CN117469644B - Intelligent treatment equipment for construction site - Google Patents

Abstract

The present invention relates to the field of emergency lighting technology, and in particular to intelligent disposal equipment for construction sites, which is used to solve the problem that existing lighting devices for emergency treatment cannot provide good lighting conditions. The device includes a lighting lamp and a power supply mechanism for supplying power to the lighting lamp, and the power supply mechanism includes: a first power supply line and a second power supply line; a storage roller for storing the second power supply line; a limit rod; the first power supply line is electrically connected to a main circuit, and the second power supply line is electrically connected to a backup circuit; when the limit rod is not engaged with the storage roller, the lighting lamp is only powered by the second power supply line; when the lighting lamp descends, the first power supply line can be pulled out from the lighting lamp, and at the same time, the backup circuit connected to the second power supply line supplies power to the lighting lamp, and at this time the second power supply line can be released from the storage roller, so that the lighting lamp has a greater degree of freedom of movement, and the lighting effect can be improved by moving the lighting lamp to a desired lighting position.

Description

Intelligent disposal equipment at construction sites

Technical Field

The present invention relates to the technical field of emergency lighting, and in particular to intelligent disposal equipment at a construction site.

Background technique

During construction, it is often necessary to carry out construction at night. During night construction, lighting devices are needed to ensure the normal progress of the work.

Generally, emergency lighting processing equipment is available at construction sites to facilitate emergency lighting when power is interrupted. Since emergency lighting equipment is usually powered by battery storage, existing emergency lighting equipment is usually low in brightness and cannot be adjusted in position to ensure battery life.

If construction cannot be interrupted, existing emergency lighting equipment usually cannot provide good lighting, which will cause delays in the construction period. Construction under weak lighting intensity is also prone to cause safety accidents.

Summary of the invention

The present invention provides intelligent disposal equipment for construction sites to solve the problem that existing lighting devices for emergency disposal cannot provide good lighting conditions.

In order to alleviate the above technical problems, the technical solution provided by the present invention is:

Intelligent disposal equipment for construction sites includes a lighting lamp and a power supply mechanism for supplying power to the lighting lamp, the power supply mechanism includes: a first power supply line and a second power supply line, the end of the first power supply line is plugged into the power interface of the lighting lamp, and the second power supply line is fixedly connected to the lighting lamp; when the lighting lamp moves downward, the first power supply line can be unplugged from the power interface of the lighting lamp; a storage roller is used to store the second power supply line; a limit rod can be clamped on the end of the storage roller to lock the rotation of the storage roller; the first power supply line is electrically connected to the main circuit, and the second power supply line is electrically connected to the standby circuit; when the limit rod is not clamped with the storage roller, the lighting lamp moves downward due to gravity so that the first power supply line is unplugged from the lighting lamp, so that the lighting lamp is only powered by the second power supply line.

Furthermore, it also includes: a tension spring connected to the end of the limit rod, used to pull the limit rod to unlock the storage roller; the first power supply line has a spirally wound portion, and the limit rod is magnetic and is inserted into the middle of the spirally wound portion; when the first power supply line is energized, the spirally wound portion generates a magnetic field acting on the limit rod so that the limit rod slides toward the end of the storage roller and engages with the storage roller to lock the storage roller; when the first power supply line is de-energized, the magnetic field of the spirally wound portion disappears, and the tension spring pulls the limit rod away from the storage roller, thereby unlocking the storage roller.

Furthermore, a hole is formed at the end of the storage roller to be gap-matched with the limiting rod, and a first clamping block is connected in the hole, and a second clamping block clamped with the first clamping block is connected to the side wall of the limiting rod.

Furthermore, it also includes a fixing mechanism, which includes: a mounting plate connected to the wall; a mounting box connected to the side of the mounting plate; and the storage roller rotates in the mounting box.

Furthermore, it also includes: a ratchet ring, rotatably connected to the outer wall of the installation box; a pawl, rotatably connected to the outer wall of the installation box and cooperating with the ratchet ring; an end of the storage roller away from the limit rod is inserted into the ratchet ring; a first convex strip is provided at the end of the storage roller, and a second convex strip is provided on the inner wall of the ratchet ring; after the storage roller rotates one circle, the first convex strip abuts against the second convex strip, so that the storage roller can then drive the ratchet ring to rotate synchronously.

