CN107931254B - Be used for abluent automatic water conservation environmental protection equipment of construction safety net - Google Patents

Abstract

The invention discloses automatic water-saving and environment-friendly equipment for cleaning a safety net for building construction, which comprises a rack, wherein the rack is divided into a base and a guide rail frame, the base is connected with the guide rail frame side by side, one end of the base, which is far away from the guide rail frame, is fixedly provided with a safety net binding and storing device, an unfolding device, a pulling device, a crushing device, a hairbrush device and a conveyor belt device in sequence, the guide rail frame is provided with a safety net conveying device, the lower end of the guide rail frame is provided with an ultrasonic cleaning device and a drying device, the guide rail frame is fixedly provided with a safety net reversing and conveying device, and a rolling device is arranged below the outlet. The safety net cleaning device can meet the requirement of continuous cleaning operation, equipment can efficiently clean two sides of the safety net, workers only need to stack the safety net and place the safety net into the storage box, the safety net is automatically unfolded, large impurities are removed, the safety net is automatically conveyed to the cleaning equipment and dried and rolled up, manual interference is not needed in all working procedures, and the automation degree is high.

Description

Be used for abluent automatic water conservation environmental protection equipment of construction safety net

Technical Field

The invention relates to the technical field of constructional engineering, in particular to automatic water-saving and environment-friendly equipment for cleaning a construction safety net.

Background

In the building engineering, in order to ensure the safety of construction operation, various safety nets are used for preventing the injury caused by the falling of human bodies and objects, preventing the fire caused by electric welding sparks, reducing noise and dust pollution and achieving the effects of civilized construction, environmental protection and city beautification. Is one of the most important facilities on the building site. After the project is finished, the safety net can be stained with dust, oil stain, cement and partial paint, and the safety net needs to be detached, cleaned in time, aired and recycled.

The building safety net comprises: building safety net founds net and building safety net plain net.

According to the use function, the three types of safety plane nets are ① safety plane nets ② vertical nets ③ close mesh type safety nets.

At present, the following methods or devices are available for cleaning building safety nets:

1. the manual cleaning mode is scrubbing cleaning by water and a brush once. The labor intensity of workers is high, the cleaning speed is low, the efficiency is low, the water consumption is large, and the cleaning effect is not good.

2. Similar to the washing method of the drum washing machine, the cleaning method has the defects that only one safety net can be cleaned at a time, the cleaning efficiency is low, the water consumption is large, and the cleaning effect is poor.

3. After the safety net is tiled on the relevant cleaning frame through the cleaning equipment, a group of nozzles are used for spraying water for washing. The cleaning machine has the disadvantages that only one safety net can be cleaned at a time, the cleaning efficiency is low, the water consumption is large, and the cleaning effect is poor.

4. The machine design simulates a manual scrubbing mode and uses a sponge or a brush to clean repeatedly. The cleaning machine has the disadvantages of single-side cleaning, incapability of continuous operation, low cleaning efficiency, large water consumption and poor cleaning effect, and only one safety net can be cleaned each time.

5. Ultrasonic vibration washing mode is used in the design, and washing water filters back reutilization simultaneously, but the operation at every turn hangs the net trouble (the net both is hung the safety net on the machine, still need follow the machine and pick off after the nature is washed), and continuous operation is difficult, and is inefficient.

Above 5 kinds of schemes do not all carry out preliminary treatment to the bold residual filth on the safety net, for example cement residue and other building rubbish that drop, if do not fall in washing pretreatment, cause the damage of cleaning equipment and safety net easily in the cleaning process, and can't accomplish two-sided washing, continuity of operation. Therefore, an automatic water-saving and environment-friendly device for cleaning a safety net in building construction is provided for solving the problems.

Disclosure of Invention

The invention aims to provide automatic water-saving and environment-friendly equipment for cleaning a safety net in building construction, which aims to solve the problems in the background technology.

In order to achieve the purpose, the invention provides the following technical scheme: an automatic water-saving environment-friendly device for cleaning a building construction safety net comprises a frame, wherein the frame is divided into a base and a guide rail frame, the base and the guide rail frame are connected side by side, one end, far away from the guide rail frame, of the base is fixedly provided with a safety net binding storage device, the safety net binding storage device is divided into a storage box, a storage device frame, a rope cutting device, a limiting plate and a rope taking-out device, the storage device frame is fixedly arranged on the base, the storage box is fixedly arranged on the storage device frame, a plurality of groups of safety nets are sequentially stacked upwards in the storage box, the safety nets are wound up through the limiting plate and bundled, the rope cutting device is arranged on the storage device frame at the upper end of the storage box in a driving mode, and the rope taking-out device is arranged on the storage device frame at;

a safety net taking-out port is formed in one side, facing the guide rail frame, of the bottom end of the storage box, an unfolding device is fixedly arranged on the base outside the safety net taking-out port and is divided into a first conveying device, an unfolding pull rod and a limiting plate collecting box, the first conveying device comprises a first conveyor belt frame and a first conveyor belt, the first conveyor belt frame is fixedly arranged on the base and is provided with a first conveyor belt, the top surface of the first conveyor belt is located at the lower end of a safety net taking-out port in the storage box, the unfolding pull rod is fixedly arranged on the first conveyor belt frame, the limiting plate wound with the safety net is pulled out by the unfolding pull rod and is paved on the first conveyor belt, and the limiting plate collecting box is fixedly arranged at the lower end of an output port of the first conveyor belt;

a base at the output port of the first conveyor belt is provided with a pulling device, the pulling device is divided into a second rotating shaft, a lower guide rail, a second air claw, an air claw mounting frame, a third motor and a lower driving holding claw, the lower guide rail is fixedly arranged on the base, the upper guide rail is provided with a lower driving holding claw in a parallel driving mode, the upper ends of the two lower driving holding claws are fixedly provided with the air claw mounting frame, the air claw mounting frame is movably provided with the second rotating shaft, the second rotating shaft is fixedly provided with the second air claw in a parallel mode, one end of the second rotating shaft is fixedly connected with a driving end of the third motor, and the third motor is arranged on the air claw mounting frame;

a base positioned in the middle of the lower guide rail is provided with a crushing device, the crushing device is divided into a fourth cylinder, a crushing device plate, a compression roller device and a coarse slag collecting box, a crushing device mounting groove is concavely arranged on the base positioned in the middle of the lower guide rail, a plurality of fourth cylinders are vertically arranged at the bottom end in the crushing device mounting groove, the top end of each fourth cylinder is fixedly connected with the crushing device plate, one end, close to the unfolding device, of the crushing device plate is provided with a plurality of compression roller devices in parallel, the coarse slag collecting box is fixedly arranged on the crushing device plate at the lower end of the compression roller device, a crushing device mounting frame is arranged above the crushing device plate and is fixedly arranged on the base, and the same number of compression roller devices are symmetrically arranged on the crushing device mounting frame;

one end of the crushing device plate, which is far away from the unfolding device, is provided with a brush device, the brush device is divided into a brush device plate, a second telescopic rod, a fifth motor, brush bars, brush roll shafts and a fine slag collecting box, the brush device plate is fixedly arranged on the crushing device plate through the second telescopic rod, the side walls of the front end and the rear end of the brush device plate are movably provided with a plurality of brush roll shafts, the brush roll shafts are covered with brushes, one end of each brush roll shaft is fixedly connected with the driving end of the fifth motor, the fifth motor is fixedly arranged on the brush device plate, one side, which is far away from the compression roller device, of each brush roll shaft is provided with the brush bars, the two ends of each brush bar are fixedly arranged on the brush device plate, and the brush devices, which are positioned above the lower layer of brush devices, are symmetrically;

the device comprises a lower guide rail, a base, a lower guide rail, a conveyor belt device, a safety net conveying device, an upper guide rail and an ultrasonic cleaning device, wherein the conveyor belt device is arranged at one end of the lower guide rail, which is far away from an unfolding device, the conveyor belt device is arranged on the base, one end of the conveyor belt device is positioned above the lower guide rail, the safety net conveying device is arranged on a guide rail frame positioned at the output port of the conveyor belt device, the safety net conveying device comprises an upper guide rail and conveying roller devices, the upper guide rail is transversely and fixedly arranged at the bottom end of the guide rail frame, an even number of conveying roller devices are arranged on the upper guide rail in a driving mode, the safety net is fixedly unfolded on the plurality of conveying roller devices, the ultrasonic cleaning device is fixedly arranged at one end, which is close to the base, of the lower end of the guide rail frame, and is divided into an ultrasonic, the drying device is divided into a drying rack and a resistance wire, and the resistance wire is arranged at the inner end of the drying rack;

