CN112691722A - Broken recovery plant is pulled out to old and useless cement pole - Google Patents

Abstract

The invention discloses a waste cement electric pole pulling, crushing and recycling device, which comprises a main body, wherein a pulling cavity with a left opening is arranged in the left end surface of a shell, a pulling moving block which slides with the wall of the pulling cavity in a friction manner is arranged in the pulling cavity, a clamping cavity with a left opening is arranged in the left end surface of the pulling moving block, a pulling and crushing mechanism for pulling out, recovering and damaging the waste cement electric pole is arranged in the clamping cavity, a driving cavity is arranged on the right side of the shell, and a driving control mechanism for providing power and control for the pulling and crushing mechanism is arranged in the driving cavity. The beneficial effects of safety, effectiveness, high efficiency and convenience are achieved.

Description

Broken recovery plant is pulled out to old and useless cement pole

Technical Field

The invention relates to the field of electric power, in particular to equipment for pulling, crushing and recycling waste cement electric poles.

Background

At present, cement electric poles are still applied in rural areas and fields far away from cities all the time, and are always the mainstream of power signal transmission because the cement electric poles are very easy to manufacture, namely, a plurality of steel bars are used as frameworks when the cement electric poles are moved, and then the cement electric poles are directly formed by injecting the cement, so that the cost is extremely low.

But when the concrete is exposed to long-term wind and rain, the concrete becomes aged and cracked, so that the concrete can be very dangerous to topple over at any time, the concrete needs to be pulled out or broken, then the cement is broken, then the reinforcing steel bars are recycled, the process becomes very dangerous if the concrete is manually treated, and time is consumed in the process of sundry crushing.

Disclosure of Invention

The invention aims to solve the technical problem of providing equipment for pulling, crushing and recycling waste cement electric poles, and overcoming the problems.

The invention is realized by the following technical scheme.

The invention relates to a waste cement electric pole pulling, crushing and recycling device which comprises a machine shell, wherein a pulling cavity with a leftward opening is arranged in the left end face of the machine shell, a pulling moving block which slides with the wall of the pulling cavity in a friction manner is arranged in the pulling cavity, a clamping cavity with a leftward opening is arranged in the left end face of the pulling moving block, a pulling and crushing mechanism for pulling out, recovering and damaging the waste cement electric pole is arranged in the clamping cavity, a driving cavity is arranged on the right side of the machine shell, a driving control mechanism for providing power and controlling for the pulling and crushing mechanism is arranged in the driving cavity, the pulling and crushing mechanism comprises a clamping block cavity which is arranged in the right wall of the clamping cavity, is communicated with the right wall of the clamping cavity and is provided with an opening at the right end, a clamping screw rod rotationally connected with the front and rear front walls is arranged in the clamping block cavity, a clamping driven belt, the clamping screw rod is further provided with a thread connection and a left end extending into the clamping screw rod, two clamping blocks in the clamping cavity are arranged, the left end of each clamping block is provided with a clamping groove, a cutting block cavity communicated with the clamping screw rod is arranged in the cavity wall of the lower end of the cavity, a cutting push block with a left end extending out of the cavity is arranged in the cutting block cavity, a cutting block spring is fixedly connected to the right end face of the cutting push block, the other end of the cutting block spring is fixed to the cavity wall of the right end of the cutting block cavity, a cutting block pull rope is fixedly connected to the right end face of the cutting push block, a blade cavity with a left opening is arranged in the left end face of the cutting push block, a blade shaft rotatably connected with the upper cavity wall and the lower cavity wall is arranged in the blade cavity, a blade is fixed to the upper end of the blade shaft, a blade driven groove is.

