CN111922055A - Water pipe recovery processing device - Google Patents

Abstract

The invention relates to the field of recovery, in particular to a water pipe recovery processing device. The technical problem to be solved by the invention is as follows: provided is a water pipe recovery processing device. The technical scheme of the invention is as follows: a water pipe recovery processing device comprises a bottom frame, a controller, an inner pipe and outer pipe separating mechanism, a screening mechanism, a hose recovery mechanism, a first containing box and a second containing box; a controller is arranged above the bottom frame. The invention utilizes the characteristics of a damaged hot water pipe, and has great recycling necessity because the inner hose is longer and the connecting nuts at the two ends are not damaged to lose efficacy; the recovery operation of the existing water heater pipe is mostly limited by manual separation in the traditional sense, the probability that fingers are cut by manually cutting off the head of the water heater and then drawing out an internal hose is reduced, and the efficiency is improved; the current situation that the existing equipment is only subjected to crushing treatment, so that great resource waste is caused, and the automation of recovery cannot be realized is changed.

Description

Water pipe recovery processing device

Technical Field

The invention relates to the field of recovery, in particular to a water pipe recovery processing device.

Background

The hot water pipe is a medium for connecting the water heater and the shower head and is divided into an external protection pipe, an internal hose and fixing nuts at two ends;

the water heater pipe with the telescopic shell has certain defects, the connection part of the external protection pipe is weak, so that the connection part is easy to tear, and if the connection part is not replaced in time, fingers are easy to scratch in the using process of a user, so that infection is caused; moreover, the exposed inner hose is easy to scald users due to the damage of the protection tube, especially under the condition that the old and the children are in the home;

the damaged water heater pipe has great recovery necessity because the inner hose is longer and the connecting nuts at the two ends are not damaged and become invalid; however, most of the existing recovery operations of the water heater pipe are manually separated in the traditional sense, the head of the water heater is manually cut off, and then the internal hose is drawn out, so that the efficiency is extremely low, and fingers are easily cut; the existing equipment only carries out crushing treatment, which causes great resource waste and can not realize the automation of recovery.

Disclosure of Invention

In order to overcome the damaged water heater pipe, the inner hose is longer, and the connecting nuts at the two ends are not damaged to lose efficacy, so that great recycling necessity exists; however, most of the existing recovery operations of the water heater pipe are manually separated in the traditional sense, the head of the water heater is manually cut off, and then the internal hose is drawn out, so that the efficiency is extremely low, and fingers are easily cut; the existing equipment only carries out crushing treatment, which causes great resource waste and can not realize the automation of recovery, and the technical problems to be solved by the invention are that: provided is a water pipe recovery processing device.

The technical scheme of the invention is as follows: a water pipe recovery processing device comprises a bottom frame, a controller, an inner pipe and outer pipe separating mechanism, a screening mechanism, a hose recovery mechanism, a first containing box and a second containing box; a controller is arranged above the underframe; a first containing box, an inner pipe and outer pipe separating mechanism, a screening mechanism, a hose recovering mechanism and a second containing box are sequentially arranged above the underframe; the inner pipe and outer pipe separating mechanism is connected with the screening mechanism.

As a preferred technical scheme of the invention, the inner and outer pipe separating mechanism further comprises a first motor, a first transmission shaft, a first bevel gear, a second bevel gear, a third bevel gear, a first coupler, a first electric push rod, a fourth bevel gear, a second transmission shaft, a fifth bevel gear, a sixth bevel gear, a seventh bevel gear, a first rotating shaft, a first transmission wheel, a second rotating shaft, a third transmission wheel, a clamping mechanism, a fourth transmission wheel, a third rotating shaft, a fifth transmission wheel, a sixth transmission wheel, a third transmission shaft, an eighth bevel gear, a fourth rotating shaft, a seventh transmission wheel, an eighth transmission wheel, a second electric push rod, a fifth rotating shaft, a ninth bevel gear, a tenth bevel gear, an eleventh bevel gear, a sixth rotating shaft, a seventh rotating shaft, a first chain, a second chain wheel, a first deflector rod, an eighth rotating shaft, a first fixed block, a third chain wheel, The cutting mechanism comprises a second chain, a fourth chain wheel, a second driving lever, a first connecting rod, a second connecting rod, a first inclined block, a third driving lever, a first spring, a second fixed block, a third fixed block, a second spring, a first sliding block, a second sliding block, a twelfth bevel gear, a thirteenth bevel gear, a fourteenth bevel gear, a ninth rotating shaft, a fifteenth bevel gear, a sixteenth bevel gear, a tenth rotating shaft, a cutting mechanism, a third connecting rod, a first objective table, a third electric push rod, a second coupling and a third coupling; the first motor is in rotating connection with the first transmission shaft; the outer surface of the first transmission shaft is in rotary connection with the first bevel gear and the second bevel gear in sequence; the second bevel gear is meshed with the third bevel gear; the first coupling is connected with the first electric push rod; the second bevel gear is meshed with the fourth bevel gear; the outer surface of the second transmission shaft is sequentially in rotating connection with the first coupler and the fifth bevel gear; two ends of the second transmission shaft are respectively connected with the clamping mechanism; the fifth bevel gear is meshed with the sixth bevel gear; the sixth bevel gear is meshed with the seventh bevel gear; the seventh bevel gear is in rotary connection with the first rotating shaft; the first rotating shaft is rotatably connected with the first driving wheel; the first driving wheel is in transmission connection with the second driving wheel through a belt; two ends of the second rotating shaft are respectively and rotatably connected with the second driving wheel and the third driving wheel; the third driving wheel is in transmission connection with the fourth driving wheel through a belt; the clamping mechanism is connected with the first objective table; two ends of the third rotating shaft are respectively and rotatably connected with the fourth driving wheel and the fifth driving wheel; the fifth driving wheel is rotationally connected with the sixth driving wheel through a belt; the third transmission shaft is rotationally connected with the sixth transmission wheel; two ends of the third transmission shaft are respectively connected with the clamping mechanism; the first bevel gear is meshed with the eighth bevel gear; the outer surface of the fourth rotating shaft is sequentially in rotating connection with an eighth bevel gear, a seventh driving wheel and a twelfth bevel gear; the seventh driving wheel is in transmission connection with the eighth driving wheel through a belt; the second electric push rod is connected with the third coupling device; the fifth rotating shaft is sequentially in rotating connection with the eighth driving wheel and the ninth bevel gear; the ninth bevel gear is meshed with the tenth bevel gear; the ninth bevel gear is meshed with the eleventh bevel gear; the sixth rotating shaft is rotationally connected with the third shaft coupler; the sixth rotating shaft is rotatably connected with the seventh rotating shaft; the seventh rotating shaft is rotationally connected with the first chain wheel; the first chain wheel is meshed with the first chain; the first chain is connected with the first deflector rod; the seventh rotating shaft is rotatably connected with the first objective table; the second chain wheel is meshed with the first chain; two ends of the eighth rotating shaft are respectively in rotating connection with the second chain wheel and the third chain wheel; the eighth rotating shaft is rotatably connected with the first objective table; the first fixed block is welded with the first objective table; the first fixing block is welded with the cutting mechanism; the third chain wheel is meshed with the second chain; the second chain is meshed with the fourth chain wheel; the fourth chain wheel is rotationally connected with the seventh rotating shaft; the second deflector rod is connected with the second chain; the first connecting rod is connected with the clamping mechanism; the first connecting rod is connected with the second connecting rod; the second connecting rod is contacted with the first inclined block; the first inclined block is connected with the third deflector rod; the third deflector rod is contacted with the first objective table; two ends of the first spring are respectively connected with the third deflector rod and the second fixed block; the second fixed block is contacted with the first objective table; the third fixed block is welded with the first objective table; two ends of the second spring are respectively connected with the third fixed block and the first sliding block; the first sliding block is in sliding connection with the first object stage; the second sliding block is in sliding connection with the first object stage; the twelfth bevel gear is meshed with the thirteenth bevel gear; the twelfth bevel gear is meshed with the fourteenth bevel gear; the ninth rotating shaft is connected with the second coupler; the ninth rotating shaft is in rotating connection with the fifteenth bevel gear; the fifteenth bevel gear is meshed with the sixteenth bevel gear; the tenth rotating shaft is in rotating connection with the sixteenth bevel gear; the tenth rotating shaft is connected with the cutting mechanism; two ends of the third connecting rod are respectively connected with the cutting mechanism; the first motor is connected with the underframe through bolts; the third bevel gear is in rotating connection with the underframe; the first electric push rod is connected with the underframe; the fourth bevel gear is in rotating connection with the underframe; the second transmission shaft is rotatably connected with the underframe; the sixth bevel gear is in rotary connection with the underframe; the first rotating shaft is rotatably connected with the underframe; the second rotating shaft is rotatably connected with the underframe; the third rotating shaft is rotatably connected with the underframe; the third transmission shaft is rotatably connected with the underframe; the fourth rotating shaft is rotatably connected with the underframe; the second electric push rod is connected with the underframe; the fifth rotating shaft is rotatably connected with the underframe; the tenth bevel gear is in rotary connection with the underframe; the eleventh bevel gear is in rotary connection with the underframe; the sixth rotating shaft is rotatably connected with the underframe; the seventh rotating shaft is rotatably connected with the underframe; the thirteenth bevel gear is in rotary connection with the underframe; the fourteenth bevel gear is in rotary connection with the underframe; the ninth rotating shaft is rotatably connected with the underframe; the tenth rotating shaft is rotatably connected with the underframe; the cutting mechanism is connected with the bottom frame; welding the first objective table and the underframe; the third electric push rod is connected with the underframe; the eighth rotating shaft is connected with the screening mechanism.