a safety net reversing and conveying device is fixedly arranged on a guide rail frame positioned at the output end of the drying device and is divided into a second conveyor belt frame, a third rotating shaft, a third air claw and a second conveyor belt, the second conveyor belt frame is arranged at one end of the guide rail frame, the second conveyor belt frame is provided with the second conveyor belt, one end, close to the drying device, of the second conveyor belt frame is movably provided with the third rotating shaft, the third rotating shaft is fixedly provided with the third air claw in parallel, one end of the third rotating shaft is fixedly connected with the driving end of a ninth motor, and the ninth motor is fixedly arranged on the second conveyor belt frame;

a rolling device is arranged below the outlet end of the safety net reversing and conveying device and is divided into a rolling underframe, a fixed support frame, a fixed support plate, a movable support frame, a movable support plate, a rolling rotating shaft, a pressure bar device, a roller device, an eighth cylinder, a lower transverse moving bottom plate, a ninth cylinder, an upper transverse moving bottom plate, a tenth cylinder and an eighth motor, wherein the rolling underframe is fixedly arranged at the lower end of the safety net reversing and conveying device, one end of the rolling underframe, close to the safety net reversing and conveying device, is fixedly connected with the lower transverse moving bottom plate through the eighth cylinder, the lower transverse moving bottom plate is movably arranged at the upper end of the rolling underframe through a key groove structure, one end of the lower transverse moving bottom plate, close to the safety net reversing and conveying device, is fixedly connected with the upper bottom plate through the ninth cylinder, the upper transverse moving bottom plate is movably arranged on the lower transverse moving bottom plate through the key groove structure, and the fixed support plate is fixedly arranged on, the movable roll-up rotating shaft that is equipped with on the fixed support dish, the drive end of the eighth motor of one end fixed connection of roll-up rotating shaft, eighth motor fixed mounting is on fixed support dish outside surface, the other end activity grafting of roll-up rotating shaft is located the movable support dish, movable support dish fixed mounting is in movable support frame upper end, movable support frame bottom is through keyway structure movable mounting in last sideslip bottom plate upper end, and the rear end terminal surface of movable support frame vertically connects the upper and lower sideslip bottom plate through the tenth cylinder, the activity is equipped with the depression bar device on fixed support dish and the movable support dish, the fixed running roller device that is equipped with of one end of keeping away from the safety net and replacing conveyer on the last sideslip bottom plate, the running roller device includes running roller frame and running roller, and is a.

As an improvement of the invention, the end face of one side of the storage box facing the guide rail frame and the bottom ends of the end faces of two sides are respectively provided with a safety net taking-out port, the storage box outside the safety net taking-out port is fixedly provided with a cover plate through a hinge, the storage box at the lower end of the safety net taking-out port is provided with rollers, and a plurality of safety nets are fixed in a cross mode through ropes and are stacked in the storage box.

As an improvement of the rope cutting device, the rope cutting device is divided into a first air cylinder, a cutting plate, cutting knives, upper support shafts and an upper rubber pad, the upper end of the first air cylinder is fixedly connected with a storage device frame, the lower end of the first air cylinder is fixedly connected with the cutting plate, the lower end of the cutting plate is symmetrically provided with four upper support shafts, the lower end of each upper support shaft is fixedly provided with the upper rubber pad, the cutting knives are fixedly arranged between every two adjacent upper support shafts, and the bottom surfaces of the cutting knives are positioned at the upper ends of the bottom surfaces of the upper rubber pads.

The rope taking-out device comprises a second cylinder, a taking-out plate, lower supporting shafts, a lower rubber pad, a mounting plate, a first rotating shaft, a fourth air claw, a first motor and a rope collecting box, wherein the taking-out plate is fixedly mounted on a base through the second cylinder, the upper end of the taking-out plate is symmetrically and fixedly provided with the four lower supporting shafts, the lower rubber pad is fixedly arranged at the top end of each lower supporting shaft, the mounting plate is fixedly arranged between every two opposite lower supporting shafts, the first rotating shaft is movably arranged on the mounting plate, the fourth air claw is fixedly arranged on the first rotating shaft, one end of the first rotating shaft is fixedly connected with the driving end of the first motor, the first motor is fixedly mounted on the mounting plate, a through hole penetrates through the base at the lower end of the taking-out plate, and the rope collecting box is fixedly arranged at the lower end of the.

As an improvement of the invention, the unfolding pull rod is divided into third air cylinders, connecting blocks, connecting rods, first air claws and a second motor, the third air cylinders are symmetrically arranged at the front end and the rear end of the first conveyor belt frame, the connecting blocks are arranged on the driving ends of the two third air cylinders, one ends of the connecting rods are fixedly connected to the connecting blocks, the first air claws are movably arranged at the other ends of the two connecting rods, one ends of the first air claws are fixedly connected to the driving ends of the second motor, and the second motor is arranged on the connecting rods.

As an improvement of the invention, the compression roller device is divided into a first telescopic rod, a roller frame, a fourth motor and a compression roller, the first telescopic rod is fixedly arranged on the crushing device plate, the upper end of the first telescopic rod is fixedly connected with the roller frame, the compression roller is movably arranged on the roller frame, one end of the compression roller is fixedly connected with the fourth motor, the fourth motor is fixedly arranged on the roller frame, and the number of the first telescopic rods at the lower end of the roller frame is not less than two.

The conveying roller device is divided into an upper driving holding claw, a third telescopic rod, a movable plate, a roller shaft mounting frame, a fourth telescopic rod, a clamping rod, a conveying roller and a sixth motor, wherein the upper driving holding claw is installed on an upper guide rail in a driving mode, the lower end of the upper driving holding claw is fixedly provided with the third telescopic rod, the lower end of the third telescopic rod is fixedly connected with the movable plate, the roller shaft mounting frame is fixedly arranged at the front end and the rear end of the movable plate, the conveying roller is movably arranged at the bottom end of the roller shaft mounting frame, one end of the conveying roller is fixedly connected with the driving end of the sixth motor, the sixth motor is installed on the roller shaft mounting frame, a movable rod groove is vertically formed in the roller shaft mounting frame, the clamping rod longitudinally penetrates through the movable rod groove, and the front end and the rear end of the clamping rod.

As an improvement of the invention, the safety net conveying device further comprises a fifth cylinder, a spring and a safety net push rod, the upper driving holding claws of two adjacent conveying roller devices are fixedly connected through the fifth cylinder, the inner ends of the movable plates of the two adjacent conveying roller devices are fixedly connected with the safety net push rod through the spring, the safety net push rod is divided into a push rod fixing plate, a sixth cylinder and a push rod, the push rod fixing plate is respectively connected with the movable plates of the conveying roller devices at two sides through the spring, the lower end of the push rod fixing plate is fixedly provided with the push rod through the sixth cylinder, and the push rod is movably positioned at the upper end of the safety net between the two conveying roller devices.

As an improvement of the invention, the fixed supporting disk is divided into a disk body, a track, external teeth, a first contact switch and a second contact switch, the cross section of the disk body is of a circular structure, the inner end surface of the disk body is provided with the track in an inwards concave annular manner, the external teeth are arranged on the outer curved surface of the disk body corresponding to the track, the angle corresponding to the track is 270 degrees, the two ends of the track are respectively provided with the first contact switch and the second contact switch, the external teeth are movably engaged with a pressure lever device, the pressure lever device is divided into a pressure lever, a fifth telescopic rod, a pressure lever frame, a gear fixing plate, a gear, a seventh motor, a limiting shaft and a limiting ball, the pressure lever is arranged in parallel with the rolling rotating shaft, the two ends of the pressure lever are fixedly connected with the pressure lever frame through the fifth telescopic rod, one end of the pressure lever frame close to the fixed supporting disk is fixedly, one end of the gear rotating shaft is fixedly connected with a driving end of a seventh motor, a gear is meshed with the outer teeth, a limiting ball is movably arranged at the lower end of the gear fixing plate and movably clamped in a track of the fixed supporting plate, a limiting track is also arranged on the inner end face of the movable supporting plate, a limiting shaft is movably clamped in the limiting track and fixedly installed at the other end of the pressure bar frame, and the first contact switch and the second contact switch are contact switches for stopping rotation and reversing of the seventh motor respectively.

As an improvement of the present invention, the fixed support plate further includes a fixed shaft hole, a top plate, an outer cover plate and a seventh cylinder, the top plate is movably embedded in the end face of the inner side of the fixed support plate, the other end of the top plate is fixedly connected to the outer cover plate through the seventh cylinder, the outer cover plate is fixedly mounted on the end face of the outer side of the fixed support plate, one end of the rolling-up rotating shaft movably penetrates through the fixed shaft hole in the top plate, and the rolling-up rotating shaft at the end is connected to an eighth motor.

