CN112171293A

CN112171293A - A retrieve processing equipment for old and useless building steel pipe

Info

Publication number: CN112171293A
Application number: CN202011082484.0A
Authority: CN
Inventors: 油运赦
Original assignee: Tiantai Cloud Automation Technology Co ltd
Current assignee: Tiantai Cloud Automation Technology Co ltd
Priority date: 2020-10-12
Filing date: 2020-10-12
Publication date: 2021-01-05

Abstract

The invention discloses recycling and processing equipment for waste building steel pipes, which comprises a box body, wherein an empty bin is arranged in the box body, a feeding mechanism is arranged in the empty bin, the feeding mechanism comprises a storage box, the storage box is fixedly connected to the inner wall of the front side of the box body, a storage bin is arranged in the storage box, a feeding shaft is arranged in the storage bin, and the feeding shaft is rotatably connected with the inner wall of the upper side of the storage box.

Description

A retrieve processing equipment for old and useless building steel pipe

The invention relates to the field of building steel pipes, in particular to recycling and processing equipment for waste building steel pipes.

Background

Along with the continuous improvement of living standard, people have more and more demand for beautiful life, people are full of daily temperature and pursue higher quality and more comfortable life, so the development of society is accelerated continuously, various buildings are obviously increased, building materials used in the buildings are very various, the steel pipes are very common, new buildings replace old buildings, a plurality of waste steel pipe materials are produced, the existing recycling of the steel pipe materials is basically to transport the waste steel pipes to a steel processing factory for reprocessing and utilization, but the air space area among the steel pipes is large under the condition of no treatment, so the transportation efficiency is reduced, and the direct reprocessing of the steel pipes is inconvenient.

Disclosure of Invention

The invention aims to solve the technical problem of providing a recycling and processing device for waste building steel pipes, and overcoming the problems of low steel pipe recycling and transporting efficiency, inconvenient reprocessing and the like.

The invention is realized by the following technical scheme.

The invention relates to recycling and processing equipment for waste building steel pipes, which comprises a box body, wherein an empty bin is arranged in the box body, a feeding mechanism is arranged in the empty bin, the feeding mechanism comprises a storage bin, the storage bin is fixedly connected to the inner wall of the front side of the box body, a storage bin is arranged in the storage bin, a feeding shaft is arranged in the storage bin, the feeding shaft is rotatably connected with the inner wall of the upper side of the storage bin, a feeding wheel is fixedly connected to the feeding shaft, four stable bins are distributed on the feeding wheel in an array manner, two clamping boxes are fixedly connected in each stable bin, the two clamping boxes and the center line of the stable bin are vertically symmetrical, a clamping bin is arranged in each clamping bin, a first electromagnet is arranged in each clamping bin, and the first electromagnet is fixedly connected to the inner wall of one side, far away from the center line of the stable bin, of the clamping bin, the first electromagnet is fixedly connected with a clamping spring, the other end of the clamping spring is fixedly connected with a magnetic clamping rod, the magnetic clamping rod is slidably connected with the inner wall of the clamping bin, one section of the magnetic clamping rod, which is close to the central line of the stabilizing bin, is fixedly connected with a clamping plate, the clamping plate is slidably connected with the stabilizing bin, seven induction blocks are arranged in each stabilizing bin, the induction blocks are slidably connected with induction bins, the induction bins are arranged in the feeding wheel, first pressure inductors are arranged in the induction bins, the first pressure inductors are fixedly connected onto the inner wall, which is close to the feeding shaft, of the induction bins, induction springs are fixedly connected onto the first pressure inductors, the other ends of the induction springs are fixedly connected onto the induction blocks, a bearing plate is arranged below the storage bin, and the bearing plate is fixedly connected onto the inner wall on the rear side of the empty bin, the push plate is connected with the supporting plate in a sliding manner, a push spring is fixedly connected to the upper end face of the push plate, the upper end of the push spring is fixedly connected to the inner wall of the upper side of the empty bin, six second pressure sensors are arranged on the push plate, a second pressure sensor is arranged in each second pressure sensor, the second pressure sensors are fixedly connected to the inner wall of the rear side of each second pressure sensor, pressure springs are fixedly connected to the second pressure sensors, the other ends of the pressure springs are fixedly connected to a driving gear, the driving gear is in sliding connection with the second pressure sensors, a clamping plate is arranged on each of the left side and the right side of the push plate, the two clamping plates are bilaterally symmetrical with the center line of the push plate as the center, an auxiliary bin is arranged on each clamping plate, and six auxiliary shafts are arranged in the auxiliary bin, the auxiliary shafts are rotatably connected with the inner walls of the front side and the rear side of the auxiliary bin, and each auxiliary shaft is fixedly connected with an auxiliary wheel;