As a preferred technical scheme of the invention, the clamping mechanism also comprises a first gear, a first rack, a first chute, a first connecting rod and a clamping block; the first gear is respectively in rotating connection with the second transmission shaft and the third transmission shaft; the first gear is meshed with the first rack; the first rack is in sliding connection with the first sliding chute; the first rack is connected with the first connecting rod; the first connecting rod is welded with the clamping block; the clamping block is in contact with the first stage.

As a preferred technical scheme of the present invention, the cutting mechanism further comprises a second gear, a second rack, a second chute, a first slide bar, a third chute, a fourth chute, a first fixing plate, a second fixing plate, a first telescopic rod, a third spring, a first cutter and a third fixing plate; the second gear is rotationally connected with the tenth rotating shaft; the second gear is meshed with the second rack; the second rack is in sliding connection with the second sliding chute; the second rack is welded with the first sliding rod; the first sliding rod is respectively in sliding connection with the third sliding groove and the fourth sliding groove; the third sliding groove is welded with the first objective table; the fourth sliding groove is welded with the first objective table; the first fixing plate is welded with the first objective table; the two ends of the first fixing plate are respectively provided with a third spring; the first fixing plate is connected with the first telescopic rod; the second fixing plate is connected with the first telescopic rod; the third spring is connected with the first cutter; the two ends of the third fixing plate are provided with third springs; and the third fixing plate is welded with the underframe.

As a preferred technical scheme of the present invention, the screening mechanism further comprises a seventeenth bevel gear, an eighteenth bevel gear, an eleventh rotating shaft, a first crank, a fourth connecting rod, a second crank, a twelfth rotating shaft, a second connecting rod, a first connecting seat, a third containing box, a fourth containing box and a fifth chute; the seventeenth bevel gear is meshed with the eighteenth bevel gear; two ends of the eleventh rotating shaft are connected with the eighteenth bevel gear and the first crank; two ends of the fourth connecting rod are respectively connected with the first crank and the second crank; the second crank is in rotary connection with the twelfth rotating shaft; the fourth connecting rod is connected with the second connecting rod; the second connecting rod is rotatably connected with the first connecting seat; the first connecting seat is welded with the third containing box; the third containing box is in sliding connection with the fifth sliding chute; the seventeenth bevel gear is rotationally connected with the eighth rotating shaft; the eleventh rotating shaft is rotatably connected with the bottom frame; the fourth containing box is connected with the underframe; the third containing box is connected with the underframe; and the fifth sliding groove is welded with the bottom frame.

As a preferred technical solution of the present invention, the hose recovery mechanism further comprises a second stage, a fourth electric push rod, a second motor, a fourth transmission shaft, a third gear, a fourth gear, a thirteenth rotating shaft, a third crank, a second cutter, a fourth crank, a fourteenth rotating shaft, a fifth storage box and a first connecting shaft; the second objective table is connected with a fourth electric push rod; the second objective table is respectively in rotary connection with the third gear and the fourth gear; the second motor is in rotating connection with the fourth transmission shaft; the fourth transmission shaft is in rotary connection with the third gear; the third gear is meshed with the fourth gear; the fourth gear is rotationally connected with the thirteenth rotating shaft; the thirteenth rotating shaft is rotatably connected with the second objective table; the thirteenth rotating shaft is connected with the third crank; the third crank is connected with the fourth crank through a first connecting shaft; the second cutter is in sliding connection with the second objective table; the second cutter is connected with the first connecting shaft; the fourteenth rotating shaft is rotationally connected with the fourth crank; the fourteenth rotating shaft is rotatably connected with the second objective table; welding the second objective table and the underframe; the second motor is connected with the underframe through bolts; the fifth containing box is connected with the underframe.

As a preferable technical scheme of the invention, the blade of the first cutter in the cutting mechanism close to one end of the eighth rotating shaft is crescent.

As a preferred technical scheme of the invention, four groups of clamping mechanisms are arranged on the first objective table and are symmetrically distributed, two groups of cutting mechanisms are arranged on the first objective table, and the left and right stand tables at the end, close to the first fixed block, of the first objective table are respectively provided with a first connecting rod, a second connecting rod, a first inclined block, a third deflector rod, a first spring and a second fixed block.

As a preferable technical scheme of the invention, one end of the fourth electric push rod, which is far away from the power part of the push rod, is provided with a U-shaped frame.

Has the advantages that: 1. the invention designs the inner and outer pipe separating mechanism, so that the water heater pipe is directly processed and then clamped, two different cutting effects are carried out on the two ends of the water heater pipe, the separation of the inner pipe and the outer pipe is realized, the inner pipe is prevented from being scratched due to the tearing of the outer protection pipe, and the unified collection of connecting parts is completed; the whole separation mechanism runs orderly from front to back;

2. the screening mechanism is designed, so that screening of parts with different sizes and outer diameters is realized, manual operation is reduced, and the working efficiency is improved;

3. the invention designs the hose recovery mechanism, realizes the complete taking out of the hose, cuts and separates small metal parts at the head of the hose, and uniformly collects the small metal parts and the hose;

4. the invention utilizes the characteristics of a damaged hot water pipe, and has great recycling necessity because the inner hose is longer and the connecting nuts at the two ends are not damaged to lose efficacy; the recovery operation of the existing water heater pipe is mostly limited by manual separation in the traditional sense, the probability that fingers are cut by manually cutting off the head of the water heater and then drawing out an internal hose is reduced, and the efficiency is improved; the current situation that the existing equipment is only subjected to crushing treatment, so that great resource waste is caused, and the automation of recovery cannot be realized is changed.