Compared with the prior art, the invention has the beneficial effects that:

1. the safety net cleaning device can meet the requirement of continuous cleaning operation, the equipment can efficiently clean two sides of the safety net, only the safety net is put into the storage box after being sorted by workers, and the safety net is automatically unfolded, large impurities are removed, the safety net is automatically conveyed to the cleaning equipment, and the safety net is dried and rolled up. All the procedures do not need manual interference, and the automation degree is high;

2. the safety net cleaning equipment saves water comparatively, water is not needed in the impurity removing link, dirty water in the cleaning equipment is automatically filtered, and then the dirty water returns to the cleaning equipment;

3. the transportation device is adopted for hanging the nets in the cleaning process, so that the space is saved, the safety nets can be cleaned, a plurality of safety nets can be cleaned, and the efficiency is high;

4. the equipment can automatically cut off the safety net rope for bundling, and is convenient;

5. the equipment can remove massive cement blocks and the like on the safety net, the removal mode adopts two rollers which rotate oppositely to grind, the safety net cannot be damaged, impurities on two surfaces of the safety net can be removed, a hairbrush device is arranged after grinding to remove crushed slag on the safety net, preparation is made for cleaning, incomplete cleaning is prevented, the hairbrush is made of nylon, and the equipment is durable and long in service cycle;

6. the cleaning equipment adopts an ultrasonic principle, the cleaning is clean and thorough, the ultrasonic equipment is additionally provided with a sewage filter, and the filtered water returns to the cleaning equipment, so that the aim of recycling the water is fulfilled;

7. the equipment is additionally provided with automatic drying equipment, and the safety net is cleaned and dried by a drying device;

8. the dried safety net can be automatically rolled up by the equipment, a plurality of safety nets can be orderly rolled together, the space is saved, the safety net is automatically disassembled after being rolled, and workers only need to stack the rolled safety nets;

9. the equipment can be suitable for the safety nets of different sizes, also can be suitable for the cleaning work of the safety nets of different structures.

Drawings

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

FIG. 2 is a front view of the structure of the present invention;

FIG. 3 is a top view of the structure of the present invention;

FIG. 4 is a cross-sectional view taken at A-A of FIG. 3 in accordance with the present invention;

FIG. 5 is a schematic perspective view of a safety net binding and storing device according to the present invention;

FIG. 6 is a side view of the safety net binding storage device of the present invention;

FIG. 7 is a cross-sectional view taken at B-B of FIG. 6 in accordance with the present invention;

FIG. 8 is a top view of the safety net binding storage device of the present invention;

FIG. 9 is a cross-sectional view taken at C-C of FIG. 8 in accordance with the present invention;

FIG. 10 is a schematic view of the rope severing device of the present invention;

FIG. 11 is a schematic view of a cord retrieval apparatus according to the present invention;

FIG. 12 is a schematic view of the deployment device of the present invention;

FIG. 13 is a schematic view of the structure of the deployment rod of the present invention;

FIG. 14 is a schematic structural view of a first transfer device according to the present invention;

FIG. 15 is a schematic view of the distribution of the pulling devices of the present invention;

FIG. 16 is a schematic view of the pulling device of the present invention;

FIG. 17 is a schematic view showing the structure of a crushing apparatus according to the present invention;

FIG. 18 is a schematic view of a brush device according to the present invention;

FIG. 19 is a schematic view of the safety net transporting apparatus of the present invention;

FIG. 20 is a front view of the safety net haulage apparatus of the present invention;

FIG. 21 is a side view of the safety net haulage apparatus of the present invention;

FIG. 22 is a schematic view of an ultrasonic cleaning apparatus according to the present invention;

FIG. 23 is a schematic view of a drying apparatus according to the present invention;

FIG. 24 is a schematic view showing the construction of the safety net replacing conveyor according to the present invention;

FIG. 25 is a schematic view of the rolling device according to the present invention;

FIG. 26 is a side view of the rolling device of the present invention;

FIG. 27 is a cross-sectional view of the rolling device of the present invention;

FIG. 28 is a schematic view of the structure of the roller device of the present invention;

FIG. 29 is a perspective view of a compression bar apparatus according to the present invention;

FIG. 30 is a front view of the compression bar assembly of the present invention;

FIG. 31 is a perspective view of a fixing support plate according to the present invention;

fig. 32 is a cross-sectional view of a stationary support disk in accordance with the present invention.

In the figure: 1 rack, 101 base, 1011 grinding device mounting rack, 1012 grinding device mounting groove, 102 guide rail rack, 2 safety net binding storage device, 21 storage box, 2101 cover plate, 2102 roller, 22 storage device rack, 23 rope cutting device, 231 first air cylinder, 232 cutting plate, 233 cutting knife, 234 upper supporting shaft, 235 upper rubber pad, 24 limiting plate, 25 rope taking device, 251 second air cylinder, 252 taking plate, 253 lower supporting shaft, 254 lower rubber pad, 255 mounting plate, 256 first rotating shaft, 257 fourth air claw, 258 first motor, 259 rope collecting box, 3 unfolding device, 31 first conveying device, 311 first conveying belt rack, 312 first conveying belt, 32 unfolding pull rod, 321 third air cylinder, 322 connecting block, 323 connecting rod, 324 first air claw, 325 second motor, 33 limiting plate, 4 pulling device, 41 second rotating shaft, 42 lower guide rail, 43 second air claw, 44 air claw mounting rack, 45 third motor, 46 lower driving holding claw, 5 grinding device, 51 fourth air cylinder, 52 grinding device plate, 53 press roller device, 531 first telescopic rod, 532 roller frame, 533 fourth motor, 534 press roller, 54 coarse slag collecting box, 6 hairbrush device, 61 hairbrush device plate, 62 second telescopic rod, 63 fifth motor, 64 hairbrush sliver, 65 hairbrush roller shaft, 66 fine slag collecting box, 7 conveyer belt device, 8 safety net conveying device, 81 upper guide rail, 82 conveying roller device, 821 upper driving holding claw, 822 third telescopic rod, 823 movable plate, 824 roller shaft mounting rack, 825 fourth telescopic rod, 826 clamping rod, 827 conveying roller, 828 sixth motor, 83 fifth air cylinder, 84 spring, 85 safety net push rod, 851 fixed plate, 852 sixth air cylinder, 853 push rod, 9 ultrasonic cleaning device, 91 ultrasonic cleaning pool, 92 water filtering pipe, 93 water pump, 94 filter, 10 drying device, 1001 drying rack, 1002 resistance wire, 11 safety net reversing conveyor, 111 second conveyor rack, 112 third rotating shaft, 113 third air claw, 114 second conveyor, 115 ninth motor, 12 rolling device, 121 rolling chassis, 122 fixed support rack, 123 fixed support disk, 1231 disk body, 1232 track, 1233 external tooth, 1234 first contact switch, 1235 second contact switch, 1236 fixed shaft hole, 1237 top disk, 1238 outer cover disk, 1239 seventh cylinder, 124 movable supporting frame, 125 movable supporting disk, 126 rolling shaft, 127 pressure lever device, 1271 pressure lever, 1272 fifth telescopic rod, 1273 pressure lever frame, 1274 gear fixing plate, 1275 gear, 1276 seventh motor, 1277 spacing shaft, 1278 spacing ball, 128 roller device, 1281 roller frame, 1282 roller, 129 eighth cylinder, 1210 lower traverse bottom plate, 1211 ninth cylinder, 1212 upper traverse bottom plate, 1213 tenth cylinder, 1214 eighth motor.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

Referring to fig. 1-32, the present invention provides a technical solution: the utility model provides a be used for abluent automatic water conservation environmental protection equipment of construction safety net, which comprises a frame 1, frame 1 divide into base 101 and guide rail frame 102, base 101 and guide rail frame 102 are connected side by side, the fixed safety net that is equipped with of the one end of keeping away from guide rail frame 102 on base 101 bindes strorage device 2, strorage device 2 is binded to the safety net and is divided into storage box 21, strorage device frame 22, rope cut-off device 23, limiting plate 24 and rope remove device 25, strorage device frame 22 fixed mounting is on base 101, the fixed case 21 that is equipped with on this strorage device frame 22, upwards has piled up the multiunit safety net in proper order in this storage box 21, this safety net rolls up and ties through limiting plate 24, and install rope cut-off device 23 on the strorage device frame 22 of storage box 21 upper end drive, be equipped with rope remove device 25 on the strorage device frame 22 of.

As shown in fig. 5 and 7, the storage box 21 is provided with a safety net take-out port at one end face and at the bottom end of both end faces of the storage box 21 facing the rail frame 102, a cover 2101 is fixed to the storage box 21 outside the safety net take-out port by a hinge, a roller 2102 is provided on the storage box 21 at the lower end of the safety net take-out port, and a plurality of safety nets are fixed crosswise by a rope and stacked in the storage box 21.