Beneficially, a blade motor is arranged in the right cavity wall of the blade cavity, the lower end of the blade motor is rotatably connected with a blade driving shaft, the blade driving shaft is provided with a blade power belt groove, the blade power belt is connected with the blade power belt in the blade power belt groove in a friction way, a pushing block cavity with a leftward opening is arranged in the left end surface of the cutting pushing block, a pushing block with a left end extending out of the cavity is arranged in the pushing block cavity, a push block spring is fixedly connected on the right end surface of the push block, the other end of the push block spring is fixed on the left end surface of the push block cavity, crushing block cavities communicated with the pulling-up cavity are arranged in the front cavity wall and the rear cavity wall in the middle of the pulling-up cavity, crushing blocks with front ends extending into the pulling-up cavity are arranged in the crushing block cavities, the crushing cavity is characterized in that the crushing rear end face is fixedly connected with a crushing spring, the other end of the crushing spring is fixed on the rear cavity wall of the crushing cavity, and the crushing rear end face is fixedly connected with a crushing pull rope.

The driving control mechanism comprises a damaged power cavity which is arranged in the rear cavity wall of the driving cavity and communicated with the driving cavity, a clamping driving cavity which is communicated with the driving cavity is further arranged in the front cavity wall of the driving cavity, a driving motor is fixedly connected to the front cavity wall of the driving cavity, a main shaft of which the rear end extends into the damaged power cavity is in power connection with the rear end face of the driving motor, a driving gear is fixed to the front end of the main shaft, a crushing wheel is fixed to the rear end of the main shaft, a crushing sleeve is connected to the rear end face of the crushing wheel in a rotating mode, a crushing pull rope is fixedly connected to the crushing sleeve, a pull-up power shaft of which the rear end extends into the rear cavity wall of the driving cavity is arranged on the left side of the driving cavity, and a pull-up lifting gear which is.

The pulling-up power shaft front end spline is connected with a pulling-up sliding gear meshed with the driving gear, a pulling-up sliding gear groove with a backward opening is formed in the rear end face of the pulling-up sliding gear, a pulling-up sliding gear block is arranged in the pulling-up sliding gear groove, a pulling-up sliding gear spring is fixedly connected with the rear end face of the pulling-up sliding gear block, the other end of the pulling-up sliding gear spring is fixed on the rear cavity wall of the driving cavity, a pulling-up electromagnet is further fixed on the left rear cavity wall of the driving cavity, a control groove communicated with the driving cavity is formed in the right front cavity wall of the driving cavity, a control shaft is slidably connected in the control groove, a control rotating block is rotatably connected on the rear end face of the control shaft, a control shaft spring is fixedly connected on the rear end face of the control rotating block, and the other end of the control.

Profitable, control shaft front end fixedly connected with drive gear meshed control gear, the control shaft rear end is fixed with the control locking wheel, the control shaft rear end is fixedly connected with control rope winding wheel still, fixedly connected with on the control rope winding wheel the cutting block stay cord, it has the front end to stretch into to go back power connection on the driving motor front end the tight drive shaft of clamp in the tight drive chamber, it presss from both sides tight drive gear to press from both sides tight drive shaft front end, it is equipped with the tight driven shaft of clamp that the front end stretches into its chamber wall to press from both sides tight drive chamber left, it is fixed with to press from both sides tight driven shaft rear end press from both sides tight driven gear of tight drive gear meshing, it is equipped with and presss from both sides tight race of power to press from both sides tight.

The invention has the beneficial effects that: the device simple structure, the simple operation, wherein including pulling out damage mechanism, this mechanism will old and useless wire pole is automatic to be pulled out, carries out holistic crushing and wherein reinforcing bar with it again and cuts off, this process bulk operation, and efficiency is very high, is equipped with control actuating mechanism wherein, effectively carries out work with each mechanism in this machine, has reached safe effective, high-efficient convenient beneficial effect.

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 front view of an embodiment of the present invention;

FIG. 2 is an enlarged schematic view of the structure A-A in FIG. 1 according to an embodiment of the present invention;

FIG. 3 is an enlarged schematic view of the structure B-B in FIG. 1 according to an embodiment of the present invention;

FIG. 4 is an enlarged schematic view of the structure C-C shown in FIG. 1 according to an embodiment of the present invention;

FIG. 5 is an enlarged schematic view of the D-D structure of FIG. 4 according to an embodiment of the present invention;

FIG. 6 is an enlarged schematic view of structure E in FIG. 1 according to an embodiment of the present invention;

fig. 7 is an enlarged schematic view of the structure F in fig. 3 according to the embodiment of the present invention.