Drawings

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

FIG. 2 is a schematic perspective view of a second embodiment of the present invention;

FIG. 3 is a third perspective view of the present invention;

FIG. 4 is a schematic perspective view of a first embodiment of the inner and outer tube separating mechanism according to the present invention;

FIG. 5 is a schematic view of a second perspective structure of the inner and outer tube separating mechanism of the present invention;

FIG. 6 is an enlarged schematic view of the invention at G;

FIG. 7 is a schematic perspective view of the clamping mechanism of the present invention;

FIG. 8 is a schematic perspective view of the cutting mechanism of the present invention;

FIG. 9 is a schematic view of a first three-dimensional structure of the screening mechanism of the present invention;

fig. 10 is a schematic perspective view of a first embodiment of the hose recovery mechanism according to the present invention.

Labeled as: 1-chassis, 2-controller, 3-inner and outer pipe separating mechanism, 4-screening mechanism, 5-hose recovering mechanism, 6-first containing box, 7-second containing box, 301-first motor, 302-first transmission shaft, 303-first bevel gear, 304-second bevel gear, 305-third bevel gear, 306-first coupler, 307-first electric push rod, 308-fourth bevel gear, 309-second transmission shaft, 3010-fifth bevel gear, 3011-sixth bevel gear, 3012-seventh bevel gear, 3013-first rotating shaft, 3014-first transmission wheel, 3015-second transmission wheel, 3016-second rotating shaft, 3017-third transmission wheel, 3018-clamping mechanism, 301801-first gear, 301802-first rack, 301803-a first chute, 301804-a first connecting rod, 301805-a clamping block, 3019-a fourth driving wheel, 3020-a third rotating shaft, 3021-a fifth driving wheel, 3022-a sixth driving wheel, 3023-a third transmission shaft, 3024-an eighth bevel gear, 3025-a fourth rotating shaft, 3026-a seventh driving wheel, 3027-an eighth driving wheel, 3028-a second electric push rod, 3029-a fifth rotating shaft, 3030-a ninth bevel gear, 3031-a tenth bevel gear, 3032-an eleventh bevel gear, 3033-a sixth rotating shaft, 3034-a seventh rotating shaft, 3035-a first chain wheel, 3036-a first chain, 3037-a second chain wheel, 3038-a first driving lever, 3039-an eighth rotating shaft, 3040-a first fixed block, 3041-a third chain wheel, 3042-a second chain, 3043-a fourth chain wheel, 3044-a second driving lever, 3045-a first connecting rod, 3046-a second connecting rod, 3047-a first oblique block, 3048-a third driving lever, 3049-a first spring, 3050-a second fixed block, 3051-a third fixed block, 3052-a second spring, 3053-a first slider, 3054-a second slider, 3055-a twelfth bevel gear, 3056-a thirteenth bevel gear, 3057-a fourteenth bevel gear, 3058-a ninth rotating shaft, 3059-a fifteenth bevel gear, 3060-a sixteenth bevel gear, 3061-a tenth rotating shaft, 3062-a cutting mechanism, 306201-a second gear, 202-a second rack, 306203-a second sliding groove, 306204-a first sliding rod, 306205-a third sliding groove, 306206-a fourth sliding groove, 306207-a first fixing plate, 306208-a second fixing plate, 306209-a first telescopic rod, 3062010-a third spring, 3062011-a first cutter, 3062012-a third fixed plate, 3063-a third connecting rod, 3064-a first object stage, 3065-a third electric push rod, 3066-a second coupler, 3067-a third coupler, 401-a seventeenth bevel gear, 402-an eighteenth bevel gear, 403-an eleventh rotating shaft, 404-a first crank, 405-a fourth connecting rod, 406-a second crank, 407-a twelfth rotating shaft, 408-a second connecting rod, 409-a first connecting seat, 4010-a third containing box, 4011-a fourth containing box, 4012-a fifth chute, 501-a second object stage, 502-a fourth electric push rod, 503-a second motor, 504-a fourth transmission shaft, 505-a third gear, 506-a fourth gear, 507-thirteenth rotating shaft, 508-third crank, 509-second cutter, 5010-fourth crank, 5011-fourteenth rotating shaft, 5012-fifth containing box and 5013-first connecting shaft.

Detailed Description

The invention is described in further detail below with reference to the drawings and the detailed description, but the invention is not limited to the scope of protection and application.

Example 1

A water pipe recovery processing device is shown in figures 1-10 and comprises a chassis 1, a controller 2, an inner pipe and outer pipe separation mechanism 3, a screening mechanism 4, a hose recovery mechanism 5, a first containing box 6 and a second containing box 7; a controller 2 is arranged above the underframe 1; a first containing box 6, an inner pipe and outer pipe separating mechanism 3, a screening mechanism 4, a hose recovering mechanism 5 and a second containing box 7 are sequentially arranged above the underframe 1; the inner and outer pipe separating mechanism 3 is connected with the screening mechanism 4.

The working principle is as follows: before the equipment works, the equipment underframe 1 is arranged on a stable workbench and is connected with a conveying device externally provided with a water heater pipe to finish feeding; then the controller 2 is operated, the inner and outer pipe separating mechanism 3 drives the screening mechanism 4, the two ends of the water heater pipe are clamped tightly in the operation process of the inner and outer pipe separating mechanism 3, the positioning is completed, then the two ends of the water heater pipe are cut by the cutter, under the cooperation with the hose recovering mechanism 5, the hose is protected from being scratched by the external torn protection pipe, the separation of the inner and outer pipes of the water heater pipe is realized, the recovery of nuts at the two ends and other fixing components is completed, and the nuts are collected in the first storage box 6; the screening mechanism 4 realizes screening and separation of the nuts at one end and other fixed object belts; the hose recovery mechanism 5 realizes the separation of the metal connector at one end of the hose and collects the metal connector in the second storage box 7, and the hose slides down along the chute of the hose recovery mechanism 5 and is collected uniformly; the invention utilizes the characteristics of a damaged hot water pipe, and has great recycling necessity because the inner hose is longer and the connecting nuts at the two ends are not damaged to lose efficacy; the limitation of manual separation is too large, the device reduces the probability that fingers are cut by manually removing the head of the water heater and then drawing out the inner hose, and the efficiency is improved; the current situation that the existing equipment is only subjected to crushing treatment, so that great resource waste is caused, and the automation of recovery cannot be realized is changed.