As shown in fig. 5, 9 and 10, the rope cutting device 23 is divided into a first cylinder 231, a cutting plate 232, a cutting knife 233, upper support shafts 234 and upper rubber pads 235, the upper end of the first cylinder 231 is fixedly connected with the storage device frame 22, the lower end of the first cylinder 231 is fixedly connected with the cutting plate 232, the lower end of the cutting plate 232 is symmetrically provided with four upper support shafts 234, the lower end of each upper support shaft 234 is fixedly provided with an upper rubber pad 235, the cutting knife 233 is fixedly arranged between two adjacent upper support shafts 234, the bottom surface of the cutting knife 233 is positioned at the upper end of the bottom surface of the upper rubber pad 235, the four upper rubber pads 235 are positioned at the upper ends of the gaps between the ropes, and the first cylinder 231 extends out to enable the upper rubber pads 235 to abut against the safety net and continue to extend out to enable the gaps between the safety net and the ropes to be larger and larger until the cutting knife 233.

As shown in fig. 5, 6, 7, 9 and 11, the rope withdrawing device 25 includes a second cylinder 251, a withdrawing plate 252, a lower support shaft 253, a lower rubber pad 254, a mounting plate 255, a first rotating shaft 256, a first motor 258 and a rope collecting box 259, the withdrawing plate 252 is fixedly mounted on the base 101 through the second cylinder 251, four lower support shafts 253 are symmetrically and fixedly arranged at the upper end of the withdrawing plate 252, the lower rubber pad 254 is fixedly arranged at the top end of the lower support shaft 253, the mounting plate 255 is fixedly arranged between every two opposite lower support shafts 253, the first rotating shaft 256 is movably arranged on the mounting plate 255, a fourth air claw 257 is fixedly arranged on the first rotating shaft 256, one end of the first rotating shaft 256 is fixedly connected with the driving end of the first motor 258, the first motor 258 is fixedly mounted on the mounting plate 255, a through hole is formed in the base 101 at the lower end of the withdrawing plate 252, the rope collecting box 259 is fixedly arranged at the lower end of, after the rope cutting device 23 cuts the rope, the second cylinder 251 is extended to make the lower rubber pad 254 contact the lower end of the safety net, and continues to extend until the fourth air claw 257 catches the rope, then the first motor 258 is started to roll up the rope, so that the rope is taken out of the safety net, then the first motor 258 is reversed, the rope falls into the rope collection box 259, wherein the fourth air claw 257 can be directly installed on the first rotating shaft 256 through a screw, and a groove can be parallelly milled on the first rotating shaft 256, and the fourth air claw 257 is correspondingly installed in the groove and fixed through the screw.

As shown in fig. 1, 2, 3, 4, 12 and 14, a safety net take-out port is provided at a bottom end of the storage box 21 toward a side of the rail frame 102, the base 101 outside the safety net outlet is fixedly provided with the unfolding device 3, the unfolding device 3 is divided into a first conveying device 31, an unfolding pull rod 32 and a limiting plate collecting box 33, the first conveying device 31 comprises a first conveyor belt rack 311 and a first conveyor belt 312, the first conveyor belt rack 311 is fixedly arranged on the base 101, and the first conveyor belt rack 311 is provided with a first conveyor belt 312, the top surface of the first conveyor belt 312 is positioned at the lower end of the safety net taking-out port on the storage box 21, the first conveyor belt rack 311 is fixedly provided with an unfolding pull rod 32, the limiting plate 24 wound with the safety net is pulled out by the unfolding pull rod 32, and spread the safety net to first conveyer belt 312 on, the lower extreme of first conveyer belt 312 delivery outlet is fixed and is equipped with limiting plate collecting box 33.

As shown in fig. 13 and 14, the unfolding rod 32 is divided into a third cylinder 321, a connecting block 322, a connecting rod 323, a first air claw 324 and a second motor 325, the two third cylinders 321 are symmetrically installed at the front and rear ends of the first conveyor 311, the driving ends of the two third cylinders 321 are provided with the connecting block 322, one end of the connecting block 322 is fixedly connected with one end of the connecting rod 323, the other end of the two connecting rods 323 is movably provided with the first air claw 324, one end of the first air claw 324 is fixedly connected with the driving end of the second motor 325, the second motor 325 is installed on the connecting rod 323, the first air claw 324 grasps both sides of the limiting plate 24 in the middle of the safety net, then the third cylinder 321 is retracted to pull out the lowest folded safety net, then the second motor 325 is started to drive the limiting plate 24 to rotate the two first air claws 324, the safety net is unfolded on the first conveyor 312, the safety net is conveyed to the pulling device 4 through the first conveyor 312, after the safety net is deployed, the first air gripper 324 releases the retainer plate 24, transports the retainer plate 24 to the other end via the first conveyor belt 312, and drops into the retainer plate collection tank 33.

As shown in fig. 15 and 16, the base 101 at the output port of the first conveyor 312 is provided with the pulling device 4, the pulling device 4 is divided into a second rotating shaft 41, a lower guide rail 42, a second pneumatic claw 43, a pneumatic claw mounting rack 44, a third motor 45 and a lower driving holding claw 46, the lower guide rail 42 is fixedly installed on the base 101, the upper guide rail 42 is provided with the lower driving holding claw 46 in a parallel driving manner, the upper ends of the two lower driving holding claws 46 are fixedly provided with the pneumatic claw mounting rack 44, the pneumatic claw mounting rack 44 is movably provided with the second rotating shaft 41, the second rotating shaft 41 is fixedly provided with the second pneumatic claw 43 in a parallel manner, one end of the second rotating shaft 41 is fixedly connected with the driving end of the third motor 45, the third motor 45 is installed on the pneumatic claw mounting rack 44, when the safety net unfolded by the unfolding device 3 is transmitted to the other end of the first conveyor 312, the second pneumatic claw 43 clamps one end of the safety net, and then the lower driving holding claw 46 moves on, the safety net is driven to be cleaned by the grinding device and the brush device, the driving structure of the lower driving holding claw 46 and the lower guide rail 42 is commonly used in the prior art, the lower driving holding claw 46 is slidably clamped on the lower guide rail 42, and the lower driving holding claw 46 is provided with a driving wheel, so that the detailed description is omitted, and the driving structure of the upper driving holding claw 821 and the upper guide rail 81 is the same as that below.

As shown in fig. 1, 15 and 17, a base 101 located at the middle position of the lower guide rail 42 is provided with a crushing device 5, the crushing device 5 is divided into a fourth cylinder 51, a crushing device plate 52, a compression roller device 53 and a coarse slag collecting box 54, the base 101 located at the middle position of the lower guide rail 42 is provided with a crushing device mounting groove 1012 inwards recessed therein, a plurality of fourth cylinders 51 are vertically arranged at the inner bottom end of the crushing device mounting groove 1012, the top end of the fourth cylinders 51 is fixedly connected with the crushing device plate 52, one end of the crushing device plate 52 close to the unfolding device 3 is provided with a plurality of compression roller devices 53 in parallel, the crushing device plate 52 at the lower end of the compression roller devices 53 is fixedly provided with the coarse slag collecting box 54, a crushing device mounting rack 1011 is arranged above the crushing device plate 52, the crushing device mounting rack 1011 is fixedly mounted on the base 101, and the.

As shown in fig. 17, the roller assembly 53 is divided into a first telescopic rod 531, a roller frame 532, a fourth motor 533 and a roller 534, the first telescopic rod 531 is fixedly installed on the crushing device plate 52, the upper end of the first telescopic rod 531 is fixedly connected to the roller frame 532, the roller frame 532 is movably provided with the roller 534, one end of the roller 534 is fixedly connected to the fourth motor 533, the fourth motor 533 is fixedly installed on the roller frame 532, the number of the first telescopic rods 531 at the lower end of the roller frame 532 is not less than two, the pulling device 4 clamps the unfolded safety net to drive the safety net to move on the lower guide rail 42, the crushing device plate 52 and the roller 534 on the crushing device mounting frame 1011 extend out simultaneously under the action of the first telescopic rod 531, and the fourth motor 533 drives the two roller 534 to rotate relatively at the same speed, so as to crush the solid residue on the safety net.