Furthermore, a first torsion spring is connected to one end of the storage roller close to the ratchet ring, and the first torsion spring is fixedly connected to the installation box.

Furthermore, a variable resistance mechanism electrically connected in series with the backup circuit is connected to the outer wall of the installation box, and the variable resistance mechanism includes: a resistance wire connected to the outer wall of the installation box; a screw rod rotating on the upper part of the resistance wire; a slide plate threadedly connected to the screw rod and electrically connected to the resistance wire; a belt transmission-connected between the storage roller and the screw rod; when the storage roller rotates to release the second power supply line, the screw rod is driven to rotate through the belt, so that the screw rod drives the slide plate to slide on the resistance wire to reduce the resistance.

Furthermore, a dustproof plate is fixedly connected to the installation box, and the dustproof plate is located on the upper part of the variable resistance mechanism.

Furthermore, a cleaning mechanism is provided on the outer wall of the installation box, and the cleaning mechanism includes: a brush connected to the lower part of the slide, and the brush is in contact with the resistance wire.

Furthermore, the cleaning mechanism also includes: a cam connected to the end of the screw; a bracket connected to the outer wall of the mounting box; an airbag connected to the upper part of the bracket; an air pipe connected to the airbag, and the blowing end of the air pipe is connected to the upper part of the brush and faces the resistance wire; when the screw rotates, the cam is driven to rotate, so that the cam squeezes the airbag so that the air in the airbag is blown toward the resistance wire through the air pipe.

The beneficial effects of the present invention are analyzed as follows:

Intelligent disposal equipment for construction sites, including lighting lamps, characterized in that;

Also included is a power supply mechanism for supplying power to the lighting lamp, the power supply mechanism comprising:

A first power supply line and a second power supply line, wherein an end of the first power supply line is plugged into a power interface of the illuminating lamp, and the second power supply line is fixedly connected to the illuminating lamp;

When the lighting lamp moves downward, the first power supply line can be unplugged from the power interface of the lighting lamp;

A receiving roller, used for receiving the second power supply line;

A limit rod, which can be clamped on the end of the storage roller to lock the rotation of the storage roller;

The first power supply line is electrically connected to the main circuit, and the second power supply line is electrically connected to the backup circuit;

When the limiting rod is not engaged with the storage roller, the lighting lamp moves downward due to gravity so that the first power supply line is pulled out from the lighting lamp, so that the lighting lamp is only powered by the second power supply line.

When the main circuit is energized, the lighting lamp relies on the power supply of the main circuit for lighting. When the main circuit is powered off, the limit rod disengages from the clamping state with the storage roller, so that the storage roller is unlocked. At this time, the storage roller can rotate, so that the lighting lamp falls down due to its weight. Since the end of the first power supply line connected to the lighting lamp has no freedom of movement in the vertical downward direction, the first power supply line can be pulled out from the lighting lamp when the lighting lamp falls. At the same time, the backup circuit connected to the second power supply line supplies power to the lighting lamp, and the second power supply line can be released from the storage roller at this time, so that the lighting lamp has greater freedom of movement, and the lighting effect can be improved by moving the lighting lamp to the desired lighting position.

BRIEF DESCRIPTION OF THE DRAWINGS

In order to more clearly illustrate the specific embodiments of the present invention or the technical solutions in the related technologies, the drawings required for use in the specific embodiments or the related technical descriptions will be briefly introduced below. Obviously, the drawings described below are some embodiments of the present invention. For ordinary technicians in this field, other drawings can be obtained based on these drawings without paying creative work.