Detailed Description

The invention will now be described in detail with reference to fig. 1-7, 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 waste cement electric pole pulling, crushing and recycling device comprises a machine shell 10, wherein a pulling cavity 16 with a leftward opening is formed in the left end face of the machine shell 10, a pulling moving block 11 which slides with the wall of the pulling cavity 16 in a friction manner is arranged in the pulling cavity 16, a clamping cavity 15 with a leftward opening is formed in the left end face of the pulling moving block 11, a pulling and crushing mechanism 65 for pulling, recovering and damaging the waste cement electric pole is arranged in the clamping cavity 15, a driving cavity 57 is formed in the right side of the machine shell 10, a driving control mechanism 64 for providing power and control for the pulling and crushing mechanism 65 is arranged in the driving cavity 57, the pulling and crushing mechanism 65 comprises a clamping block cavity 21 which is formed in the right wall of the clamping cavity 15, communicated with the clamping block cavity and provided with an opening at the right end, a clamping lead screw 12 which is rotatably connected with the front and rear front walls is arranged in the clamping block cavity 21, and a clamping driven belt groove 23 is, a clamping power belt 22 is connected in the clamping driven belt groove 23 in a friction manner, two clamping blocks 13 which are in threaded connection with the clamping screw 12 and the left ends of which extend into the clamping cavity 15 are further arranged on the clamping screw 12, clamping grooves 14 are formed in the left ends of the clamping blocks 13, a cutting block cavity 18 which is communicated with the clamping screw is arranged in the right cavity wall at the lower end of the pulling-up cavity 16, a cutting push block 17 of which the left end extends out of the cavity is arranged in the cutting block cavity 18, a cutting block spring 19 is fixedly connected to the right end surface of the cutting push block 17, the other end of the cutting block spring 19 is fixed to the right cavity wall of the cutting block cavity 18, a cutting block pull rope 20 is further fixedly connected to the right end surface of the cutting push block 17, a blade cavity 54 with a left opening is arranged in the left end surface of the cutting push block 17, a blade shaft 46 which is rotatably connected with the upper and lower cavity walls is arranged, the lower end of the blade shaft 46 is provided with a blade driven groove 47, and a blade power belt 49 is connected in the blade driven groove 47 in a friction mode.

Beneficially, a blade motor 53 is arranged in the right cavity wall of the blade cavity 54, the lower end of the blade motor 53 is rotatably connected with a blade driving shaft 67, a blade power belt groove 52 is arranged on the blade driving shaft 67, the blade power belt groove 52 is internally connected with the blade power belt 49 in a friction manner, a push block cavity 51 with a leftward opening is arranged in the left end face of the cutting push block 17, a push block 48 with a left end extending out of the cavity is arranged in the push block cavity 51, a push block spring 50 is fixedly connected on the right end face of the push block 48, the other end of the push block spring 50 is fixed on the left end face of the push block cavity 51, crushing block cavities 43 communicated with the push block cavity are arranged in the front and rear cavity walls in the middle of the pulling-up cavity 16, a crushing block 45 with a front end extending into the pulling-up cavity 16 is arranged in the crushing cavity 43, a crushing spring 44 is fixedly connected on the rear end face of the crushing cavity, the rear end face of the broken block 45 is fixedly connected with a breaking pull rope 31.

Advantageously, the driving control mechanism 64 includes a damaged power cavity 33 disposed in a rear cavity wall of the driving cavity 57 and communicated therewith, a clamping driving cavity 26 communicated therewith is further disposed in a front cavity wall of the driving cavity 57, a driving motor 24 is fixedly connected to a front cavity wall of the driving cavity 57, a main shaft 32 having a rear end extending into the damaged power cavity 33 is dynamically connected to a rear end surface of the driving motor 24, a driving gear 61 is fixed to a front end of the main shaft 32, a crushing wheel 35 is fixed to a rear end of the main shaft 32, a crushing sleeve 34 is rotatably connected to a rear end surface of the crushing wheel 35, the crushing pull rope 31 is fixedly connected to the crushing sleeve 34, a pull-up power shaft 63 having a rear end extending into a rear cavity wall of the driving cavity 57 is disposed on the left side of the driving cavity 57, and a pull-up lifting gear 30 engaged with a right end surface of the pull-up moving block 11 is fixed to.