As shown in fig. 15, 17 and 18, one end of the crushing device plate 52 far away from the unfolding device 3 is provided with a brush device 6, the brush device 6 is divided into a brush device plate 61, a second telescopic rod 62, a fifth motor 63, brush bars 64, brush roll shafts 65 and a fine residue collecting box 66, the brush device plate 61 is fixedly arranged on the crushing device plate 52 through the second telescopic rod 62, the side walls of the front and rear ends of the brush device plate 61 are movably provided with a plurality of brush roll shafts 65, the brush roll shafts 65 are covered with brushes, one end of each brush roll shaft 65 is fixedly connected with the driving end of the fifth motor 63, the fifth motor 63 is fixedly arranged on the brush device plate 61, one side of each brush roll shaft 65 far away from the compression roller device 53 is provided with the brush bars 64, two ends of each brush bar 64 are fixedly arranged on the brush device plate 61, the brush device mounting brackets 1011 above the lower layer brush device 6 are symmetrically provided with the brush devices 6 with the same, the upper and lower brush roller shafts 65 are in contact with the safety net through the second telescopic rods 62 and keep rotating relatively at the same speed, residual broken slag is brushed away, and the brush comb strips 64 are installed at one ends of the brush roller shafts 65, so that the residual on the brush roller shafts 65 can be cleaned up.

As shown in fig. 1, 2, 3, 4, 22 and 23, a conveyor belt device 7 is disposed on one end of the lower rail 42 away from the unfolding device 3, the conveyor belt device 7 is mounted on a base 101, one end of the conveyor belt device 7 is disposed on the lower rail 42, a safety net transporting device 8 is disposed on a rail frame 102 at the output port of the conveyor belt device 7, the safety net transporting device 8 includes an upper rail 81 and transporting roller devices 82, the upper rail 81 is transversely and fixedly mounted at the bottom end of the rail frame 102, an even number of transporting roller devices 82 are drivingly mounted on the upper rail 81, the safety net is fixedly unfolded on the transporting roller devices 82, an ultrasonic cleaning device 9 is fixedly disposed at one end of the lower end of the rail frame 102 close to the base 101, the ultrasonic cleaning device 9 is divided into an ultrasonic cleaning tank 91, a filtering water pipe 92, a water pump 93 and a filter 94, the water outlet of the ultrasonic cleaning tank 91 is communicated with the water inlet through the, the intercommunication is equipped with water pump 93 and filter 94 on the water filter pipe 92, the fixed drying device 10 that is equipped with of one end that base 101 was kept away from to guide rail frame 102 lower extreme, drying device 10 divide into stoving frame 1001 and resistance wire 1002, the inner of stoving frame 1001 is equipped with resistance wire 1002, when pulling device 4 reaches the lower rail 42 other end, drive second pivot 41 through third motor 45 and rotate, the safety net after will clearing up rolls up, third motor 45 reverses again after rolling up completely, expand the safety net on conveyer belt device 7, then carry out whole expansion through safety net conveyer 8.

As shown in fig. 19, 20 and 21, the transportation roller device 82 is divided into an upper driving holding claw 821, a third telescopic rod 822, a movable plate 823, a roller shaft mounting bracket 824, a fourth telescopic rod 825, a clamping rod 826, a transportation roller 827 and a sixth motor 828, the upper driving holding claw 821 is installed on the upper guide rail 81 in a driving way, a third telescopic rod 822 is fixedly arranged at the lower end of the upper driving holding claw 821, a movable plate 823 is fixedly connected at the lower end of the third telescopic rod 822, a roller shaft mounting rack 824 is fixedly arranged at the front end and the rear end of the movable plate 823, a transportation roller 827 is movably arranged at the bottom end of the roller shaft mounting rack 824, one end of the transportation roller 827 is fixedly connected with the driving end of a sixth motor 828, the sixth motor 828 is arranged on the roller shaft mounting rack 824, a movable rod groove is vertically arranged on the roller shaft mounting rack 824, a clamping rod 826 longitudinally penetrates through the movable rod groove, and the front end and the rear end of the clamping rod 826 are fixedly connected with a movable plate 823 through a fourth telescopic rod 825.

The safety net transporting device 8 further comprises a fifth cylinder 83, a spring 84 and a safety net pushing rod 85, the upper driving holding claws 821 of two adjacent transporting roller devices 82 are fixedly connected through the fifth cylinder 83, the inner ends of the movable plates 823 of two adjacent transporting roller devices 82 are fixedly connected with the safety net pushing rod 85 through the spring 84, the safety net pushing rod 85 is divided into a pushing rod fixing plate 851, a sixth cylinder 852 and a pushing rod 853, the pushing rod fixing plate 851 is respectively connected with the movable plates 823 of the transporting roller devices 82 on two sides through the spring 84, the lower end of the pushing rod fixing plate 851 is fixedly provided with the pushing rod 853 through the sixth cylinder 852, the pushing rod 853 is movably positioned at the upper end of the safety net between the two transporting roller devices 82, the two transporting rollers 827 of the safety net transporting device 8 are aligned with the end of the transporting belt device 7, so that the mounting net on the transporting belt device 7 is transported to the two transporting rollers 827, the clamping rod 826 on the transporting roller 827, go up the drive and embrace claw 821 slow slip, the slow shrink of third telescopic link 822, then the fifth cylinder 83 of the distance between two control transportation rollers 827 stretches out, the sixth cylinder 852 of control safety net push rod 85 stretches out, safety net push rod 85 is ejecting with the safety net, push up the certain distance, sixth cylinder 852 stops, safety net conveyer 8 transports the safety net to ultrasonic cleaning device 9 and washs, then dry, safety net conveyer 8 designs into this structural objective, some safety net length ratio is longer, safety net conveyer 8 can prop the safety net open, the space is saved, and guarantee the sanitization.

As shown in fig. 1 and 22, a safety net reversing conveyor 11 is fixedly installed on a rail frame 102 at an output end of the drying apparatus 10, the safety net reversing conveyor 11 is divided into a second conveyor frame 111, a third rotating shaft 112, a third air claw 113 and a second conveyor 114, the second conveyor frame 111 is installed at one end of the rail frame 102, the second conveyor frame 111 is provided with the second conveyor 114, a third rotating shaft 112 is movably arranged at one end of the second conveyor belt frame 111 close to the drying device 10, a third air claw 113 is fixed on the third rotating shaft 112 in parallel, and one end of the third rotary shaft 112 is fixedly connected to a driving end of a ninth motor 115, the ninth motor 115 is fixedly installed on the second conveyor belt frame 111, the third pneumatic claw 113 grasps the safety net which is put down from the safety net transporting device 8, and winds up it, the third air gripper 113 is then reversed by the ninth motor 115 to deploy the security mesh onto the second conveyor 114.

As shown in fig. 1, 25, 26, 27 and 28, a rolling device 12 is disposed below an outlet end of the safety net reversing conveyor 11, the rolling device 12 is divided into a rolling chassis 121, a fixed support frame 122, a fixed support plate 123, a movable support frame 124, a movable support plate 125, a rolling shaft 126, a plunger device 127, a roller device 128, an eighth cylinder 129, a lower traverse chassis 1210, a ninth cylinder 1211, an upper traverse chassis 1212, a tenth cylinder 1213 and an eighth motor 1214, the rolling chassis 121 is fixedly disposed at a lower end of the safety net reversing conveyor 11, an end of the rolling chassis 121 adjacent to the safety net reversing conveyor 11 is fixedly connected to the lower traverse chassis 1210 by the eighth cylinder 129, the lower traverse chassis 1210 is movably mounted at an upper end of the rolling chassis 121 by a key groove structure, an end of the lower traverse chassis 1210 adjacent to the safety net reversing conveyor 11 is fixedly connected to the upper traverse chassis 1212 by the ninth cylinder 1211, the upper traverse bottom plate 1212 is movably mounted on the lower traverse bottom plate 1210 through a key slot structure, a fixed support plate 123 is fixedly arranged on the top surface of the rear end of the lower traverse bottom plate 1210 through a fixed support frame 122, a rolling rotating shaft 126 is movably arranged on the fixed support plate 123, one end of the rolling rotating shaft 126 is fixedly connected with the driving end of an eighth motor 1214, the eighth motor 1214 is fixedly mounted on the outer side surface of the fixed support plate 123, the other end of the rolling rotating shaft 126 is movably inserted and positioned on a movable support plate 125, the movable support plate 125 is fixedly mounted on the upper end of the movable support frame 124, the bottom end of the movable support frame 124 is movably mounted on the upper traverse bottom plate 1212 through the key slot structure, the rear end surface of the movable support frame 124 is longitudinally connected with the upper traverse bottom plate 1212 through a tenth cylinder 1213, a pressure lever device 127 is movably arranged on the fixed support plate 123 and the movable support plate 125, a, the roller device 128 includes a roller frame 1281 and rollers 1282, the plurality of rollers 1282 are installed in parallel on the roller frame 1281,