the cutting and shearing mechanism is further arranged in the empty bin and comprises a cutting box, the cutting box is fixedly connected to the inner wall of the rear side of the empty bin, two hydraulic machines are arranged in the cutting box and are stacked left and right by taking the cutting blade as the center, a supporting rod is connected to the hydraulic machines in a sliding manner, a rotating shaft is connected to the supporting rod in a rotating manner, a supporting wheel is fixedly connected to the rotating shaft, the cutting box is connected with the cutting blade in a sliding manner, two extruding wheels are respectively arranged on the left side and the right side of the cutting blade and are fixedly connected to the front end of the extruding shaft, a fixing plate is arranged on one side, away from the cutting blade, of each extruding wheel, the fixing plate is fixedly connected with the inner wall of the rear side of the empty bin, two limiting blocks are fixedly connected to the inner wall of the rear side of the empty bin, and are bilaterally symmetrical by taking the, every the lower extreme fixedly connected with of stopper cuts the case, cut the incasement and be equipped with and cut the storehouse, it is equipped with in the storehouse to cut and cut the spring, cut being close to of spring one section fixed connection cut the storehouse be close on one side inner wall of cutting the spring, the other end fixed connection that cuts the spring is on cutting the sword, cut the sword with cut storehouse inner wall sliding connection.

Preferably, the feeding mechanism further comprises a first sensor, the first sensor is embedded in each magnetic clamping rod at the upper side, the first sensor can mutually sense with a second sensor, the second sensor is embedded in the upper end wall of the storage box, the upper end of the feeding shaft is rotatably connected with a first motor, the first motor is fixedly connected to the upper inner wall of the empty bin, the rear end surface of the push plate is fixedly connected with a first rack, the first rack is meshed with a driving gear, the driving gear is arranged in a driving bin, the driving bin is arranged in a bearing plate, a third motor is further arranged in the driving bin, the third motor is fixedly connected to the inner wall of the right side of the driving bin, the left end surface of the driving bin is rotatably connected with a rotating shaft, and the left end of the rotating shaft is fixedly connected with the driving gear, every fixedly connected with supporting rod on the grip block, supporting rod and centre gripping storehouse inner wall sliding connection, the centre gripping storehouse is established at the centre gripping incasement, centre gripping case fixed connection be in on the left and right sides inner wall in empty storehouse, still be equipped with the second electro-magnet in the centre gripping storehouse, the second electro-magnet with keeping away from in centre gripping storehouse one side inner wall fixed connection of push plate, fixedly connected with centre gripping spring on the second electro-magnet, the other end fixed connection of centre gripping spring is in on the supporting rod.

Preferably, the cutting and shearing mechanism further comprises a fourth motor, the fourth motor is fixedly connected in the cutting box, the fourth motor is rotationally connected with a driving rotating shaft which is fixedly connected with the cutting blade, a second rack is fixedly connected on the lower end surface of the shearing knife and meshed with the sector gear, the sector gear is fixedly connected with the front end of the driving shaft, the driving shaft is rotationally connected with the stabilizing plate, the stabilizing plate is fixedly connected on the inner wall of the lower side of the empty bin, the driving shaft on the left side is also fixedly connected with a matching gear, the matching gear is meshed with the connecting gear which is fixedly connected with the connecting gear, the connecting gear with the steadying plate rotates to be connected, the connecting gear passes through extrusion wheel and right side drive shaft friction drive, the cutting piece is embedded to have temperature-sensing ware.

The invention has the beneficial effects that: the invention has the main effects that the waste steel pipes are processed into one process before the steel pipes are transported, and the waste steel pipes are processed into one iron sheet, so that the empty space between the steel sheets and the iron sheet is almost not available when the steel pipes are stacked together, the transported weight of a vehicle is increased, the transportation efficiency is increased, the steel sheets are more convenient to reprocess, and the reprocessing efficiency can be improved.

Drawings

In order to more clearly illustrate the embodiments of the invention or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below, and it is obvious that the drawings in the following description are only some embodiments of the invention, and it is obvious for those skilled in the art that other drawings can be obtained based on these drawings without creative efforts.