Advantageously, the front end of the pulling power shaft 63 is connected with a pulling sliding gear 66 in a spline manner, which is meshed with the driving gear 61, the rear end surface of the pulling-up sliding gear 66 is provided with a pulling-up sliding gear groove 58 with a backward opening, a pulling-up sliding gear block 60 is arranged in the pulling-up sliding gear groove 58, a pulling-up sliding gear spring 62 is fixedly connected with the rear end surface of the pulling-up sliding gear block 60, the other end of the pulling-up sliding gear spring 62 is fixed on the rear cavity wall of the driving cavity 57, a pulling-up electromagnet 56 is also fixed on the left rear cavity wall of the driving cavity 57, a control groove 39 communicated with the driving cavity 57 is arranged in the front cavity wall and the rear cavity wall on the right side of the driving cavity 57, a control shaft 42 is connected in the control groove 39 in a sliding way, the rear end face of the control shaft 42 is rotatably connected with a control rotating block 37, the rear end face of the control rotating block 37 is fixedly connected with a control shaft spring 36, and the other end of the control shaft spring 36 is fixed on the rear cavity wall of the control groove 39.

Advantageously, a control gear 41 meshed with the driving gear 61 is fixedly connected to the front end of the control shaft 42, the rear end of the control shaft 42 is fixedly provided with a control stop wheel 40, the rear end of the control shaft 42 is also fixedly connected with a control rope winding wheel 68, the control rope winding wheel 68 is fixedly connected with the cutting block pull rope 20, the front end surface of the driving motor 24 is also dynamically connected with a clamping driving shaft 27 the front end of which extends into the clamping driving cavity 26, the front end of the clamping driving shaft 27 is fixed with a clamping driving gear 25, the left side of the clamping driving cavity 26 is provided with a clamping driven shaft 69 the front end of which extends into the cavity wall of the clamping driving cavity, a clamp driven gear 29 engaged with the clamp driving gear 25 is fixed to a rear end of the clamp driven shaft 69, the front end of the clamping driven shaft 69 is provided with a clamping power belt groove 28, and the clamping power belt 22 is connected in the clamping power belt groove 28 in a friction mode.

Sequence of mechanical actions of the whole device:

1: in the initial state, the pulling electromagnet 56 works to pull the sliding gear 66 to be attracted, so that the sliding gear is disengaged from the driving gear 61, the control electromagnet 38 works to pull the control stop wheel 40 to be attracted, so that the control gear 41 is disengaged from the driving gear 61, at the moment, the cutting block pulling rope 20 is tensioned, so that the cutting push block 17 is pulled into the cutting block cavity 18, the two clamping blocks 13 are in a mutually separated state, the pulling moving block 11 is in a state that the upper end of the pulling moving block does not extend out of the upper cavity wall of the clamping cavity 15, the crushing block 45 is pulled into the moving block 11 to be pressed into the cavity, the crushing pulling rope 31 is loosened, and the push block 48 extends out of the cavity under the action of the.