The inner and outer pipe separating mechanism 3 further comprises a first motor 301, a first transmission shaft 302, a first bevel gear 303, a second bevel gear 304, a third bevel gear 305, a first coupler 306, a first electric push rod 307, a fourth bevel gear 308, a second transmission shaft 309, a fifth bevel gear 3010, a sixth bevel gear 3011, a seventh bevel gear 3012, a first rotating shaft 3013, a first driving wheel 3014, a second driving wheel 3015, a second rotating shaft 3016, a third driving wheel 3017, a clamping mechanism 3018, a fourth driving wheel 3019, a third rotating shaft 3020, a fifth driving wheel 3021, a sixth driving wheel 3022, a third transmission shaft 3023, an eighth bevel gear 3024, a fourth rotating shaft 3025, a seventh driving wheel 3026, an eighth driving wheel 3027, a second electric push rod 3028, a fifth rotating shaft 3029, a ninth bevel gear 3030, a tenth bevel gear 3031, an eleventh bevel gear 3032, a sixth rotating shaft 3033, a seventh rotating shaft 3034, a first chain wheel 3035, a first chain 3036, a second chain 3037, a second chain 3030, A first driving lever 3038, an eighth rotating shaft 3039, a first fixed block 3040, a third chain wheel 3041, a second chain 3042, a fourth chain wheel 3043, a second driving lever 3044, a first connecting rod 3045, a second connecting rod 3046, a first inclined block 3047, a third driving lever 3048, a first spring 3049, a second fixed block 3050, a third fixed block 3051, a second spring 3052, a first slider 3053, a second slider 3054, a twelfth bevel gear 3055, a thirteenth bevel gear 3056, a fourteenth bevel gear 3057, a ninth rotating shaft 3058, a fifteenth bevel gear 3059, a sixteenth bevel gear 3060, a tenth rotating shaft 3061, a cutting mechanism 3062, a third connecting rod 3063, a first object stage 3064, a third electric push rod 3065, a third coupling 3066 and a third coupling 3067; the first motor 301 is rotatably connected with the first transmission shaft 302; the outer surface of the first transmission shaft 302 is in rotary connection with a first bevel gear 303 and a second bevel gear 304 in sequence; the second bevel gear 304 is meshed with a third bevel gear 305; the first coupling 306 is connected with a first electric push rod 307; the second bevel gear 304 is meshed with a fourth bevel gear 308; the outer surface of the second transmission shaft 309 is in turn rotatably connected with the first coupler 306 and the fifth bevel gear 3010; two ends of the second transmission shaft 309 are respectively connected with the clamping mechanism 3018; fifth bevel gear 3010 meshes with sixth bevel gear 3011; sixth bevel gear 3011 meshes with seventh bevel gear 3012; a seventh bevel gear 3012 is rotatably connected to first rotating shaft 3013; the first rotating shaft 3013 is rotatably connected to the first driving wheel 3014; the first driving wheel 3014 is in transmission connection with the second driving wheel 3015 through a belt; two ends of the second rotating shaft 3016 are respectively connected with the second driving wheel 3015 and the third driving wheel 3017 in a rotating manner; the third driving wheel 3017 is in transmission connection with the fourth driving wheel 3019 through a belt; the clamping mechanism 3018 is coupled to the first stage 3064; two ends of the third rotating shaft 3020 are rotatably connected with the fourth driving wheel 3019 and the fifth driving wheel 3021 respectively; the fifth driving wheel 3021 is rotatably connected with the sixth driving wheel 3022 through a belt; the third transmission shaft 3023 is rotatably connected to a sixth transmission wheel 3022; two ends of the third transmission shaft 3023 are respectively connected with the clamping mechanism 3018; the first bevel gear 303 meshes with an eighth bevel gear 3024; the outer surface of the fourth rotating shaft 3025 is rotatably connected with an eighth bevel gear 3024, a seventh driving wheel 3026, and a twelfth bevel gear 3055 in sequence; the seventh driving wheel 3026 is in driving connection with the eighth driving wheel 3027 through a belt; the second electric push rod 3028 is connected with the third shaft tripler 3067; the fifth rotating shaft 3029 is sequentially rotatably connected with an eighth driving wheel 3027 and a ninth bevel gear 3030; the ninth bevel gear 3030 is meshed with the tenth bevel gear 3031; the ninth bevel gear 3030 is meshed with the eleventh bevel gear 3032; the sixth rotating shaft 3033 is rotatably connected with the third shaft tripler 3067; the sixth rotating shaft 3033 is rotatably connected with the seventh rotating shaft 3034; the seventh rotating shaft 3034 is rotatably connected with the first chain wheel 3035; the first chain wheel 3035 is meshed with the first chain 3036; the first chain 3036 is connected with the first shift lever 3038; the seventh rotating shaft 3034 is rotatably connected with the first object stage 3064; the second chain wheel 3037 is meshed with the first chain 3036; two ends of the eighth rotating shaft 3039 are respectively connected with the second chain wheel 3037 and the third chain wheel 3041 in a rotating manner; the eighth rotating shaft 3039 is rotatably connected with the first object stage 3064; the first fixed block 3040 is welded to the first stage 3064; the first fixed block 3040 is welded to the cutting mechanism 3062; the third sprocket 3041 is engaged with the second chain 3042; the second chain 3042 is engaged with the fourth sprocket 3043; the fourth chain wheel 3043 is rotatably connected with the seventh rotating shaft 3034; the second driving lever 3044 is connected to the second chain 3042; the first connecting rod 3045 is connected with the clamping mechanism 3018; the first connecting rod 3045 is connected to the second connecting rod 3046; the second connecting rod 3046 is in contact with the first swash block 3047; the first swash block 3047 is connected to a third shift lever 3048; the third driving lever 3048 contacts the first stage 3064; two ends of the first spring 3049 are respectively connected with the third driving lever 3048 and the second fixed block 3050; the second fixed block 3050 contacts the first stage 3064; the third fixed block 3051 is welded with the first object stage 3064; two ends of the second spring 3052 are respectively connected with the third fixed block 3051 and the first sliding block 3053; the first slider 3053 is slidably connected to the first stage 3064; the second slider 3054 is slidably connected to the first stage 3064; the twelfth bevel gear 3055 is engaged with the thirteenth bevel gear 3056; the twelfth bevel gear 3055 is engaged with the fourteenth bevel gear 3057; the ninth rotating shaft 3058 is connected to the second coupling 3066; the ninth rotating shaft 3058 is rotatably connected to a fifteenth bevel gear 3059; a fifteenth bevel gear 3059 engaged with the sixteenth bevel gear 3060; the tenth rotation shaft 3061 is rotatably coupled to a sixteenth bevel gear 3060; the tenth rotation shaft 3061 is connected to a cutting mechanism 3062; both ends of the third connecting rod 3063 are respectively connected with a cutting mechanism 3062; the first motor 301 is connected with the underframe 1 through bolts; the third bevel gear 305 is rotatably connected with the chassis 1; the first electric push rod 307 is connected with the underframe 1; the fourth bevel gear 308 is rotatably connected with the underframe 1; the second transmission shaft 309 is rotatably connected with the underframe 1; the sixth bevel gear 3011 is rotatably connected to the base frame 1; the first rotating shaft 3013 is rotatably connected with the underframe 1; the second rotating shaft 3016 is rotatably connected with the underframe 1; the third rotating shaft 3020 is rotatably connected to the chassis 1; the third transmission shaft 3023 is rotatably connected with the chassis 1; the fourth rotating shaft 3025 is rotatably connected to the chassis 1; the second electric push rod 3028 is connected with the underframe 1; the fifth rotating shaft 3029 is rotatably connected to the chassis 1; the tenth bevel gear 3031 is rotatably connected with the underframe 1; the eleventh bevel gear 3032 is in rotational connection with the chassis 1; the sixth rotating shaft 3033 is rotatably connected with the chassis 1; the seventh rotating shaft 3034 is rotatably connected with the chassis 1; the thirteenth bevel gear 3056 is rotatably connected to the base frame 1; the fourteenth bevel gear 3057 is rotatably connected to the underframe 1; the ninth rotating shaft 3058 is rotatably connected with the underframe 1; the tenth rotating shaft 3061 is rotatably connected with the base frame 1; the cutting mechanism 3062 is connected to the chassis 1; the first stage 3064 is welded to the chassis 1; the third electric push rod 3065 is connected with the chassis 1; the eighth rotating shaft 3039 is connected with the screening mechanism 4.