FIG. 1 is a schematic structural diagram of an embodiment of the present invention;

FIG. 2 is a schematic view of the embodiment of the present invention taken along the line A-A in FIG. 1;

FIG. 3 is a schematic view of the embodiment of the present invention in the direction B-B in FIG. 2;

FIG. 4 is a schematic view of the embodiment of the present invention in the direction of C-C in FIG. 1;

FIG. 5 is a schematic view of the embodiment of the present invention in the direction D-D in FIG. 2;

FIG. 6 is a schematic view of the embodiment of the present invention in the direction E-E in FIG. 1;

FIG. 7 is a schematic view of the embodiment of the present invention in the direction F-F in FIG. 2;

FIG. 8 is a schematic diagram showing the direction G-G in FIG. 1 according to an embodiment of the present invention.

Detailed Description

The invention will now be described in detail with reference to fig. 1-8, wherein for ease of description the orientations described below are now defined as follows: the up, down, left, right, and front-back directions described below correspond to the up, down, left, right, and front-back directions in the projection relationship of fig. 1 itself.

The recycling and processing equipment for waste building steel pipes, which is described in conjunction with the attached drawings 1-8, comprises a box body 11, wherein an empty bin 12 is arranged in the box body 11, a feeding mechanism 101 is arranged in the empty bin 12, the feeding mechanism 101 comprises a storage box 38, the storage box 38 is fixedly connected to the inner wall of the front side of the box body 11, a storage bin 39 is arranged in the storage box 38, a feeding shaft 40 is arranged in the storage bin 39, the feeding shaft 40 is rotatably connected with the inner wall of the upper side of the storage box 38, a feeding wheel 77 is fixedly connected to the feeding shaft 40, four stabilizing bins 41 are distributed on the feeding wheel 77 in an array manner, two clamping boxes 46 are fixedly connected in each stabilizing bin 41, the two clamping boxes 46 are vertically symmetrical with the center line of the stabilizing bin 41, a clamping bin 47 is arranged in each clamping box 46, a first electromagnet 48 is arranged in each clamping bin 47, the first electromagnet 48 is fixedly connected to the inner wall of the clamping bin 47 on the side far away from the center line of the stabilizing bin 41, the first electromagnet 48 is fixedly connected with a clamping spring 49, the other end of the clamping spring 49 is fixedly connected to a magnetic clamping rod 50, the magnetic clamping rod 50 is slidably connected with the inner wall of the clamping bin 47, a section of the magnetic clamping rod 50 close to the center line of the stabilizing bin 41 is fixedly connected with a clamping plate 51, the clamping plate 51 is slidably connected with the stabilizing bin 41, seven sensing blocks 45 are arranged in each stabilizing bin 41, the sensing blocks 45 are slidably connected with a sensing bin 42, the sensing bin 42 is arranged in the feeding wheel 77, a first pressure sensor 43 is arranged in the sensing bin 42, the first pressure sensor 43 is fixedly connected to the inner wall of the sensing bin 42 close to the feeding shaft 40, and a sensing spring 44 is fixedly connected to the first pressure sensor 43, the other end of the induction spring 44 is fixedly connected to the induction block 45, a bearing plate 13 is arranged below the storage box 38, the bearing plate 13 is fixedly connected to the inner wall of the rear side of the empty bin 12, a push plate 15 is slidably connected to the bearing plate 13, a push spring 14 is fixedly connected to the upper end surface of the push plate 15, the upper end of the push spring 14 is fixedly connected to the inner wall of the upper side of the empty bin 12, six second pressure sensors 57 are arranged on the push plate 15, a second pressure sensor 58 is arranged in each second pressure sensor 57, the second pressure sensors 58 are fixedly connected to the inner wall of the rear side of the second pressure sensors 57, a pressure spring 59 is fixedly connected to each second pressure sensor 58, the other end of the pressure spring 59 is fixedly connected to a drive gear 60, and the drive gear 60 is slidably connected to the second pressure sensors 57, the left side and the right side of the pushing plate 15 are respectively provided with a clamping plate 17, the two clamping plates 17 are bilaterally symmetrical by taking the center line of the pushing plate 15 as the center, each clamping plate 17 is provided with an auxiliary bin 54, six auxiliary shafts 55 are arranged in the auxiliary bins 54, the auxiliary shafts 55 are rotatably connected with the inner walls of the front side and the rear side of the auxiliary bins 54, each auxiliary shaft 55 is fixedly connected with an auxiliary wheel 56, the waste steel pipes drop onto the pushing plate 15 from the storage bin 38 in an indirect manner and are fastened and stabilized by the two clamping plates 16, and the waste steel pipes are stably moved and processed under the pushing of the pushing plate 15;