Fig. 1 is a schematic diagram of the overall structure of the present invention;

FIG2 is a schematic diagram of the overall structure of the present invention without the dust plate;

FIG3 is a schematic structural diagram of a storage roller of the present invention;

FIG4 is a schematic structural diagram of a limit rod of the present invention;

FIG5 is a schematic structural diagram of the ratchet ring of the present invention;

FIG6 is a schematic structural diagram of a variable resistance mechanism of the present invention;

FIG7 is a schematic diagram of the structure of the power supply line of the present invention;

FIG. 8 is a schematic structural diagram of the cleaning mechanism of the present invention.

icon:

100, fixing mechanism; 110, mounting plate; 120, mounting box; 121, mounting seat; 122, backup power supply; 130, dustproof plate; 200, power supply mechanism; 210, storage roller; 211, second power supply line; 2111, conductive block; 212, lighting lamp; 213, first clamping block; 214, first convex strip; 215, first torsion spring; 220, U-shaped frame; 230, limit rod; 231, tension spring ; 232, second block; 240, first power supply line; 250, ratchet ring; 251, second convex strip; 260, pawl; 261, second torsion spring; 270, conductive sheet; 300, variable resistance mechanism; 310, resistance wire; 320, screw; 321, cam; 330, belt; 340, slide; 341, brush; 400, cleaning mechanism; 410, bracket; 420, airbag; 430, trachea.

Detailed ways

The technical solution of the present invention will be described clearly and completely below in conjunction with the accompanying drawings. Obviously, the described embodiments are only part of the embodiments of the present invention, not all of the embodiments. Based on the embodiments of the present invention, all other embodiments obtained by ordinary technicians in this field without creative work are within the scope of protection of the present invention.

In the description of the present invention, it should be noted that the terms "center", "upper", "lower", "left", "right", "vertical", "horizontal", "inner", "outer", etc., indicating the orientation or positional relationship, are based on the orientation or positional relationship shown in the drawings, and are only for the convenience of describing the present invention and simplifying the description, rather than indicating or implying that the device or element referred to must have a specific orientation, be constructed and operated in a specific orientation, and therefore cannot be understood as limiting the present invention. In addition, the terms "first", "second", and "third" are used for descriptive purposes only, and cannot be understood as indicating or implying relative importance.

In the description of the present invention, it should be noted that, unless otherwise clearly specified and limited, the terms "installed", "connected", and "connected" should be understood in a broad sense, for example, it can be a fixed connection, a detachable connection, or an integral connection; it can be a mechanical connection or an electrical connection; it can be a direct connection, or it can be indirectly connected through an intermediate medium, or it can be the internal communication of two components. For ordinary technicians in this field, the specific meanings of the above terms in the present invention can be understood according to specific circumstances.

Example

As shown in Figures 1 to 8, the construction site intelligent disposal equipment includes a lighting lamp 212 and a power supply mechanism 200 for supplying power to the lighting lamp 212. The power supply mechanism 200 includes: a first power supply line 240 and a second power supply line 211. The end of the first power supply line 240 is plugged into the power interface of the lighting lamp 212, and the second power supply line 211 is fixedly connected to the lighting lamp 212. When the lighting lamp 212 moves downward, the first power supply line 240 can be unplugged from the power interface of the lighting lamp 212. ; The storage roller 210 is used to store the second power supply line 211; the limiting rod 230 can be clamped on the end of the storage roller 210 to lock the rotation of the storage roller 210; the first power supply line 240 is electrically connected to the main circuit, and the second power supply line 211 is electrically connected to the backup circuit; when the limiting rod 230 is not clamped with the storage roller 210, the lighting lamp 212 moves downward due to gravity, so that the first power supply line 240 is pulled out from the lighting lamp 212, so that the lighting lamp 212 is only powered by the second power supply line 211.

Working mechanism of the construction site emergency treatment equipment provided by the present invention:

When the main circuit is energized, the illuminating lamp 212 relies on the power of the main circuit for illumination. When the main circuit is powered off, the limit rod 230 is disengaged from the clamping state with the storage roller 210, so that the storage roller 210 is unlocked. At this time, the storage roller 210 can rotate, so that the illuminating lamp 212 falls down by its weight. Since the end of the first power supply line 240 connected to the illuminating lamp 212 does not have the freedom to move in the vertical downward direction, the first power supply line 240 can be pulled out from the illuminating lamp 212 when the illuminating lamp 212 falls. At the same time, the backup circuit connected to the second power supply line 211 supplies power to the illuminating lamp 212, and the second power supply line 211 can be released from the storage roller 210 at this time, so that the illuminating lamp 212 has greater freedom of movement, and the lighting effect can be improved by moving the illuminating lamp 212 to the required lighting position. The main circuit is the power supply circuit of the construction site, and the backup circuit is powered by the backup power supply 122. When the backup power supply 122 does not need to be discharged, the backup power supply 122 is powered by the main circuit for charging.

