spacing pipe (308), two one side of U type frock pole (301) has all been seted up round hole one, and two inside of round hole one have the same motor (306) through the bearing connection, one side of two lead screw (305) of which is equipped with two end of lead screw (305) through the fixed connection of two lead screw (305) one end of a round hole (309), the outside of two cavity swivelling joint pipes (309) all fixedly connected with adjusting gear one (313), the inside of two guiding track one (310) of one side fixedly connected with of removal mount pad (307) just two guiding track one (310) all sliding connection have rack one (311), rack one (311) and adjusting gear one (313) mesh, the one side fixedly connected with of removal mount pad (307) two electric telescopic handle one (312), the drive end of electric telescopic handle one (312) is fixedly connected with one side of rack one (311), the inside of two cavity swivelling joint pipes (309) all swing joint has rotatory cylinder (314), and the outside of two swivel cylinder (314) all fixedly connected with adjusting gear two (318), the inside of two guiding track two (315) all sliding connection have rack two (316), rack two (316) mesh with adjusting gear two (318), one side fixedly connected with two electric telescopic handle two (319) of removal mount pad (307) and one side fixedly connected with two electric telescopic handle two (317), the both sides of two swivel joint pipes (309) are connected with round hole (309) of two outside of two swivel joint pipes (309), the inside of two opposite round holes II is connected with a rotating shaft 321 through a bearing, the outside of two rotating shafts 321 is fixedly connected with a bevel gear II 322, the outside of two rotating cylinders 314 is fixedly connected with a bevel gear I320, the bevel gear I320 is meshed with the bevel gear II 322, two outside of the rotating shafts 321 is fixedly connected with a monitoring fixed frame 323, one side of two monitoring fixed frames 323 is fixedly connected with two limiting support plates 326, one side of each limiting support plate 326 is provided with a chute, the inside of two chutes on the same side is connected with the same monitoring body 324 in a sliding manner, one side of each monitoring fixed frame 323 is fixedly connected with a sucker I325, one side of each limiting support plate 326 is provided with a round hole III, the inside of each round hole III is fixedly connected with a rotating shaft 327 through a bearing, the outside of each rotating shaft 321 is fixedly connected with two clamping rods 328, one side of each opposite two clamping rods 328 is movably connected with two limiting support plates 326, one side of each limiting support plates 331 is fixedly connected with two limiting support plates 332, one side of the pressing spring (332) is fixedly connected with one side of the clamping rod (328).

2. The belt conveyor remote safety monitoring device according to claim 1, wherein one side of the U-shaped tool bar (301) is provided with a cooling component (4), and the cooling component (4) comprises a fixed plate (401), a mounting seat (409) and a limiting shaft (415), two notches are formed in one side of the fixed plate (401), round holes four are formed in one side of the two notches, hollow rotary round frames (402) are connected to the inside of the two round holes four through bearings, cleaning cloth (404) is fixedly connected to one side of the two hollow rotary round frames (402), mounting holes are formed in one side of the two hollow rotary round frames (402) in an equidistant mode, and hollow air blowing plates (403) are fixedly connected to the inside of each mounting hole.

3. The belt conveyor remote safety monitoring device according to claim 2, wherein the two outer parts of the hollow rotary round frames (402) are fixedly connected with belt wheels, the outer parts of the two belt wheels are connected with the same belt (407) in a sliding mode, one side of one hollow rotary round frame (402) is fixedly connected with a linkage gear (408), the outer part of the limiting shaft (415) is fixedly connected with a T-shaped toothed bar (411), one side of the T-shaped toothed bar (411) is provided with a sliding groove, one side of the mounting seat (409) is fixedly connected with a universal motor (410), the driving end of the universal motor (410) is fixedly connected with a rotary rod (413), one side of the rotary rod (413) is provided with a round hole five, the inner part of the round hole five is connected with a limiting roller (412) through a bearing, one side of the fixing plate (401) is fixedly connected with two fixing frames (406), one side of the two fixing frames (406) is fixedly connected with the same communication pipe (405), and one side of the protecting frame (302) is fixedly connected with a refrigerating box (414).

4. A belt conveyor remote safety monitoring device according to claim 3, characterized in that, two the equal distance in multiaspect of cavity spacing pipe (308) is fixedly connected with extension spring (5), and the outside fixedly connected with same fixed frame (6) of a plurality of extension springs (5) that are located same one side, the both sides of every fixed frame (6) all equidistantly leave and are equipped with round hole six, and the inside of two opposite round holes six is connected with spacing roller (7) through the bearing.

5. A method of using a belt conveyor remote safety monitoring device according to claim 4, comprising the steps of:

firstly, when the monitoring body (324) is used for monitoring the running process of the conveyor body (1), the monitoring body (324) is firstly slid into the sliding grooves of the two limiting support plates (326), at the moment, one side of the monitoring body (324) is firstly adsorbed by the sucker I (325), and meanwhile, the clamping rod (328) is pulled, so that the extrusion spring (332) is compressed, and the sucker II (330) on the rotary support (329) is used for extruding and adsorbing one side of the monitoring body (324);

step two, the first toothed bar (311) is driven to slide in the first guide rail (310) through the first electric telescopic rod (312), so that the first toothed bar (311) drives the first adjusting gear (313) to rotate, the first adjusting gear (313) drives the hollow rotating pipe (309) to rotate, and the horizontal monitoring direction of the monitoring body (324) is adjusted;

step three, drive rack two (316) through electric telescopic handle two (317) and slide in guide rail two (315) inside to make rack two (316) drive adjusting gear two (318) rotation, make adjusting gear two (318) drive the rotation of conical gear one (320) on rotary cylinder (314), thereby make conical gear one (320) drive conical gear two (322) and make the control body (324) on the control fixed frame (323) on rotation axis (321) rotate, thereby adjust the longitudinal monitoring angle of control body (324).