still be equipped with in the empty storehouse 12 and cut off mechanism 102, the cutting is cut off mechanism 102 and is included cutting case 19, cutting case 19 fixed connection on the rear side inner wall of empty storehouse 12, be equipped with two hydraulic presses 73 in the cutting case 19, two hydraulic presses 73 use cutting piece 76 piles up about as the center, sliding connection has bracing piece 21 on the hydraulic press 73, rotating connection has axis of rotation 23 on the bracing piece 21, fixedly connected with supporting wheel 22 on the axis of rotation 23, cutting case 19 and cutting piece 76 sliding connection, both sides still respectively are equipped with an extrusion wheel 25 about cutting piece 76, extrusion wheel 25 fixed connection is in the front end of extrusion axle 26, one side that cutting piece 76 was kept away from to extrusion wheel 25 is equipped with fixed plate 24, fixed plate 24 with the rear side inner wall fixed connection of empty storehouse 12, still two stopper 27 of fixed connection on the rear side inner wall of empty storehouse 12, the two limiting blocks 27 are symmetrical left and right by taking the cutting blade 76 as a center, the lower end of each limiting block 27 is fixedly connected with a shearing box 28, a cutting bin 80 is arranged in the cutting box 28, a cutting spring 79 is arranged in the cutting bin 80, a section of the shear spring 79 close to the shear spring 79 is fixedly connected to the inner wall of the shear bin 80 close to the shear spring 79, the other end of the shearing spring 79 is fixedly connected to the shearing knife 29, the shearing knife 29 is connected with the inner wall of the shearing bin 80 in a sliding manner, the waste steel pipe conveyed by the push plate 15 is cut by the shearing spring 79 and divided into two parts to move separately under the push of the support rod 21 and the support wheel 22, and spread and flattened by the pressing of the pressing wheel 25 and the fixing plate 24, and cut into small iron pieces by the intermittent movement of the cutting blade 29.

Beneficially, the feeding mechanism 101 further includes a first sensor 52, the first sensor 52 is embedded in each of the magnetic clamping rods 50 at the upper side, the first sensor 52 and a second sensor 53 can mutually sense, the second sensor 53 is embedded in the upper end wall of the storage box 38, the upper end of the feeding shaft 40 is rotatably connected to a first motor 36, the first motor 36 is fixedly connected to the upper inner wall of the empty bin 12, a first rack 64 is fixedly connected to the rear end surface of the pushing plate 15, the first rack 64 is meshed with a driving gear 63, the driving gear 63 is disposed in a driving bin 61, the driving bin 61 is disposed in the supporting plate 13, a third motor 69 is further disposed in the driving bin 61, the third motor 69 is fixedly connected to the right inner wall of the driving bin 61, a rotating shaft 61 is rotatably connected to the left end surface of the driving bin 61, the left end fixedly connected with of rotation axis 61 drive gear 63, every fixedly connected with clamping rod 20 on the grip block 17, clamping rod 20 and the 70 inner wall sliding connection in clamping chamber, clamping chamber 70 is established in centre gripping case 18, centre gripping case 18 fixed connection be in on the left and right sides inner wall of empty storehouse 12, still be equipped with second electro-magnet 72 in the clamping chamber 70, second electro-magnet 72 with what the clamping chamber 70 kept away from one side inner wall fixed connection of push plate 15, fixedly connected with centre gripping spring 71 on the second electro-magnet 72, the other end fixed connection of centre gripping spring 71 is in on the clamping rod 20.

Beneficially, the cutting and shearing mechanism 102 further includes a fourth motor 74, the fourth motor 74 is fixedly connected in the cutting box 19, a driving rotating shaft 75 is rotatably connected to the fourth motor 74, the driving rotating shaft 75 is fixedly connected to the cutting blade 76, a second rack 67 is fixedly connected to the lower end surface of the shearing blade 29, the second rack 67 is engaged with a sector gear 32, the sector gear 32 is fixedly connected to the front end of the driving shaft 31, the driving shaft 31 is rotatably connected to a stabilizing plate 30, the stabilizing plate 30 is fixedly connected to the lower inner wall of the empty bin 12, a mating gear 68 is further fixedly connected to the driving shaft 31 on the left side, the mating gear 68 is engaged with a connecting gear 34, the connecting gear 34 is fixedly connected to a connecting gear 33, the connecting gear 33 is rotatably connected to the stabilizing plate 30, the connecting gear 33 is in friction transmission with the driving shaft 31 on the right side through the extrusion wheel 25, the cutting blade 76 is embedded with a temperature sensor 65.