The controller 2 is controlled, and the equipment starts to operate; the eighth rotating shaft 3039 drives the screening mechanism 4 to realize power transmission; the first motor 301 drives the first transmission shaft 302 to rotate, the first transmission shaft 302 drives the first bevel gear 303 and the second bevel gear 304 to rotate, and the first electric push rod 307 pushes the first coupler 306 to be meshed with the third bevel gear 305 and the fourth bevel gear 308 independently, so that the change of the rotation direction of the second transmission shaft 309 is realized; the first electric push rod 307 pushes the first coupler 306 to be meshed with the fourth bevel gear 308, and the second transmission shaft 309 drives the clamping mechanism 3018 to clamp the water heater pipe by the clamping mechanism 3018; the clamping mechanism 3018 pushes the first connecting rod 3045 and the second connecting rod 3046, and the second connecting rod 3046 pushes the first sloping block 3047 to drive the third driving lever 3048, so as to realize straightening treatment on the water heater pipe; the second transmission shaft 309 drives the fifth bevel gear 3010 to be meshed with the sixth bevel gear 3011, the sixth bevel gear 3011 is meshed with the seventh bevel gear 3012 to drive the first rotating shaft 3013 to rotate, and the first rotating shaft 3013 and the second transmission shaft 309 rotate in opposite directions; the first rotating shaft 3013 drives the first driving wheel 3014 to drive the second driving wheel 3015, the second driving wheel 3015 drives the second rotating shaft 3016 to drive the third driving wheel 3017 to rotate, the third driving wheel 3017 drives the fourth driving wheel 3019 to drive the third rotating shaft 3020 to rotate, the third rotating shaft 3020 drives the fifth driving wheel 3021 to drive the sixth driving wheel 3022, the sixth driving wheel 3022 drives the third driving shaft 3023 to rotate, the third driving shaft 3023 drives the clamping mechanisms 3018 at the two ends of the third driving wheel 3023, so that the clamping mechanism 3018 clamps the water heater tube; when the clamping mechanism 3018 is reset, the first electric push rod 307 pushes the first coupler 306 to engage with the third bevel gear 305; the first bevel gear 303 is meshed with an eighth bevel gear 3024 to drive a fourth rotating shaft 3025 to rotate, the fourth rotating shaft 3025 drives a seventh driving wheel 3026 to drive an eighth driving wheel 3027, the eighth driving wheel 3027 drives a fifth rotating shaft 3029 to drive a ninth bevel gear 3030 to rotate, and the second electric push rod 3028 pushes a third coupler 3067 to be separately meshed with a tenth bevel gear 3031 and an eleventh bevel gear 3032, so that the steering of the sixth rotating shaft 3033 is changed; the second electric push rod 3028 pushes the second coupler 3066 to engage with the eleventh bevel gear 3032, the sixth rotating shaft 3033 drives the seventh rotating shaft 3034 to rotate, the seventh rotating shaft 3034 drives the first chain wheel 3035 to engage with the first chain 3036, the first chain 3036 drives the first shifting lever 3038, the first shifting lever 3038 pushes the first link 301804 and the clamping block 301805, the first chain 3036 drives the second chain wheel 3037 to rotate, the second chain wheel 3037 drives the eighth rotating shaft 3039 to drive the third chain wheel 3041, the seventh rotating shaft 3034 drives the fourth chain wheel 3043 to engage with the second chain 3042, the second chain 3042 engages with the third chain wheel 3041, the second chain 3042 drives the second shifting lever 3044, the second shifting lever 3044 pushes the first link 301804 and the clamping block 301805, the first link 301804 and the clamping block 301805 of the two clamping mechanisms 3018 near the end of the third chain wheel 3041 move to the fourth chain wheel 3043, and when the first link 301804 moves to the second slide block 3054 and the second slide block 3064, then, a first connecting rod 301804 and a clamping block 301805 in the two clamping mechanisms 3018 close to the end of the fourth chain wheel 3043 are pushed to move, and the first connecting rod 301804 pushes the first sliding block 3053 to extrude a second spring 3052 connected with the third fixing block 3051, so that the separation of the outer protective tube of the water heater is realized; the second electric push rod 3028 pushes the second coupling 3066 to engage with the tenth bevel gear 3031, the second spring 3052 returns to push the first link 301804 and the clamping block 301805 to return to the original position, the first chain 3036 and the second chain 3042 move in opposite directions, and the first driving lever 3038 and the second driving lever 3044 drive the first link 301804 and the clamping block 301805 of the two clamping mechanisms 3018 near the end of the third chain wheel 3041 to return to the original position; the fourth rotating shaft 3025 rotates the twelfth bevel gear 3055, the twelfth bevel gear 3055 engages with the thirteenth bevel gear 3056 and the fourteenth bevel gear 3057, the third electric push rod 3065 pushes the second coupling 3066 to separately engage with the fourteenth bevel gear 3057 and the thirteenth bevel gear 3056, the third electric push rod 3065 pushes the second coupling 3066 to engage with the thirteenth bevel gear 3056, the second coupling 3066 drives the ninth rotating shaft 3058 to drive the fifteenth bevel gear 3059, the fifteenth bevel gear 3059 engages with the sixteenth bevel gear 3060, the sixteenth bevel gear 3060 drives the tenth rotating shaft 3061 to rotate the cutting mechanism 3062, the third connecting rod 3063 drives the two cutting mechanisms 3062, so that the cutting of the two ends of the hot water pipe is realized, the third electric push rod 3065 pushes the second coupling 3066 to engage with the fourteenth bevel gear 3057, the third shaft 3066 drives the ninth rotating shaft 3058 to drive the fifteenth bevel gear 3059, the fifteenth bevel gear 3059 engages with the sixteenth bevel gear 3060, a sixteenth bevel gear 3060 drives a tenth rotating shaft 3061 to rotate and drive a cutting mechanism 3062, so that tool withdrawal is realized; when the cutting and separating are completed, the first electric push rod 307 pushes the first coupler 306 to engage with the third bevel gear 305, so that the clamping mechanism 3018 is reset, and the third driving lever 3048 returns to the original position on the first object stage 3064 under the pulling force of the first spring 3049; the whole inner and outer pipe separating mechanism 3 realizes a working process.

The clamping mechanism 3018 further includes a first gear 301801, a first rack 301802, a first sliding slot 301803, a first link 301804, and a clamping block 301805; the first gear 301801 is in rotational connection with the second drive shaft 309 and the third drive shaft 3023, respectively; the first gear 301801 is engaged with the first rack 301802; the first rack 301802 is in sliding connection with the first sliding groove 301803; the first rack 301802 is connected with the first link 301804; the first link 301804 is welded with the clamp block 301805; the clamping block 301805 is in contact with the first stage 3064.

The second transmission shaft 309 drives the first gears 301801 at two ends to rotate, the third transmission shaft 3023 drives the first gears 301801 at two ends to rotate, the first gear 301801 is meshed with the first rack 301802 to slide on the first sliding groove 301803 in a reciprocating linear manner, and the first rack 301802 pushes the first connecting rod 301804 and the clamping block 301805 to move in a reciprocating linear manner, so that the water heater pipe is clamped, and the whole clamping mechanism 3018 can be returned to the original position.