as shown in fig. 25, 26, 27 and 31, the fixed support disc 123 is divided into a disc 1231, a rail 1232, an external gear 1233, a first contact switch 1234 and a second contact switch 1235, the cross section of the disc 1231 is a circular structure, the inner end surface of the disc 1231 is provided with the rail 1232 in a concave circular shape, the outer curved surface of the disc 1231 corresponding to the rail 1232 is provided with the external gear 1233, the rail 1232 corresponds to an angle of 270 degrees, two ends of the rail 1232 are respectively provided with the first contact switch 1234 and the second contact switch 1235, the external gear 1233 is movably engaged with a pressure lever device 127, the pressure lever device 127 is divided into a pressure lever 1271, a fifth telescopic rod 1272, a pressure lever 1273, a gear fixing plate 1274, a gear 1275, a seventh motor 1276, a limit shaft 1277 and a limit ball 1278, the pressure lever 1271 is arranged parallel to the rolling shaft 126, two ends of the pressure lever 1271 are fixedly connected to the pressure lever 1273 through the fifth telescopic rod 1272, one end of the pressure lever 1273 close to the fixed, a gear 1275 is movably arranged on the gear fixing plate 1274, one end of the rotating shaft of the gear 1275 is fixedly connected with the driving end of a seventh motor 1276, the gear 1275 is engaged with the external teeth 1233, a limit ball 1278 is movably arranged at the lower end of the gear fixing plate 1274, the limit ball 1278 is movably clamped in the track 1232 of the fixed supporting plate 123, a limit track is also arranged on the inner end surface of the movable supporting plate 125, a limit shaft 1277 is movably clamped in the limit track, the limit shaft 1277 is fixedly arranged at the other end of the pressure rod rack 1273, the first contact switch 1234 and the second contact switch 1235 are respectively contact switches for stopping rotation and reversing rotation of the seventh motor 1276, the safety net on the second conveyor belt 114 falls onto the rolling-up rotating shaft 126, the forward rotation safety net is pressed by a pressure rod 1271 and is rolled up together with the rolling-up rotating shaft 126, when the pressure rod 1271 rotates by 270 degrees, the pressure rod device 127 touches the second contact switch 1235, the seventh motor 1276 reversely, and stops touching the, at this time, one end of the safety net is fixedly wound around the winding shaft 126.

As shown in fig. 27, 31 and 32, the fixed support plate 123 further includes a fixed shaft hole 1236, a top plate 1237, an outer cover plate 1238 and a seventh cylinder 1239, the top plate 1237 is movably embedded on the inner end surface of the fixed support plate 123, the other end of the top plate 1237 is fixedly connected to the outer cover plate 1238 through the seventh cylinder 1239, the outer cover plate 1238 is fixedly installed on the outer end surface of the fixed support plate 123, one end of the rolling shaft 126 movably penetrates through the fixed shaft hole 1236 of the top plate 1237, and the rolling shaft 126 is connected to the end with an eighth motor 1214, when the safety net is rolled to a certain amount to be removed, the top plate 1237 is pushed out by the seventh cylinder 1239 for a certain distance, then the tenth cylinder 1213 pushes the movable support plate 125 to be separated from the rolling shaft 126, at this time the top plate 1237 is in sliding contact with the middle section of the rotating shaft 126, plays a supporting role on the rotating shaft 126, and controls the ninth cylinder 1211 to be recovered, so that the roller device 128 faces one end of, the net is pushed off the take-up spindle 126 and drops onto a roller mechanism 128 for baling.

The working principle is as follows: the safety nets to be cleaned are rolled up and bundled through the limiting plates 24, and the plurality of safety nets are fixed in a crossed mode through ropes and stacked in the storage box 21; then, the four upper rubber pads 235 of the rope cutting device 23 are positioned at the upper ends of the gaps between the ropes, the first air cylinder 231 extends out to enable the upper rubber pads 235 to abut against the safety net, and the upper rubber pads continue to extend out to enable the gaps between the safety net and the ropes to be larger and larger until the rope is cut by the cutting knife 233; after the rope is cut by the rope cutting device 23, the second cylinder 251 is extended to make the lower rubber pad 254 contact the lower end of the safety net, the extension is continued until the fourth air claw 257 catches the rope, then the first motor 258 is started to wind up the rope, thereby taking the rope out of the safety net, then the first motor 258 is reversed, and the rope falls into the rope collection box 259; the first pneumatic claws 324 of the unfolding device 3 grasp two sides of the limit plate 24 in the middle of the safety net, then the third air cylinders 321 are retracted, the safety net which is folded at the lowest layer is pulled out, then the second motor 325 is started, the two first pneumatic claws 324 drive the limit plates 24 to rotate, the safety net is unfolded onto the first conveyor belt 312, after the safety net is unfolded, the first pneumatic claws 324 release the limit plates 24, the limit plates 24 are conveyed to the other end through the first conveyor belt 312, and the limit plates fall into the limit plate collection box 33; when the safety net unfolded by the unfolding device 3 is transmitted to the other end of the first conveyor belt 312, one end of the safety net is clamped by the second air claw 43, and then the lower driving holding claw 46 is used for moving on the lower guide rail 42 to drive the safety net to be cleaned by the grinding device and the brush device; the crushing device plate 52 and the pressing roller 534 on the crushing device mounting rack 1011 extend out simultaneously under the action of the first telescopic rod 531, and the fourth motor 533 drives the two pressing rollers 534 to rotate relatively at the same speed, so that the solid residues on the safety net are crushed; the upper brush roller shaft 65 and the lower brush roller shaft 65 are in contact with the safety net through the second telescopic rod 62 and keep rotating at the same speed relatively, residual broken slag is brushed off, and a brush comb strip 64 is arranged at one end of the brush roller shaft 65, so that the residual slag on the brush roller shaft 65 can be cleaned; the second rotating shaft 41 is driven to rotate by the third motor 45, the cleaned safety net is rolled up, the third motor 45 is rotated reversely after the safety net is completely rolled up, the safety net is unfolded on the conveyor belt device 7, and then the safety net is integrally unfolded by the safety net conveying device 8; two transport rollers 827 of the safety net transport device 8 are aligned with the end of the conveyor belt device 7, so that the mounting net on the conveyor belt device 7 is transported to the two transport rollers 827, clamping rods 826 on the transport rollers 827 far away from the conveyor belt device 7 press the end of the safety net, an upper driving holding claw 821 slowly slides, a third telescopic rod 822 slowly contracts, then a fifth cylinder 83 for controlling the distance between the two transport rollers 827 extends out, a sixth cylinder 852 for controlling a safety net push rod 85 extends out, the safety net push rod 85 pushes out the safety net to jack a certain distance, the sixth cylinder 852 stops, the safety net transport device 8 transports the safety net to the ultrasonic cleaning device 9 for cleaning, and then drying is carried out; the third air gripper 113 grasps the safety net which is put down from the safety net transporting means 8 and winds it up, and then the third air gripper 113 is reversed by the ninth motor 115 to unwind the safety net onto the second conveyor 114; the safety net on the second conveyor belt 114 falls onto the rolling rotating shaft 126, the safety net is pressed by the pressure rod 1271 and rotates forward along with the rolling rotating shaft 126, when the pressure rod 1271 rotates 270 degrees, the pressure rod device 127 touches the second contact switch 1235, the seventh motor 1276 rotates reversely, and stops when touching the first contact switch 1234, and at this time, one end of the safety net is fixedly wound on the rolling rotating shaft 126; when the safety net is rolled to a certain amount and needs to be detached, the seventh cylinder 1239 drives the top plate 1237 to push out for a certain distance, then the tenth cylinder 1213 pushes the movable supporting plate 125 to separate from the rolling rotating shaft 126, at this time, the top plate 1237 is in sliding contact with the middle section of the rotating shaft 126 to support the rotating shaft 126, and then the ninth cylinder 1211 is controlled to recover, so that the roller device 128 faces one end of the rolling rotating shaft 126, the safety net is pushed out of the rolling rotating shaft 126 and falls onto the roller device 128, and packaging is performed.

Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.