In the initial state, the push spring 14, the clamp spring 49, the shear spring 79, the clamp spring 71 are in the normal state, the front sense spring 44, the pressure spring 59 are in the compressed state, and the rear sense spring 44 is in the extended state.

Application method

An operator places waste steel pipes into a storage bin 39, the steel pipes fall onto a stabilizing bin 41 to compress an induction block 45, an induction spring 44 is compressed, a first electromagnet 48 is electrified after a first pressure sensor 43 senses pressure, a repulsive force is given to a magnetic clamping rod 50, a clamping spring 49 is stretched, two clamping plates 51 are close to each other to clamp the steel pipes, a first motor 36 starts to work to drive a feeding shaft 40 to rotate, when a first sensor 52 in the same clamping bin 47 with the electrified first electromagnet 48 rotates to be close to a second sensor 53 to sense, the first motor 36 stops working, at the moment, the first electromagnet 48 in the same clamping bin 47 with the electrified first sensor 52 stops being electrified, the two clamping plates 51 are separated from each other under the action of the clamping spring 49, the steel pipes in the stabilizing bin 41 naturally fall due to gravity, a driving gear 60 falls down to compress a pressure spring 59 after being subjected to the pressure, the second pressure sensor 58 senses pressure, the first motor 36 still does not work, at this time, the second electromagnet 72 is electrified to give a repulsive force to the clamping rod 20, the clamping spring 71 is stretched, the two clamping plates 17 approach to each other to clamp the dropped steel pipe, the third motor 69 starts to work to drive the rotating shaft 61 to rotate, the rotating shaft 61 rotates the driving gear 63 fixed to the rotating shaft 61, the rotating gear 63 rotates the first rack 64 meshed with the driving gear 63 to move, the moving gear of the first rack 64 moves the whole pushing plate 15, and the moving gear of the pushing plate 15 moves the steel pipe together.

The fourth motor 74 works to drive the driving shaft 75 to rotate, the cutting blade 76 starts to rotate due to the rotation of the driving shaft 75, the steel pipe conveyed by the cutting blade 76 starts to be cut, after the temperature sensor 65 for friction heating senses the temperature change, the cutting blade 76 starts to work to extend the supporting rod 21 to push out the supporting wheel 22 to push the cut steel pipe, the fifth motor 78 works to drive the extrusion shaft 26 to rotate, the extrusion shaft 26 rotates to drive the extrusion wheel 25 to rotate, the extrusion wheel 25 rotates and extrudes the cut steel pipe with the fixing plate 24 to straighten, the second motor 66 works to drive the driving shaft 31 on the right side to rotate, the driving shaft 31 on the right side drives the sector gear 32 on the right side to rotate, the driving shaft 31 on the right side is in friction transmission with the connecting gear 33 through the conveyor belt 35, the connecting gear 33 rotates to drive the connecting gear 34 to rotate, and the connecting gear 34 drives the matching gear, the rotation of the mating gear 68 causes the left driving shaft 31 to rotate, so the left sector gear 32 starts to rotate, the rotation of the sector gear 32 causes the second rack 67 to start to move, the second rack 67 drives the shearing blade 29 to move, the stretching-out of the shearing blade 29 shears the steel plate which is straightened by the extrusion wheel 25 and the fixing plate 24, the sector gear 32 is disengaged from the second rack 67, the shearing blade 29 is accommodated into the shearing bin 80 under the action of the shearing spring 79, and the shearing blade 29 repeatedly moves left and right to cut the steel plate into small sections.

The above embodiments are only for illustrating the technical idea and features of the present invention, and the purpose thereof is to enable those skilled in the art of the mature clamping box 46 to understand the contents of the present invention and implement the present invention, and not to limit the protection scope of the present invention. All equivalent changes and modifications made according to the spirit of the present invention should be covered within the protection scope of the present invention.