The cutting mechanism 3062 further includes a second gear 306201, a second rack 306202, a second slide groove 306203, a first slide bar 306204, a third slide groove 306205, a fourth slide groove 306206, a first fixing plate 306207, a second fixing plate 306208, a first telescopic rod 306209, a third spring 3062010, a first cutter 3062011 and a third fixing plate 3062012; the second gear 306201 is rotationally coupled to a tenth rotational shaft 3061; the second gear 306201 is meshed with a second rack 306202; the second rack 306202 is slidably connected to the second runner 306203; the second rack 306202 is welded with the first slide bar 306204; the first slide bar 306204 is in sliding connection with the third slide groove 306205 and the fourth slide groove 306206 respectively; the third slide trench 306205 is welded to the first stage 3064; the fourth slide groove 306206 is welded to the first stage 3064; the first fixing plate 306207 is welded to the first stage 3064; the two ends of the first fixing plate 306207 are respectively provided with a third spring 3062010; the first fixing plate 306207 is connected with the first telescopic rod 306209; the second fixing plate 306208 is connected with the first telescopic rod 306209; the third spring 3062010 is connected with the first cutter 3062011; third springs 3062010 are arranged at two ends of the third fixing plate 3062012; the third fixing plate 3062012 is welded to the chassis 1.

The tenth rotating shaft 3061 drives the second gear 306201 to rotate, the second gear 306201 is meshed with the second rack 306202 to slide on the second sliding groove 306203, the second rack 306202 drives the first sliding rod 306204 to slide on the third sliding groove 306205 and the fourth sliding groove 306206, the first sliding rod 306204 pushes the two second fixing plates 306208 to be close, the second fixing plate 306208 drives the first telescopic rod 306209 to be stretched, and the first telescopic rod 306209 drives the first cutter 3062011 to be in a clamping state, so that a cutting effect is achieved; in the retracting process, the third spring 3062010 connected with the first fixing plate 306207 and the third fixing plate 3062012 pulls the first knife 3062011 through the first telescopic rod 306209 to retract the knife.

The screening mechanism 4 further comprises a seventeenth bevel gear 401, an eighteenth bevel gear 402, an eleventh rotating shaft 403, a first crank 404, a fourth connecting rod 405, a second crank 406, a twelfth rotating shaft 407, a second connecting rod 408, a first connecting seat 409, a third containing box 4010, a fourth containing box 4011 and a fifth chute 4012; a seventeenth bevel gear 401 is meshed with an eighteenth bevel gear 402; both ends of the eleventh rotating shaft 403 are connected with an eighteenth bevel gear 402 and a first crank 404; two ends of the fourth connecting rod 405 are respectively connected with the first crank 404 and the second crank 406; the second crank 406 is rotatably connected with the twelfth rotating shaft 407; the fourth connecting rod 405 is connected with the second connecting rod 408; the second connecting rod 408 is rotatably connected with the first connecting seat 409; the first connecting seat 409 is welded with the third containing box 4010; the third containing box 4010 is connected with the fifth chute 4012 in a sliding manner; the seventeenth bevel gear 401 is rotatably connected with the eighth rotating shaft 3039; the eleventh rotating shaft 403 is rotatably connected with the chassis 1; the fourth containing box 4011 is connected with the underframe 1; the third containing box 4010 is connected with the underframe 1; the fifth sliding groove 4012 is welded to the base frame 1.

The eighth rotating shaft 3039 drives the seventeenth bevel gear 401 to engage with the eighteenth bevel gear 402, the eighteenth bevel gear 402 drives the eleventh rotating shaft 403 and the first crank 404 connected with the fourth connecting rod 405 to rotate, the first crank 404 drives the second crank 406 connected with the twelfth rotating shaft 407 to rotate, the fourth connecting rod 405 drives the second connecting rod 408 to rotate and drag the third containing box 4010 connected with the first connecting seat 409 to move on the fifth chute 4012, and small parts screened out are collected in the fourth containing box 4011.

The hose recovery mechanism 5 further comprises a second object stage 501, a fourth electric push rod 502, a second motor 503, a fourth transmission shaft 504, a third gear 505, a fourth gear 506, a thirteenth rotating shaft 507, a third crank 508, a second cutter 509, a fourth crank 5010, a fourteenth rotating shaft 5011, a fifth containing box 5012 and a first connecting shaft 5013; the second object stage 501 is connected with a fourth electric push rod 502; the second stage 501 is respectively connected with the third gear 505 and the fourth gear 506 in a rotating manner; the second motor 503 is rotatably connected with the fourth transmission shaft 504; the fourth transmission shaft 504 is in rotational connection with a third gear 505; the third gear 505 is meshed with the fourth gear 506; the fourth gear 506 is rotationally connected with the thirteenth rotating shaft 507; the thirteenth rotating shaft 507 is rotatably connected with the second object stage 501; the thirteenth rotating shaft 507 is connected with the third crank 508; the third crank 508 is connected with the fourth crank 5010 through a first connecting shaft 5013; the second cutter 509 is slidably connected to the second stage 501; the second cutter 509 is connected to the first connecting shaft 5013; the fourteenth rotating shaft 5011 is in rotating connection with the fourth crank 5010; the fourteenth rotating shaft 5011 is rotatably connected with the second object stage 501; the second stage 501 is welded to the base frame 1; the second motor 503 is bolted to the chassis 1; the fifth housing box 5012 is connected to the chassis 1.

One end of the separated hose is hooked by a U-shaped groove of a fourth electric push rod 502, the fourth electric push rod 502 drags the hose to enter a second objective table 501, a second motor 503 drives a fourth transmission shaft 504 to rotate, the fourth transmission shaft 504 drives a third gear 505 to be meshed with a fourth gear 506, the fourth gear 506 drives a thirteenth rotating shaft 507 and a third crank 508 to rotate, the third crank 508 drives a fourth crank 5010 connected with a fourteenth rotating shaft 5011 to rotate, and a first connecting shaft 5013 drives a second cutter 509 to do reciprocating linear motion to cut the hose; the hoses are collected in a fifth housing box 5012.

The blade of the first cutter 3062011 in the cutting mechanism 3062 near one end of the eighth shaft 3039 is crescent shaped.

The first cutter 3062011 of the cutting mechanism 3062 near the end of the eighth rotating shaft 3039 only cuts the outer protection tube during the cutting operation, so that the hose can be taken out better.

The clamping mechanism 3018 is provided with four sets of symmetrical distribution on the first stage 3064, the cutting mechanism 3062 is provided with two sets of symmetrical distribution on the first stage 3064, and the left and right stand of the end of the first stage 3064 close to the first fixed block 3040 are provided with a first connecting rod 3045, a second connecting rod 3046, a first inclined block 3047, a third driving lever 3048, a first spring 3049 and a second fixed block 3050.

The clamping mechanisms 3018 are matched with each other in pairs to clamp the hot water pipes and separate the outer protection pipes; the cutting mechanisms 3062 are positioned at both ends of the first stage 3064, so that one end of the water heater pipe is completely cut, the other end only cuts the outer protection pipe, and pretreatment is performed for separating the inner pipe and the outer pipe; under the combined action of the first connecting rod 3045, the second connecting rod 3046, the first inclined block 3047, the third driving lever 3048, the first spring 3049 and the second fixing block 3050, the water heater pipe is in a straight state, which is convenient for the cutting mechanism 3062 to cut.

The end of the fourth electric putter 502 remote from the putter power part is provided with a U-shaped frame.

The U-shaped frame that the one end of keeping away from push rod power part of fourth electric putter 502 set up can stimulate one end and not carry out the hose of complete cutting because the hose head has metal widget and can block the U-shaped frame to realize the separation of interior outer tube.

It should be understood by those skilled in the art that the above embodiments do not limit the present invention in any way, and all technical solutions obtained by using equivalent alternatives or equivalent variations fall within the scope of the present invention.