Claims (10)

1. The utility model provides a be used for abluent automatic water conservation environmental protection equipment of construction safety net, bindes strorage device (2), brush device (6), conveyer belt device (7) and drying device (10) including frame (1), safety net, frame (1) is divided into base (101) and guide rail frame (102), base (101) and guide rail frame (102) are connected side by side, its characterized in that: a safety net binding storage device (2) is fixedly arranged at one end, far away from the guide rail frame (102), of the base (101), the safety net binding storage device (2) is divided into a storage box (21), a storage device frame (22), a rope cutting device (23), a limiting plate (24) and a rope taking-out device (25), the storage device frame (22) is fixedly arranged on the base (101), the storage box (21) is fixedly arranged on the storage device frame (22), multiple groups of safety nets are sequentially stacked upwards in the storage box (21), the safety nets are wound up and bundled through the limiting plate (24), the rope cutting device (23) is arranged on the storage device frame (22) at the upper end of the storage box (21) in a driving mode, and the rope taking-out device (25) is arranged on the storage device frame (22) at the lower end of the storage box (21);

one side of the bottom end of the storage box (21) facing the guide rail frame (102) is provided with a safety net taking-out port, a base (101) outside the safety net taking-out port is fixedly provided with an unfolding device (3), the unfolding device (3) is divided into a first conveyor (31), an unfolding pull rod (32) and a limiting plate collecting box (33), the first conveyor (31) comprises a first conveyor frame (311) and a first conveyor belt (312), the first conveyor frame (311) is fixedly installed on the base (101), the first conveyor frame (311) is provided with the first conveyor belt (312), the top surface of the first conveyor belt (312) is located at the lower end of the safety net taking-out port on the storage box (21), the unfolding pull rod (32) is fixedly installed on the first conveyor frame (311), and the limiting plate (24) coiled with a safety net is pulled out by the unfolding pull rod (32), the safety net is spread on a first conveyor belt (312), and a limiting plate collecting box (33) is fixedly arranged at the lower end of an output port of the first conveyor belt (312);

a pulling device (4) is arranged on the base (101) positioned at the output port of the first conveyor belt (312), the pulling device (4) is divided into a second rotating shaft (41), a lower guide rail (42), a second air claw (43), an air claw mounting rack (44), a third motor (45) and a lower driving holding claw (46), the lower guide rail (42) is fixedly arranged on the base (101), lower driving holding claws (46) are arranged on the upper guide rail (42) in a parallel driving way, the upper ends of the two lower driving holding claws (46) are fixedly provided with air claw mounting frames (44), a second rotating shaft (41) is movably arranged on the pneumatic claw mounting rack (44), a second pneumatic claw (43) is fixedly arranged on the second rotating shaft (41) in parallel, one end of the second rotating shaft (41) is fixedly connected with the driving end of a third motor (45), and the third motor (45) is installed on the air claw installation frame (44);

a crushing device (5) is arranged on a base (101) positioned in the middle of the lower guide rail (42), the crushing device (5) is divided into a fourth cylinder (51), a crushing device plate (52), a compression roller device (53) and a coarse slag collecting box (54), a crushing device mounting groove (1012) is concavely arranged on the base (101) positioned in the middle of the lower guide rail (42), a plurality of fourth cylinders (51) are vertically arranged at the inner bottom end of the crushing device mounting groove (1012), the top end of each fourth cylinder (51) is fixedly connected with the crushing device plate (52), a plurality of compression roller devices (53) are arranged on one end of each crushing device plate (52) close to the unfolding device (3) in parallel, the coarse slag collecting box (54) is fixedly arranged on the crushing device plate (52) at the lower end of each compression roller device (53), and a crushing device mounting rack (1011) is arranged above the crushing device plate (52), the grinding device mounting rack (1011) is fixedly arranged on the base (101), and the same number of the compression roller devices (53) are symmetrically arranged on the grinding device mounting rack (1011);

one end of the crushing device plate (52) far away from the unfolding device (3) is provided with a brush device (6), the brush device (6) is divided into a brush device plate (61), a second telescopic rod (62), a fifth motor (63), brush comb strips (64), brush roll shafts (65) and a fine residue collecting box (66), the brush device plate (61) is fixedly arranged on the crushing device plate (52) through the second telescopic rod (62), the side walls of the front end and the rear end of the brush device plate (61) are movably provided with a plurality of brush roll shafts (65), the brush roll shafts (65) are covered with brushes, one end of each brush roll shaft (65) is fixedly connected with the driving end of the fifth motor (63), the fifth motor (63) is fixedly arranged on the brush device plate (61), one side of each brush roll shaft (65) far away from the compression roller device (53) is provided with the brush strips (64), two ends of the brush comb strip (64) are fixedly arranged on the brush device plate (61), and brush devices (6) with the same structure are symmetrically arranged on the crushing device mounting rack (1011) above the lower layer brush device (6);

a conveyor belt device (7) is arranged at one end, far away from the unfolding device (3), of the lower guide rail (42), the conveyor belt device (7) is installed on a base (101), one end of the conveyor belt device (7) is located above the lower guide rail (42), a safety net transporting device (8) is arranged on a guide rail frame (102) located at the outlet of the conveyor belt device (7), the safety net transporting device (8) comprises an upper guide rail (81) and transporting roller devices (82), the upper guide rail (81) is transversely and fixedly installed at the bottom end of the guide rail frame (102), an even number of transporting roller devices (82) are installed on the upper guide rail (81) in a driving mode, the safety net is fixedly unfolded on the transporting roller devices (82), an ultrasonic cleaning device (9) is fixedly arranged at one end, close to the base (101), of the lower end of the guide rail frame (102), and the ultrasonic cleaning device (9) is divided into an ultrasonic cleaning pool (91), The ultrasonic cleaning device comprises a water filtering pipe (92), a water pump (93) and a filter (94), wherein a water outlet and a water inlet of the ultrasonic cleaning pool (91) are communicated through the water filtering pipe (92), the water pump (93) and the filter (94) are communicated on the water filtering pipe (92), a drying device (10) is fixedly arranged at one end, far away from a base (101), of the lower end of a guide rail frame (102), the drying device (10) is divided into a drying frame (1001) and a resistance wire (1002), and the resistance wire (1002) is arranged at the inner end of the drying frame (1001);

a safety net reversing and conveying device (11) is fixedly arranged on a guide rail frame (102) positioned at the output end of the drying device (10), the safety net reversing and conveying device (11) is divided into a second conveyor belt frame (111), a third rotating shaft (112), a third air claw (113) and a second conveyor belt (114), the second conveyor belt frame (111) is arranged at one end of the guide rail frame (102), the second conveyor belt frame (111) is provided with the second conveyor belt (114), one end, close to the drying device (10), of the second conveyor belt frame (111) is movably provided with the third rotating shaft (112), the third rotating shaft (112) is fixedly provided with the third air claw (113) in parallel, one end of the third rotating shaft (112) is fixedly connected with the driving end of a ninth motor (115), and the ninth motor (115) is fixedly arranged on the second conveyor belt frame (111);

a rolling device (12) is arranged below the outlet end of the safety net replacing conveying device (11), the rolling device (12) is divided into a rolling chassis (121), a fixed supporting frame (122), a fixed supporting disc (123), a movable supporting frame (124), a movable supporting disc (125), a rolling rotating shaft (126), a pressure bar device (127), a roller device (128), an eighth cylinder (129), a lower transverse moving bottom plate (1210), a ninth cylinder (1211), an upper transverse moving bottom plate (1212), a tenth cylinder (1213) and an eighth motor (1214), the rolling chassis (121) is fixedly arranged at the lower end of the safety net replacing conveying device (11), one end of the rolling chassis (121) close to the safety net replacing conveying device (11) is fixedly connected with the lower transverse moving bottom plate (1210) through the eighth cylinder (129), and the lower transverse moving bottom plate (1210) is movably arranged at the upper end of the rolling chassis (121) through a key groove structure, one end of the lower traverse bottom plate (1210) close to the safety net reversing conveying device (11) is fixedly connected with an upper traverse bottom plate (1212) through a ninth cylinder (1211), the upper traverse bottom plate (1212) is movably mounted on the lower traverse bottom plate (1210) through a keyway structure, a fixed supporting plate (123) is fixedly arranged on the top surface of the rear end of the lower traverse bottom plate (1210) through a fixed supporting frame (122), a rolling rotating shaft (126) is movably arranged on the fixed supporting plate (123), one end of the rolling rotating shaft (126) is fixedly connected with the driving end of an eighth motor (1214), the eighth motor (1214) is fixedly mounted on the outer side surface of the fixed supporting plate (123), the other end of the rolling rotating shaft (126) is movably inserted and positioned on the movable supporting plate (125), the movable supporting plate (125) is fixedly mounted at the upper end of the movable supporting frame (124), and the bottom end of the movable supporting frame (124) is movably mounted at the upper end of the upper traverse bottom plate (1212) through, and the rear end face of the movable support frame (124) is longitudinally connected with an upper traversing bottom plate (1212) through a tenth cylinder (1213), a pressure bar device (127) is movably arranged on the fixed support plate (123) and the movable support plate (125), a roller device (128) is fixedly arranged at one end of the upper traversing bottom plate (1212), which is far away from the safety net reversing and conveying device (11), the roller device (128) comprises a roller frame (1281) and rollers (1282), and a plurality of rollers (1282) are parallelly arranged on the roller frame (1281).