Regarding how the limiting rod 230 releases the lock on the storage roller 210, specifically:

It also includes: a tension spring 231, connected to the end of the limit rod 230, used to pull the limit rod 230 to unlock the storage roller 210; the first power supply line 240 has a spirally wound portion, and the limit rod 230 is magnetic and inserted into the middle of the spirally wound portion; when the first power supply line 240 is energized, the spirally wound portion generates a magnetic field that acts on the limit rod 230, so that the limit rod 230 slides toward the end of the storage roller 210 and engages with the storage roller 210 to lock the storage roller 210; when the first power supply line 240 is de-energized, the magnetic field of the spirally wound portion disappears, and the tension spring 231 pulls the limit rod 230 away from the storage roller 210, thereby unlocking the storage roller 210.

A U-shaped frame 220 is installed on one side of the installation box 120, and the two ends of the tension spring 231 are respectively connected to the U-shaped frame 220 and the limit rod 230. When the first power supply line 240 is energized, the spirally wound part of the first power supply line 240 generates a magnetic field, and the magnetic field acts on the magnetic limit rod 230, so that the limit rod 230 is driven by the magnetic field and overcomes the tension of the tension spring 231 to move toward the direction of the storage roller 210. At this time, the limit rod 230 is inserted into the side of the storage roller 210 to lock the storage roller 210. When the first power supply line 240 is powered off, the magnetic field of the spirally wound part of the first power supply line 240 disappears. At this time, the tension of the tension spring 231 pulls the limit rod 230, so that the limit rod 230 is pulled out from the roller shaft of the storage roller 210, thereby releasing the lock of the storage roller 210.

Regarding how the limiting rod 230 is engaged with the storage roller 210, specifically:

The end of the storage roller 210 is provided with a hole which is gap-matched with the limiting rod 230 , and a first clamping block 213 is connected in the hole. The side wall of the limiting rod 230 is connected with a second clamping block 232 which is clamped with the first clamping block 213 .

The hole diameter at the end of the storage roller 210 is slightly larger than the diameter of the limiting rod 230, so as to ensure that the limiting rod 230 can be more easily inserted into the hole at the end of the storage roller 210. When the second clamping block 232 on the storage roller 210 and the first clamping block 213 in the hole at the end of the storage roller 210 are close to each other, the ends closer to each other are both provided with an inclination angle, so that when the ends of the first clamping block 213 and the second clamping block 232 contact, the limiting rod 230 or the storage roller 210 can rotate slightly, so that the first clamping block 213 and the second clamping block 232 can be moved. 2 can be staggered by a certain position to ensure that the limiting rod 230 can be inserted into the hole at the end of the storage roller 210, and the limiting rod 230 is restricted by the combined action of the U-shaped frame 220 and the tension spring 231 so that the limiting rod 230 will not rotate to a large extent, so that the second clamping block 232 on the side wall of the limiting rod 230 blocks the first clamping block 213 in the hole at the end of the storage roller 210, thereby locking the storage roller 210 and preventing it from rotating, thereby ensuring that the first power supply line 240 will not be pulled out from the lighting lamp 212 when the main circuit is powered on.

Regarding the structure of the fixing mechanism 100, specifically:

The device further comprises a fixing mechanism 100 , which comprises: a mounting plate 110 connected to a wall; a mounting box 120 connected to a side of the mounting plate 110 ; and a storage roller 210 rotating in the mounting box 120 .

The four corners of the mounting plate 110 are provided with threaded holes, and the mounting plate 110 is fixed at a desired installation position by nuts. The mounting box 120 accommodates and installs the storage roller 210 and protects the storage roller 210 and the second power supply line 211 .

Regarding how the release length of the second power supply line 211 can be controlled, specifically:

It also includes: a ratchet ring 250, which is rotatably connected to the outer wall of the installation box 120; a pawl 260, which is rotatably connected to the outer wall of the installation box 120 and cooperates with the ratchet ring 250; one end of the storage roller 210 away from the limiting rod 230 is inserted into the ratchet ring 250; the end of the storage roller 210 is provided with a first ridge 214, and the inner wall of the ratchet ring 250 is provided with a second ridge 251; after the storage roller 210 rotates one circle, the first ridge 214 abuts against the second ridge 251, so that the storage roller 210 can then drive the ratchet ring 250 to rotate synchronously.