2: when the device needs to work, a person can push the device to enable the waste cement electric poles to be arranged in the clamping cavity 15, then the driving motor 24 is enabled to work in a forward rotation mode, so that the driving motor 24 drives the main shaft 32, the driving gear 61, the crushing wheel 35 and the crushing sleeve 34 to rotate, the driving motor 24 further drives the clamping driving shaft 27, the clamping driving gear 25, the clamping driven gear 29 and the clamping driven shaft 69 to rotate, the clamping driven shaft 69 drives the clamping screw 12 to rotate through the clamping power belt 22, so that the clamping screw 12 drives the two clamping blocks 13 to approach each other, the clamping groove 14 clamps the waste cement electric poles, at the moment, the pulling electromagnet 56 stops working, the pulling sliding gear 66 is loosened to be meshed with the rotating driving gear 61, so that the driving gear 61 drives the pulling sliding gear 66, the pulling power shaft 63 and the pulling lifting gear 30 to rotate, the pulling lifting gear 30 drives the pulling moving block 11 to move upwards to pull the waste electric poles, at this time, when the waste electric pole is pulled out of the ground and continuously ascends until the pulling moving block 11 releases the crushing block 45 and the crushing block is popped out of the cavity under the action of the crushing spring 44, the crushing pull rope 31 is tensioned, then the electromagnet 56 is pulled to work, the pulling sliding gear 66 is disengaged from the driving gear 61, at this time, the crushing pull rope 31 is tensioned and loosened, two crushing blocks 45 move in the crushing block cavity 43 and are repeatedly closed, the pulled part of the electric pole is repeatedly hammered, the waste cement layer of the waste electric pole is crushed and falls off, then the driving motor 24 rotates reversely to make the two clamping blocks 13 mutually far away, the crushed part falls, after the electric pole falls, the driving motor 24 rotates forwards again to continuously clamp the electric pole, the upper layer of the crushed part falls and is continuously crushed, the control electromagnet 38 stops working in the clamping process, the control gear 41 is engaged with the driving gear 61, and the driving gear 61 drives the control gear 41, The control shaft 42, the control stop wheel 40 and the control rope winding wheel 68 rotate, so that the control rope winding wheel 68 releases the cutting block pull rope 20, at the moment, the cutting push block 17 extends out of the cavity under the action of the cutting block spring 19, meanwhile, the blade motor 53 works to drive the blade driving shaft 67 to rotate, so that the blade driving shaft 67 drives the blade shaft 46 and the blade 55 to rotate through the blade power belt 49, so that the blade 55 breaks and cuts off steel bar groups after the electric pole is broken, meanwhile, the push block 48 pushes the steel bar groups out of the clamping cavity 15, then, the driving motor 24 rotates reversely, the cutting block pull rope 20 is wound tightly, the cutting push block 17 is pulled back into the cutting block cavity 18 again, the two clamping blocks 13 drop the electric pole again, then, the electric pole rotates forwards again, and the whole electric pole is recycled.

3: after the recovery is finished, the pulling electromagnet 56 stops working, the pulling sliding gear 66 is meshed with the driving gear 61, the driving motor 24 rotates reversely, the pulling lifting gear 30 resets the pulling moving block 11 downwards, the crushing block 45 is pressed into the crushing block cavity 43 in the process, the control electromagnet 38 controls the stop wheel 40 to attract again after the cutting block pulling rope 20 is wound tightly, and the mechanism in the machine resets to finish the work.

The above embodiments are merely illustrative of the technical ideas and features of the present invention, and the purpose thereof is to enable those skilled in the art 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 (5)

1. The utility model provides a broken recovery plant is pulled out to old and useless cement pole, includes the main part, its characterized in that: a pulling cavity with a leftward opening is arranged in the left end face of the shell, a pulling moving block which slides with the wall of the pulling cavity in a friction manner is arranged in the pulling cavity, a clamping cavity with a leftward opening is arranged in the left end face of the pulling moving block, a pulling crushing mechanism which pulls out waste cement poles for recycling and damaging is arranged in the clamping cavity, a driving cavity is arranged on the right side of the shell, a driving control mechanism which provides power and control for the pulling crushing mechanism is arranged in the driving cavity, the pulling crushing mechanism comprises a clamping block cavity which is arranged in the right wall of the clamping cavity, is communicated with the clamping cavity and is provided with an opening at the right end, a clamping lead screw which is rotatably connected with the front and rear front walls is arranged in the clamping block cavity, a clamping driven belt groove is arranged at the front end of the clamping lead screw, a clamping power belt is in friction connection with the clamping lead screw, and two clamping blocks which are in threaded connection with, the utility model discloses a cutting tool, including cutting block, tight piece, cutting block pull rope, blade axle, blade driven groove, blade power belt, cutting block, blade spring, blade stay cord, blade shaft upper end is fixed with the blade, it all is equipped with tight groove to press from both sides tight piece left end, it is equipped with the cutting block chamber that communicates with it in the chamber lower extreme right side chamber wall to pull out the chamber, be equipped with the cutting ejector pad that the left end stretches out the chamber in the cutting block intracavity, fixedly connected with cutting block spring on the cutting ejector pad right-hand member face, the cutting block spring other end is fixed on the cutting block chamber right side chamber wall, still fixedly connected with cutting block pull rope on the cutting ejector pad right-hand member face, be equipped with the blade chamber left of opening.