Claims (9)

1. A water pipe recovery processing device comprises a bottom frame (1) and a controller (2); the method is characterized in that: the device also comprises an inner pipe and outer pipe separating mechanism (3), a screening mechanism (4), a hose recovering mechanism (5), a first containing box (6) and a second containing box (7); a controller (2) is arranged above the bottom frame (1); a first containing box (6), an inner pipe and outer pipe separating mechanism (3), a screening mechanism (4), a hose recovering mechanism (5) and a second containing box (7) are sequentially arranged above the underframe (1); the inner and outer pipe separating mechanism (3) is connected with the screening mechanism (4).

2. The water pipe recycling device as claimed in claim 1, wherein: the inner and outer pipe separating mechanism (3) further comprises a first motor (301), a first transmission shaft (302), a first bevel gear (303), a second bevel gear (304), a third bevel gear (305), a first coupler (306), a first electric push rod (307), a fourth bevel gear (308), a second transmission shaft (309), a fifth bevel gear (3010), a sixth bevel gear (3011), a seventh bevel gear (3012), a first rotating shaft (3013), a first transmission wheel (3014), a second transmission wheel (3015), a second rotating shaft (3016), a third transmission wheel (3017), a clamping mechanism (3018), a fourth transmission wheel (3019), a third rotating shaft (3020), a fifth transmission wheel (3021), a sixth transmission wheel (3022), a third transmission shaft (3023), an eighth bevel gear (3024), a fourth rotating shaft (3025), a seventh transmission wheel (3026), an eighth transmission wheel (3027), a second electric push rod (3028), a third shaft (3022), a third shaft (3023), a, A fifth rotating shaft (3029), a ninth bevel gear (3030), a tenth bevel gear (3031), an eleventh bevel gear (3032), a sixth rotating shaft (3033), a seventh rotating shaft (3034), a first chain wheel (3035), a first chain (3036), a second chain wheel (3037), a first shifting lever (3038), an eighth rotating shaft (3039), a first fixed block (3040), a third chain wheel (3041), a second chain (3042), a fourth chain wheel (3043), a second shifting lever (3044), a first connecting rod (3045), a second connecting rod (3046), a first inclined block (3047), a third shifting lever (3048), a first spring (3049), a second fixed block (3050), a third fixed block (3051), a second spring (3052), a first slider (3053), a second slider (3054), a twelfth bevel gear (3055), a thirteenth bevel gear (3056), a fourteenth bevel gear (3057), a ninth rotating shaft (3058), a fifteenth bevel gear (3059), A sixteenth bevel gear (3060), a tenth rotating shaft (3061), a cutting mechanism (3062), a third connecting rod (3063), a first object stage (3064), a third electric push rod (3065), a second coupling (3066) and a third coupling (3067); the first motor (301) is rotationally connected with the first transmission shaft (302); the outer surface of the first transmission shaft (302) is sequentially in rotating connection with a first bevel gear (303) and a second bevel gear (304); the second bevel gear (304) is meshed with the third bevel gear (305); the first coupling (306) is connected with the first electric push rod (307); the second bevel gear (304) is meshed with the fourth bevel gear (308); the outer surface of the second transmission shaft (309) is sequentially in rotating connection with the first coupler (306) and the fifth bevel gear (3010); two ends of the second transmission shaft (309) are respectively connected with the clamping mechanism (3018); the fifth bevel gear (3010) is meshed with the sixth bevel gear (3011); the sixth bevel gear (3011) is meshed with the seventh bevel gear (3012); the seventh bevel gear (3012) is rotatably connected with the first rotating shaft (3013); the first rotating shaft (3013) is rotatably connected with the first driving wheel (3014); the first driving wheel (3014) is in transmission connection with the second driving wheel (3015) through a belt; two ends of the second rotating shaft (3016) are respectively in rotating connection with the second driving wheel (3015) and the third driving wheel (3017); the third driving wheel (3017) is in transmission connection with the fourth driving wheel (3019) through a belt; the clamping mechanism (3018) is connected with the first object stage (3064); two ends of the third rotating shaft (3020) are respectively in rotating connection with the fourth driving wheel (3019) and the fifth driving wheel (3021); the fifth driving wheel (3021) is rotationally connected with the sixth driving wheel (3022) through a belt; the third transmission shaft (3023) is rotationally connected with a sixth driving wheel (3022); two ends of the third transmission shaft (3023) are respectively connected with the clamping mechanism (3018); the first bevel gear (303) is meshed with the eighth bevel gear (3024); the outer surface of the fourth rotating shaft (3025) is sequentially in rotating connection with an eighth bevel gear (3024), a seventh driving wheel (3026) and a twelfth bevel gear (3055); the seventh driving wheel (3026) is in driving connection with the eighth driving wheel (3027) through a belt; the second electric push rod (3028) is connected with the third coupling (3067); the fifth rotating shaft (3029) is sequentially in rotating connection with an eighth driving wheel (3027) and a ninth bevel gear (3030); the ninth bevel gear (3030) is meshed with the tenth bevel gear (3031); the ninth bevel gear (3030) is meshed with the eleventh bevel gear (3032); the sixth rotating shaft (3033) is in rotating connection with the third coupler (3067); the sixth rotating shaft (3033) is rotatably connected with the seventh rotating shaft (3034); the seventh rotating shaft (3034) is rotatably connected with the first chain wheel (3035); the first chain wheel (3035) is meshed with the first chain (3036); the first chain (3036) is connected with the first deflector rod (3038); the seventh rotating shaft (3034) is rotatably connected with the first object stage (3064); the second chain wheel (3037) is meshed with the first chain (3036); two ends of the eighth rotating shaft (3039) are respectively in rotating connection with the second chain wheel (3037) and the third chain wheel (3041); the eighth rotating shaft (3039) is rotatably connected with the first object stage (3064); the first fixed block (3040) is welded with the first object stage (3064); the first fixed block (3040) is welded with the cutting mechanism (3062); the third chain wheel (3041) is meshed with the second chain (3042); the second chain (3042) is meshed with the fourth chain wheel (3043); the fourth chain wheel (3043) is rotationally connected with the seventh rotating shaft (3034); the second driving lever (3044) is connected with the second chain (3042); the first connecting rod (3045) is connected with the clamping mechanism (3018); the first connecting rod (3045) is connected with the second connecting rod (3046); the second connecting rod (3046) is in contact with the first sloping block (3047); the first inclined block (3047) is connected with a third driving lever (3048); the third driving lever (3048) is in contact with the first object stage (3064); two ends of the first spring (3049) are respectively connected with the third driving lever (3048) and the second fixed block (3050); the second fixed block (3050) is contacted with the first object stage (3064); the third fixed block (3051) is welded with the first objective table (3064); two ends of the second spring (3052) are respectively connected with the third fixed block (3051) and the first sliding block (3053); the first slide block (3053) is connected with the first object stage (3064) in a sliding mode; the second sliding block (3054) is connected with the first object stage (3064) in a sliding mode; the twelfth bevel gear (3055) is meshed with the thirteenth bevel gear (3056); the twelfth bevel gear (3055) is meshed with the fourteenth bevel gear (3057); the ninth rotating shaft (3058) is connected with the second coupling (3066); the ninth rotating shaft (3058) is rotatably connected with the fifteenth bevel gear (3059); the fifteenth bevel gear (3059) is meshed with the sixteenth bevel gear (3060); the tenth rotating shaft (3061) is in rotating connection with a sixteenth bevel gear (3060); the tenth rotating shaft (3061) is connected with a cutting mechanism (3062); two ends of the third connecting rod (3063) are respectively connected with the cutting mechanism (3062); the first motor (301) is connected with the underframe (1) through bolts; the third bevel gear (305) is in rotary connection with the underframe (1); the first electric push rod (307) is connected with the underframe (1); the fourth bevel gear (308) is rotationally connected with the underframe (1); the second transmission shaft (309) is rotatably connected with the underframe (1); the sixth bevel gear (3011) is connected with the chassis (1) in a rotating way; the first rotating shaft (3013) is rotatably connected with the bottom frame (1); the second rotating shaft (3016) is rotatably connected with the bottom frame (1); the third rotating shaft (3020) is rotatably connected with the chassis (1); the third transmission shaft (3023) is rotatably connected with the chassis (1); the fourth rotating shaft (3025) is rotatably connected with the bottom frame (1); the second electric push rod (3028) is connected with the underframe (1); the fifth rotating shaft (3029) is rotatably connected with the bottom frame (1); the tenth bevel gear (3031) is in rotary connection with the underframe (1); the eleventh bevel gear (3032) is in rotary connection with the chassis (1); the sixth rotating shaft (3033) is rotatably connected with the chassis (1); the seventh rotating shaft (3034) is rotatably connected with the chassis (1); the thirteenth bevel gear (3056) is rotationally connected with the underframe (1); the fourteenth bevel gear (3057) is rotationally connected with the underframe (1); the ninth rotating shaft (3058) is rotatably connected with the bottom frame (1); the tenth rotating shaft (3061) is rotatably connected with the bottom frame (1); the cutting mechanism (3062) is connected with the chassis (1); the first objective table (3064) is welded with the bottom frame (1); the third electric push rod (3065) is connected with the underframe (1); the eighth rotating shaft (3039) is connected with the screening mechanism (4).