3 and 5, when the lock of the storage roller 210 is released, the pulling lighting lamp 212 can release the second power supply line 211 wound on the storage roller 210. When the second power supply line 211 is released, the storage roller 210 rotates, so that the first convex strip 214 at the end of the storage roller 210 pushes the second convex strip 251 to rotate the ratchet ring 250. At this time, the ratchet teeth of the rotating ratchet ring 250 can push the pawl 260, that is, the pawl 260 does not block the rotation of the ratchet ring 250. When the storage roller 210 rotates in the opposite direction and pushes the ratchet ring 250 through the first convex strip 214 and the second convex strip 251, the pawl 260 The ratchet teeth on the ratchet ring 250 block and prevent the ratchet ring 250 from rotating, and then the storage roller 210 will not rotate in the opposite direction, ensuring that the length of the second power supply line 211 released is limited; in the initial stage of power failure of the main circuit, the first ridge 214 does not abut against the second ridge 251, and the first ridge 214 abuts against the second ridge 251 only when the first ridge 214 contacts the second ridge 251 again after the storage roller 210 rotates one circle, so that in the initial stage of power failure of the main circuit, the storage roller 210 can push a certain length of the second power supply line 211 so that the lighting lamp 212 falls a certain distance, thereby ensuring that the first power supply line 240 can be pulled out from the lighting lamp 212.

Regarding how to retract the second power supply line 211 after it is released, specifically:

One end of the storage roller 210 close to the ratchet ring 250 is connected to a first torsion spring 215 , and the first torsion spring 215 is fixedly connected to the installation box 120 .

When the storage roller 210 rotates, the first torsion spring 215 is twisted and has a restoring force, that is, the first torsion spring 215 applies a rotational force to the storage roller 210, and the cooperation of the ratchet ring 250 and the pawl 260 restricts the rotation of the storage roller 210, thereby ensuring that the release length of the second power supply line 211 is fixed. If the second power supply line 211 needs to be recovered, the pawl 260 is moved so that the pawl 260 overcomes the torsion of the second torsion spring 261 and rotates, so that the pawl 260 no longer restricts the rotation of the ratchet ring 250. At this time, the torsion of the first torsion spring 215 acts on the storage roller 210, causing the storage roller 210 to rotate back, thereby allowing the second power supply line 211 to be stored.

Regarding how to increase the brightness of the illuminating lamp 212, specifically:

A variable resistance mechanism 300 electrically connected in series with the backup circuit is connected to the outer wall of the installation box 120, and the variable resistance mechanism 300 includes: a resistance wire 310, connected to the outer wall of the installation box 120; a screw rod 320, rotating on the upper part of the resistance wire 310; a slide 340, threadedly connected to the screw rod 320 and electrically connected to the resistance wire 310; a belt 330, transmission-connected between the storage roller 210 and the screw rod 320; when the storage roller 210 rotates to release the second power supply line 211, the screw rod 320 is driven to rotate through the belt 330, so that the screw 320 drives the slide 340 to slide on the resistance wire 310 to reduce the resistance.

6, the main circuit and the standby circuit are electrically connected to the lighting lamp 212 in parallel. When the main circuit is energized, the slide 340 does not contact the resistance wire 310, so that the standby circuit is not energized. When the main circuit is de-energized, the storage roller 210 rotates and releases the second power supply line 211, so that the standby circuit supplies power to the lighting lamp 212. At this time, the storage roller 210 drives the screw 320 to rotate through the belt 330, and when the screw 320 rotates, the slide 340 threadedly connected to the screw 320 can slide axially on the screw 320. At this time, the slide 340 contacts the resistance wire 310, so that the standby circuit is energized. When the lighting lamp 212 is pulled, the storage roller 210 continues to rotate. At this time, the storage roller 210 drives the screw 320 to continue to rotate, so that the slide 340 is on the resistance wire 310. The sliding reduces the resistance of the standby circuit, and the longer the length of the second power supply line 211 that is pulled and released by the lighting lamp 212 is, the greater the rotation angle of the screw 320 is, so that the sliding distance of the sliding piece 340 is longer, and the resistance is lower at this time, so that the brightness of the lighting lamp 212 is higher, thereby improving its lighting effect; both ends of the positive and negative poles of the second power supply line 211 are connected to conductive blocks 2111, and the conductive blocks 2111 are connected to the two ends of the storage roller 210 and are respectively in contact with the conductive sheets 270 on both sides of the storage roller 210, and the conductive sheets 270 are electrically connected to the standby power supply 122, thereby ensuring that the lighting lamp 212 is always in a power-on state with the standby power supply 122 when the storage roller 210 rotates; the resistance wire 310 is wound and connected to the mounting seat 121, and the mounting seat 121 provides support for the resistance wire 310.