2. The equipment for pulling, crushing and recovering the waste cement electric pole according to claim 1 is characterized in that: a blade motor is arranged in the right cavity wall of the blade cavity, the lower end of the blade motor is rotationally connected with a blade driving shaft, the blade driving shaft is provided with a blade power belt groove, the blade power belt is connected with the blade power belt in the blade power belt groove in a friction way, a pushing block cavity with a leftward opening is arranged in the left end surface of the cutting pushing block, a pushing block with a left end extending out of the cavity is arranged in the pushing block cavity, a push block spring is fixedly connected on the right end surface of the push block, the other end of the push block spring is fixed on the left end surface of the push block cavity, crushing block cavities communicated with the pulling-up cavity are arranged in the front cavity wall and the rear cavity wall in the middle of the pulling-up cavity, crushing blocks with front ends extending into the pulling-up cavity are arranged in the crushing block cavities, the crushing cavity is characterized in that the crushing rear end face is fixedly connected with a crushing spring, the other end of the crushing spring is fixed on the rear cavity wall of the crushing cavity, and the crushing rear end face is fixedly connected with a crushing pull rope.

3. The equipment for pulling, crushing and recovering the waste cement electric pole according to claim 1 is characterized in that: the driving control mechanism comprises a damaged power cavity which is arranged in the rear cavity wall of the driving cavity and communicated with the driving cavity, a clamping driving cavity which is communicated with the driving cavity is further arranged in the front cavity wall of the driving cavity, a driving motor is fixedly connected to the front cavity wall of the driving cavity, a main shaft of which the rear end extends into the damaged power cavity is in power connection with the rear end surface of the driving motor, a driving gear is fixed to the front end of the main shaft, a crushing wheel is fixed to the rear end of the main shaft, a crushing sleeve is rotatably connected to the rear end surface of the crushing wheel, a crushing pull rope is fixedly connected to the crushing sleeve, a pull-up power shaft of which the rear end extends into the rear cavity wall of the driving cavity is arranged on the left side of the driving cavity, and a pull-up lifting gear which is meshed.

4. The equipment for pulling, crushing and recovering the waste cement electric pole according to claim 1 is characterized in that: the power shaft pulling and pulling mechanism is characterized in that a spline at the front end of the pulling power shaft is connected with a pulling sliding gear meshed with the driving gear, a pulling sliding gear groove with a backward opening is formed in the rear end face of the pulling sliding gear, a pulling sliding gear block is arranged in the pulling sliding gear groove, a pulling sliding gear spring is fixedly connected with the rear end face of the pulling sliding gear block, the other end of the pulling sliding gear spring is fixed on the rear cavity wall of the driving cavity, a pulling electromagnet is further fixed on the rear cavity wall on the left side of the driving cavity, a control groove communicated with the driving cavity is formed in the right front cavity wall and the rear cavity wall of the driving cavity, a control shaft is slidably connected in the control groove, a control rotating block is rotatably connected onto the rear end face of the control shaft, a control shaft spring is fixedly connected onto the rear end face of the control rotating block, and the.

5. The equipment for pulling, crushing and recovering the waste cement electric pole according to claim 1 is characterized in that: control shaft front end fixedly connected with drive gear meshed control gear, the control shaft rear end is fixed with control locking wheel, the control shaft rear end is fixedly connected with control rope winding wheel still, fixedly connected with on the control rope winding wheel cutting block stay cord, it has the front end to stretch into to go back power connection on the driving motor front end the tight drive shaft of clamp in the tight drive chamber, it is fixed with and presss from both sides tight drive gear to press from both sides tight drive shaft front end, it is equipped with the tight driven shaft of clamp that the front end stretches into its chamber wall to press from both sides tight drive chamber left, it is fixed with to press from both sides tight driven shaft rear end press from both sides tight driven gear of tight drive gear meshing, it is equipped with and presss from both sides tight race to press from both sides tight driven.

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