2. The automatic water-saving environment-friendly equipment for cleaning the building construction safety net according to claim 1, is characterized in that: the bottom ends of one side end face and two side end faces of the storage box (21) facing the guide rail frame (102) are respectively provided with a safety net taking-out port, a cover plate (2101) is fixedly arranged on the storage box (21) outside the safety net taking-out port through a hinge, rollers (2102) are arranged on the storage box (21) at the lower end of the safety net taking-out port, and the safety nets are fixed in a crossed mode through ropes and stacked in the storage box (21).

3. The automatic water-saving environment-friendly equipment for cleaning the building construction safety net according to claim 1, is characterized in that: rope cuts off device (23) and divide into first cylinder (231), cuts off board (232), cuts off sword (233), goes up supporting shaft (234) and last rubber pad (235), the upper end fixed connection strorage device frame (22) of first cylinder (231), and first cylinder (231) lower extreme fixed connection cuts off board (232), cut off board (232) lower extreme symmetry is equipped with four and goes up supporting shaft (234), go up supporting shaft (234) bottom mounting and be equipped with rubber pad (235), fixedly between two adjacent last supporting shaft (234) being equipped with cuts off sword (233), the bottom surface of cutting off sword (233) is located the upper end of last rubber pad (235) bottom surface.

4. The automatic water-saving environment-friendly equipment for cleaning the building construction safety net according to claim 1, is characterized in that: the rope taking-out device (25) comprises a second air cylinder (251), a taking-out plate (252), a lower supporting shaft (253), a lower rubber pad (254), a mounting plate (255), a first rotating shaft (256), a fourth pneumatic claw (257), a first motor (258) and a rope collecting box (259), wherein the taking-out plate (252) is fixedly mounted on the base (101) through the second air cylinder (251), four lower supporting shafts (253) are symmetrically and fixedly arranged at the upper end of the taking-out plate (252), the top end of each lower supporting shaft (253) is fixedly provided with the lower rubber pad (254), the mounting plate (255) is fixedly arranged between every two opposite lower supporting shafts (253), the mounting plate (255) is movably provided with the first rotating shaft (256), the first rotating shaft (256) is fixedly provided with the fourth pneumatic claw (257), and one end of the first rotating shaft (256) is fixedly connected with the driving end of the first motor (258), the first motor (258) is fixedly installed on the installation plate (255), a through hole penetrates through the base (101) at the lower end of the taking-out plate (252), and a rope collection box (259) is fixedly arranged at the lower end of the through hole.

5. The automatic water-saving environment-friendly equipment for cleaning the building construction safety net according to claim 1, is characterized in that: the expansion pull rod (32) is divided into a third air cylinder (321), a connecting block (322), a connecting rod (323), a first air claw (324) and a second motor (325), the third air cylinder (321) is symmetrically installed at the front end and the rear end of the first conveyor belt frame (311), the connecting block (322) is arranged on the driving end of the third air cylinder (321), one end of the connecting rod (323) is fixedly connected to the connecting block (322), the first air claw (324) is movably arranged at the other end of the connecting rod (323), the driving end of the second motor (325) is fixedly connected to one end of the first air claw (324), and the second motor (325) is installed on the connecting rod (323).

6. The automatic water-saving environment-friendly equipment for cleaning the building construction safety net according to claim 1, is characterized in that: the compression roller device (53) is divided into a first telescopic rod (531), a roller shaft frame (532), a fourth motor (533) and a compression roller (534), the first telescopic rod (531) is fixedly installed on the crushing device plate (52), the upper end of the first telescopic rod (531) is fixedly connected with the roller shaft frame (532), the compression roller (534) is movably arranged on the roller shaft frame (532), one end of the compression roller (534) is fixedly connected with the fourth motor (533), the fourth motor (533) is fixedly installed on the roller shaft frame (532), and the number of the first telescopic rods (531) at the lower end of the roller shaft frame (532) is not less than two.

7. The automatic water-saving environment-friendly equipment for cleaning the building construction safety net according to claim 1, is characterized in that: the transportation roller device (82) is divided into an upper driving holding claw (821), a third telescopic rod (822), a movable plate (823), a roller shaft mounting rack (824), a fourth telescopic rod (825), a clamping rod (826), a transportation roller (827) and a sixth motor (828), wherein the upper driving holding claw (821) is installed on the upper guide rail (81) in a driving mode, the lower end of the upper driving holding claw (821) is fixedly provided with the third telescopic rod (822), the lower end of the third telescopic rod (822) is fixedly connected with the movable plate (823), the roller shaft mounting rack (824) is fixedly arranged at the front end and the rear end of the movable plate (823), the transportation roller (827) is movably arranged at the bottom end of the roller shaft mounting rack (824), one end of the transportation roller (827) is fixedly connected with the driving end of the sixth motor (828), the sixth motor (828) is installed on the roller shaft (824), a movable rod groove is vertically arranged on the roller shaft mounting, a clamping rod (826) longitudinally penetrates through the movable rod groove, and the front end and the rear end of the clamping rod (826) are fixedly connected with the movable plate (823) through a fourth telescopic rod (825).

8. The automatic water-saving environment-friendly equipment for cleaning the building construction safety net according to claim 1, is characterized in that: the safety net transporting device (8) further comprises a fifth cylinder (83), springs (84) and a safety net push rod (85), the upper driving holding claws (821) of two adjacent transporting roller devices (82) are fixedly connected through the fifth cylinder (83), the inner ends of movable plates (823) of the two adjacent transporting roller devices (82) are fixedly connected with the safety net push rod (85) through the springs (84), the safety net push rod (85) is divided into a push rod fixing plate (851), a sixth cylinder (852) and a push rod (853), the push rod fixing plate (851) is respectively connected with the movable plates (823) of the two side transporting roller devices (82) through the springs (84), the lower end of the push rod fixing plate (851) is fixedly provided with the push rod (853) through the sixth cylinder (852), and the push rod (853) is movably located at the upper end of the safety net between the two transporting roller devices (82).

9. The automatic water-saving environment-friendly equipment for cleaning the building construction safety net according to claim 1, is characterized in that: the fixed supporting disk (123) is divided into a disk body (1231), a track (1232), external teeth (1233), a first contact switch (1234) and a second contact switch (1235), the cross section of the disk body (1231) is of a circular structure, the track (1232) is annularly arranged on the inner end face of the disk body (1231) in a concave manner, the external teeth (1233) are arranged on the outer curved surface of the disk body (1231) corresponding to the track (1232), the angle corresponding to the track (1232) is 270 degrees, the two ends of the track (1232) are respectively provided with the first contact switch (1234) and the second contact switch (1235), the external teeth (1233) are movably engaged with a pressure lever device (127), the pressure lever device (127) is divided into a pressure lever (1271), a fifth telescopic lever (1272), a pressure lever rack (1273), a gear fixing plate (1274), a gear (1275), a seventh motor (1276), a limit shaft (1277) and a limit ball (1278), the pressure lever (1271) is arranged in parallel to the rolling-up rotating, two ends of the pressure lever (1271) are fixedly connected with a pressure lever frame (1273) through a fifth telescopic rod (1272), one end of the pressure lever frame (1273) close to the fixed supporting disk (123) is fixedly provided with a gear fixing plate (1274), the gear fixing plate (1274) is movably provided with a gear (1275), one end of a rotating shaft of the gear (1275) is fixedly connected with the driving end of a seventh motor (1276), the gear (1275) is meshed with the external gear (1233), the lower end of the gear fixing plate (1274) is movably provided with a limiting ball (1278), the limiting ball (1278) is movably clamped in a track (1232) of the fixed supporting disk (123), the inner end surface of the movable supporting disk (125) is also provided with a limiting track, a limiting shaft (1277) is movably clamped in the limiting track, the limiting shaft (1277) is fixedly arranged at the other end of the pressure lever frame (1273), and the first contact switch (1234) and the second contact switch (1235) are respectively the contact point of the seventh motor (1276) which stops rotating and the reverse rotation of the seventh motor And (4) switching.

10. The automatic water-saving environment-friendly equipment for cleaning the building construction safety net according to claim 1, is characterized in that: the utility model discloses a set up pivot, including fixed supporting disk (123), fixed shaft hole (1236), top dish (1237), dustcoat dish (1238) and seventh cylinder (1239), the activity is embedded to have a top dish (1237) on the inboard terminal surface of fixed supporting disk (123), the other end of top dish (1237) passes through seventh cylinder (1239) fixed connection dustcoat dish (1238), dustcoat dish (1238) fixed mounting is on the outside terminal surface of fixed supporting disk (123), the one end activity of rolling up pivot (126) runs through fixed shaft hole (1236) on top dish (1237), and is connected with eighth motor (1214) on this end rolling up pivot (126).

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