Among the optional methods of this embodiment, the more preferred ones are:

A dustproof plate 130 is fixedly connected to the installation box 120 , and the dustproof plate 130 is located on the upper part of the variable resistance mechanism 300 .

The dustproof plate 130 is disposed on the upper part of the variable resistance mechanism 300 , so that it can block the debris dropped from the upper part of the variable resistance mechanism 300 , and ensure the electrification effect of the sliding piece 340 and the resistance wire 310 .

Regarding the structure of the cleaning mechanism 400, specifically:

A cleaning mechanism 400 is disposed on the outer wall of the installation box 120 . The cleaning mechanism 400 includes a brush 341 connected to the lower portion of the sliding sheet 340 , and the brush 341 is in contact with the resistance wire 310 .

The brush 341 is disposed on one side of the moving direction of the sliding piece 340 , so that the sliding piece 340 in contact with the resistance wire 310 can be cleaned by the brush 341 , thereby ensuring stable connectivity of the circuit.

Among the optional methods of this embodiment, the more preferred ones are:

The cleaning mechanism 400 also includes: a cam 321, connected to the end of the screw 320; a bracket 410, connected to the outer wall of the installation box 120; an air bag 420, connected to the upper part of the bracket 410; an air pipe 430, which is connected to the air bag 420, and the blowing end of the air pipe 430 is connected to the upper part of the brush 341 and faces the resistance wire 310; when the screw 320 rotates, the cam 321 is driven to rotate, so that the cam 321 squeezes the air bag 420 so that the air in the air bag 420 is blown toward the resistance wire 310 through the air pipe 430.

8 , when the screw 320 rotates and drives the slide 340 to move, the cam 321 at the end of the screw 320 intermittently squeezes the airbag 420, so that the air in the airbag 420 is blown to the front of the brush 341 through the air pipe 430, so that the dust that may exist on the resistance wire 310 is blown away. When the airbag 420 is not squeezed by the cam 321, the airbag 420 recovers elasticity and absorbs air through the air pipe 430, so that the air in the airbag 420 can be sprayed out to clean the dust on the resistance wire 310 when the cam 321 squeezes the airbag 420 next time.

Finally, it should be noted that the above embodiments are only used to illustrate the technical solutions of the present invention, rather than to limit it. Although the present invention has been described in detail with reference to the aforementioned embodiments, those skilled in the art should understand that they can still modify the technical solutions described in the aforementioned embodiments, or replace some or all of the technical features therein by equivalents. However, these modifications or replacements do not cause the essence of the corresponding technical solutions to deviate from the scope of the technical solutions of the embodiments of the present invention.

Claims (5)

1. The intelligent treatment equipment for the construction site comprises an illuminating lamp (212), and is characterized in that;

Further comprising a power supply mechanism (200) for supplying power to the illumination lamp (212), the power supply mechanism (200) comprising:

A first power supply line (240) and a second power supply line (211), wherein the end part of the first power supply line (240) is inserted into a power interface of the illuminating lamp (212), and the second power supply line (211) is fixedly connected with the illuminating lamp (212);

when the illuminating lamp (212) moves downwards, the first power supply line (240) can be pulled out from a power interface of the illuminating lamp (212);

a receiving roller (210) for receiving the second power supply line (211);

the limiting rod (230) can be clamped at the end part of the storage roller (210) and used for locking the storage roller (210) to rotate;

the first power supply line (240) is electrically connected with the main circuit, and the second power supply line (211) is electrically connected with the standby circuit;