3. A water pipe recycling device as claimed in claim 2, wherein: the clamping mechanism (3018) further comprises a first gear (301801), a first rack (301802), a first sliding chute (301803), a first connecting rod (301804) and a clamping block (301805); the first gear (301801) is respectively connected with the second transmission shaft (309) and the third transmission shaft (3023) in a rotating way; the first gear (301801) is meshed with the first rack (301802); the first rack (301802) is in sliding connection with the first sliding groove (301803); the first rack (301802) is connected with the first connecting rod (301804); the first connecting rod (301804) is welded with the clamping block (301805); the clamping block (301805) is in contact with the first stage (3064).

4. A water pipe recycling device as claimed in claim 3, wherein: the cutting mechanism (3062) further comprises a second gear (306201), a second rack (306202), a second sliding groove (306203), a first sliding rod (306204), a third sliding groove (306205), a fourth sliding groove (306206), a first fixing plate (306207), a second fixing plate (306208), a first telescopic rod (306209), a third spring (3062010), a first cutter (3062011) and a third fixing plate (3062012); the second gear (306201) is rotationally coupled to a tenth shaft (3061); the second gear (306201) is engaged with the second rack (306202); the second rack (306202) is connected with the second sliding groove (306203) in a sliding way; the second rack (306202) is welded to the first slide bar (306204); the first slide bar (306204) is respectively connected with the third slide groove (306205) and the fourth slide groove (306206) in a sliding way; the third sliding groove (306205) is welded with the first object stage (3064); the fourth sliding groove (306206) is welded with the first object stage (3064); the first fixing plate (306207) is welded with the first object stage (3064); the two ends of the first fixing plate (306207) are respectively provided with a third spring (3062010); the first fixing plate (306207) is connected with the first telescopic rod (306209); the second fixing plate (306208) is connected with the first telescopic rod (306209); the third spring (3062010) is connected with the first cutter (3062011); both ends of the third fixing plate (3062012) are provided with third springs (3062010); the third fixing plate (3062012) is welded to the chassis (1).

5. The water pipe recycling device as claimed in claim 4, wherein: the screening mechanism (4) further comprises a seventeenth bevel gear (401), an eighteenth bevel gear (402), an eleventh rotating shaft (403), a first crank (404), a fourth connecting rod (405), a second crank (406), a twelfth rotating shaft (407), a second connecting rod (408), a first connecting seat (409), a third containing box (4010), a fourth containing box (4011) and a fifth sliding chute (4012); the seventeenth bevel gear (401) is meshed with the eighteenth bevel gear (402); two ends of the eleventh rotating shaft (403) are connected with an eighteenth bevel gear (402) and a first crank (404); two ends of a fourth connecting rod (405) are respectively connected with the first crank (404) and the second crank (406); the second crank (406) is rotationally connected with the twelfth rotating shaft (407); the fourth connecting rod (405) is connected with the second connecting rod (408); the second connecting rod (408) is rotatably connected with the first connecting seat (409); the first connecting seat (409) is welded with the third containing box (4010); the third containing box (4010) is connected with the fifth chute (4012) in a sliding manner; the seventeenth bevel gear (401) is rotatably connected with the eighth rotating shaft (3039); the eleventh rotating shaft (403) is rotatably connected with the bottom frame (1); the fourth containing box (4011) is connected with the underframe (1); the third containing box (4010) is connected with the underframe (1); the fifth sliding groove (4012) is welded with the underframe (1).

6. The water pipe recycling device as claimed in claim 5, wherein: the hose recovery mechanism (5) further comprises a second object stage (501), a fourth electric push rod (502), a second motor (503), a fourth transmission shaft (504), a third gear (505), a fourth gear (506), a thirteenth rotating shaft (507), a third crank (508), a second cutter (509), a fourth crank (5010), a fourteenth rotating shaft (5011), a fifth containing box (5012) and a first connecting shaft (5013); the second objective table (501) is connected with a fourth electric push rod (502); the second objective table (501) is respectively in rotary connection with a third gear (505) and a fourth gear (506); the second motor (503) is rotationally connected with the fourth transmission shaft (504); the fourth transmission shaft (504) is in rotary connection with the third gear (505); the third gear (505) is meshed with the fourth gear (506); the fourth gear (506) is rotationally connected with the thirteenth rotating shaft (507); the thirteenth rotating shaft (507) is rotatably connected with the second objective table (501); the thirteenth rotating shaft (507) is connected with a third crank (508); the third crank (508) is connected with the fourth crank (5010) through a first connecting shaft (5013); the second cutter (509) is connected with the second objective table (501) in a sliding manner; the second cutter (509) is connected with the first connecting shaft (5013); the fourteenth rotating shaft (5011) is in rotating connection with the fourth crank (5010); the fourteenth rotating shaft (5011) is rotatably connected with the second object stage (501); the second objective table (501) is welded with the underframe (1); the second motor (503) is connected with the underframe (1) through bolts; the fifth storage box (5012) is connected with the chassis (1).

7. The water pipe recycling device as claimed in claim 6, wherein: the blade of the first cutter (3062011) in the cutting mechanism (3062) close to one end of the eighth rotating shaft (3039) is crescent-shaped.

8. The water pipe recycling apparatus as claimed in claim 7, wherein: the clamping mechanism (3018) is provided with four groups on the first object stage (3064), the four groups are symmetrically distributed, the cutting mechanism (3062) is provided with two groups on the first object stage (3064), the left and right stand tables at the end, close to the first fixed block (3040), of the first object stage (3064) are respectively provided with a first connecting rod (3045), a second connecting rod (3046), a first inclined block (3047), a third driving lever (3048), a first spring (3049) and a second fixed block (3050).

9. The water pipe recycling apparatus as claimed in claim 8, wherein: one end of the fourth electric push rod (502) far away from the push rod power part is provided with a U-shaped frame.

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