Claims

1. The utility model provides a retrieve processing equipment for old and useless building steel pipe, includes the box, its characterized in that: the feeding mechanism comprises a storage box, the storage box is fixedly connected to the inner wall of the front side of the box body, a storage bin is arranged in the storage box, a feeding shaft is arranged in the storage bin and is rotationally connected with the inner wall of the upper side of the storage box, a feeding wheel is fixedly connected to the feeding shaft, four stable bins are distributed on the feeding wheel in an array manner, two clamping boxes are fixedly connected in each stable bin, the two clamping boxes and the central line of the stable bin are vertically symmetrical, a clamping bin is arranged in each clamping box, a first electromagnet is arranged in each clamping bin and is fixedly connected to the inner wall of one side of each clamping bin, which is far away from the central line of the stable bin, the first electromagnet is fixedly connected with a clamping spring, and the other end of the clamping spring is fixedly connected to a magnetic clamping rod, the magnetic clamping rod is connected with the inner wall of the clamping bin in a sliding manner, one section of the magnetic clamping rod, which is close to the central line of the stabilizing bin, is fixedly connected with a clamping plate, the clamping plate is connected with the stabilizing bin in a sliding manner, seven induction blocks are arranged in each stabilizing bin, the induction blocks are connected with induction bins in a sliding manner, the induction bins are arranged in the feeding wheel, first pressure inductors are arranged in the induction bins, the first pressure inductors are fixedly connected onto the inner wall, which is close to the feeding shaft, of one side of the induction bins, induction springs are fixedly connected onto the first pressure inductors, the other ends of the induction springs are fixedly connected onto the induction blocks, a bearing plate is arranged below the storage bin, the bearing plate is fixedly connected onto the inner wall on the rear side of the empty bin, a pushing plate is connected onto the bearing plate in a sliding manner, and a pushing spring is fixedly connected onto the upper end face, the upper end of the push spring is fixedly connected to the inner wall of the upper side of the empty bin, six second pressure sensors are arranged on the push plate, a second pressure sensor is arranged in each second pressure sensor, the second pressure sensor is fixedly connected to the inner wall of the rear side of the second pressure sensor, a pressure spring is fixedly connected to the second pressure sensor, the other end of the pressure spring is fixedly connected to a driving gear, the driving gear is connected with the second pressure sensor in a sliding manner, the left side and the right side of the pushing plate are respectively provided with a clamping plate, the two clamping plates are symmetrical left and right by taking the center line of the pushing plate as the center, each clamping plate is provided with an auxiliary bin, six auxiliary shafts are arranged in the auxiliary bin, the auxiliary shafts are rotatably connected with the inner walls of the front side and the rear side of the auxiliary bin, and each auxiliary shaft is fixedly connected with an auxiliary wheel;

2. The recycling and processing equipment for the waste building steel pipes according to claim 1, characterized in that: the feeding mechanism further comprises a first inductor, the first inductor is embedded in each magnetic clamping rod at the upper side, the first inductor can mutually induce with a second inductor, the second inductor is embedded in the upper end wall of the storage box, the upper end of the feeding shaft is rotatably connected with a first motor, the first motor is fixedly connected to the inner wall of the upper side of the empty bin, the rear end surface of the pushing plate is fixedly connected with a first rack, the first rack is meshed with a driving gear, the driving gear is arranged in a driving bin, the driving bin is arranged in a bearing plate, a third motor is further arranged in the driving bin, the third motor is fixedly connected to the inner wall of the right side of the driving bin, the left end surface of the driving bin is rotatably connected with a rotating shaft, and the left end of the rotating shaft is fixedly connected with the driving gear, every fixedly connected with supporting rod on the grip block, supporting rod and centre gripping storehouse inner wall sliding connection, the centre gripping storehouse is established at the centre gripping incasement, centre gripping case fixed connection be in on the left and right sides inner wall in empty storehouse, still be equipped with the second electro-magnet in the centre gripping storehouse, the second electro-magnet with keeping away from in centre gripping storehouse one side inner wall fixed connection of push plate, fixedly connected with centre gripping spring on the second electro-magnet, the other end fixed connection of centre gripping spring is in on the supporting rod.

3. The recycling and processing equipment for the waste building steel pipes according to claim 1, characterized in that: the cutting and shearing mechanism also comprises a fourth motor which is fixedly connected in the cutting box, the fourth motor is rotationally connected with a driving rotating shaft which is fixedly connected with the cutting blade, a second rack is fixedly connected on the lower end surface of the shearing knife and meshed with the sector gear, the sector gear is fixedly connected with the front end of the driving shaft, the driving shaft is rotationally connected with the stabilizing plate, the stabilizing plate is fixedly connected on the inner wall of the lower side of the empty bin, the driving shaft on the left side is also fixedly connected with a matching gear, the matching gear is meshed with the connecting gear which is fixedly connected with the connecting gear, the connecting gear with the steadying plate rotates to be connected, the connecting gear passes through extrusion wheel and right side drive shaft friction drive, the cutting piece is embedded to have temperature-sensing ware.