When the limiting rod (230) is not clamped with the storage roller (210), the illuminating lamp (212) moves downwards under the action of gravity so that the first power supply line (240) is pulled out of the illuminating lamp (212), and therefore the illuminating lamp (212) is only powered by the second power supply line (211);

Further comprises:

the tension spring (231) is connected to the end part of the limiting rod (230) and used for pulling the limiting rod (230) to unlock the storage roller (210);

the first power supply line (240) is provided with a spiral coiling part, and the limiting rod (230) is magnetic and is inserted into the middle part of the spiral coiling part;

When the first power supply line (240) is electrified, a magnetic field generated by the spiral winding part acts on the limiting rod (230) to enable the limiting rod (230) to slide towards the end part of the receiving roller (210) and be clamped with the receiving roller (210) so as to lock the receiving roller (210);

When the first power supply line (240) is powered off, the magnetic field of the spiral winding part disappears, and the tension spring (231) pulls the limiting rod (230) away from the storage roller (210), so that the storage roller (210) is unlocked;

the end part of the storage roller (210) is provided with a hole in clearance fit with the limiting rod (230), a first clamping block (213) is connected to the hole, and a second clamping block (232) clamped with the first clamping block (213) is connected to the side wall of the limiting rod (230);

Further comprising a securing mechanism (100), the securing mechanism (100) comprising:

A mounting plate (110) attached to a wall;

a mounting case (120) connected to a side surface of the mounting plate (110);

The receiving roller (210) rotates in the mounting box (120);

Further comprises:

A ratchet ring (250) rotatably connected to an outer wall of the mounting case (120);

a pawl (260) rotatably connected to an outer wall of the mounting case (120) and engaged with the ratchet ring (250);

one end, far away from the limiting rod (230), of the storage roller (210) is inserted into the ratchet ring (250);

the end part of the receiving roller (210) is provided with a first raised line (214), and the inner wall of the ratchet ring (250) is provided with a second raised line (251);

After the storage roller (210) rotates for one circle, the first raised strips (214) are abutted against the second raised strips (251), so that the storage roller (210) can drive the ratchet ring (250) to synchronously rotate;

one end of the storage roller (210) close to the ratchet ring (250) is connected with a first torsion spring (215), and the first torsion spring (215) is fixedly connected with the mounting box (120).

2. The job site intelligent disposal device of claim 1, wherein;

The outer wall of the installation box (120) is connected with a resistance changing mechanism (300) electrically connected in series with a standby circuit, and the resistance changing mechanism (300) comprises:

A resistance wire (310) connected to an outer wall of the mounting case (120);

a screw (320) which is rotated at the upper portion of the resistance wire (310);

The sliding sheet (340) is in threaded connection with the screw rod (320) and is electrically connected with the resistance wire (310);

A belt (330) drivingly connected between the receiving roller (210) and the screw (320);

When the storage roller (210) rotates to release the second power supply line (211), the screw (320) is driven to rotate through the belt (330), so that the screw (320) drives the sliding sheet (340) to slide on the resistance wire (310) to reduce resistance.

3. The job site intelligent disposal device of claim 2, wherein;

And a dust-proof plate (130) is fixedly connected to the mounting box (120), and the dust-proof plate (130) is positioned on the upper part of the varistor mechanism (300).

4. The job site intelligent disposal device of claim 3, wherein;

a cleaning mechanism (400) is arranged on the outer wall of the mounting box (120), and the cleaning mechanism (400) comprises:

and the hairbrush (341) is connected to the lower part of the sliding blade (340), and the hairbrush (341) is in contact with the resistance wire (310).

5. The job site intelligent disposal device of claim 4, wherein;

The cleaning mechanism (400) further includes:

a cam 321 connected to an end of the screw 320;

A bracket (410) connected to an outer wall of the mounting box (120);

a balloon (420) connected to an upper portion of the bracket (410);

A gas pipe (430) communicated with the air bag (420), and a blowing end of the gas pipe (430) is connected to the upper part of the brush (341) and faces the resistance wire (310); the screw (320) drives the cam (321) to rotate when rotating, so that the cam (321) presses the air bag (420) to enable air of the air bag (420) to be blown to the resistance wire (310) through the air pipe (430).