CN112427442A - Be used for abandonment pole steel recovery unit - Google Patents

Abstract

The invention discloses a device for recovering steel of a waste electric pole, which comprises a machine body and is characterized in that: the machine body is internally provided with a power space, the power space is internally provided with a power mechanism for providing power for the device, the left side of the power space is provided with a cut-off space, the cut-off space is internally provided with a cut-off mechanism, the cut-off mechanism is used for cutting off the outer concrete of the waste electric pole, and the right side of the cut-off space is provided with a pushing space.

Description

Be used for abandonment pole steel recovery unit

Technical Field

The invention belongs to the field related to electric poles, and particularly relates to a device for recovering waste electric pole steel.

Background

The electric poles are electric bridges, electricity is transported to various places, common electric poles are wooden electric poles and cement electric poles, the wooden electric poles and the cement electric poles are different in height, stand between plain mountains and spread around people, and construction of a city enables some electric poles to be abandoned and further needs to be recycled;

at present, the concrete on the outer layer of the electric pole is generally knocked manually to recover the steel inside, which not only generates great noise, but also generates much dust which has great influence on the surrounding environment.

Disclosure of Invention

The invention aims to solve the problems in the prior art, and provides a waste electric pole steel recovery device which is more convenient to use, saves labor and has higher efficiency.

The purpose of the invention can be realized by the following technical scheme: the utility model provides a be used for abandonment pole steel recovery unit, includes the organism, its characterized in that: be provided with the power space in the organism, be equipped with the power unit that is used for providing power for the device in the power space, power space left side is provided with cuts the space, it is equipped with the truncation mechanism in the space to cut, truncation mechanism is used for abandonment pole outer layer concrete to cut, it is provided with the ejection space to cut the space right side, be equipped with ejection mechanism in the ejection space, ejection mechanism is used for hitting of pole outer layer concrete and falls.

Preferably, power unit includes fixed mounting and is in the power motor of power space right side wall, power motor output fixed connection has the power pivot, the power pivot extends to run through left the power space left side wall gets into cut the space, be in the power space cut the space in the cover be equipped with drive gear and drive carousel, drive gear is in drive carousel right side, drive gear with power pivot fixed connection, the drive carousel with power pivot fixed connection, six fan-shaped pieces of fixedly connected with on the drive carousel, six the fan-shaped piece is in the equidistance distributes on the drive carousel outer lane.

Preferably, the cutting mechanism comprises a circular rotating chute arranged on the left opening of the right side wall of the cutting space, two fixed slide bars are connected in the rotating chute in a sliding manner, the two fixed slide bars are symmetrically distributed up and down about the central line of the rotating chute, the left end faces of the two fixed slide bars are fixedly connected with a cutting box body, the outer ring end face of the cutting box body is provided with meshing teeth, the cutting box body is meshed with the driving gear, a second through hole which penetrates left and right is arranged in the cutting box body, the inner wall of the second through hole is communicated with four conical block chutes, the four conical block chutes are symmetrically distributed about the center of the second through hole, each conical block chute is communicated with a cutting cavity far away from the side wall of the second through hole, and each cutting cavity is fixedly connected with two cutting slide bars far away from the side wall of the second through hole, the two cutting slide bars are symmetrically distributed around the center of the cutting cavity, the corresponding two cutting slide bars are sleeved with cutting slide plates, the cutting slide plates are in sliding connection with the cutting slide bars, each cutting slide bar is sleeved with a cutting spring, one end of each cutting spring is fixedly connected with the side wall of the cutting cavity, the other end of each cutting spring is fixedly connected with the cutting slide plate, the lower end face of each cutting slide plate is fixedly connected with a cutting cone block, the lower end of each cutting cone block is conical, each cutting cone block is respectively in sliding connection with the corresponding cone block chute, the left end face of each cutting box is fixedly connected with an extrusion box body, a first through hole which penetrates left and right is arranged in the extrusion box body, four extrusion grooves which are far away from the first through hole are arranged in the extrusion box body, and the openings corresponding to the cutting cavity are respectively in sliding connection with extrusion slide plates, each extrusion sliding plate respectively extends rightwards to penetrate through the right side wall of the extrusion spring and the left end face of the chopping box body to enter the corresponding chopping cavity, each extrusion sliding plate is respectively abutted against the corresponding extrusion sliding plate, an extrusion spring is connected between the end face of each extrusion sliding plate, which is close to the first through opening, and the side wall of each extrusion groove, which is close to the first through opening, and an extrusion abutting block is fixedly connected on the end face of each extrusion sliding plate, which is far away from the first through opening, when the driving turntable rotates, each fan-shaped block is abutted against the extrusion abutting block, the left side wall of the intercepting space is communicated with a feeding channel with a left opening, the feedstock channel is used for the entering of abandonment pole, it has the haulage path to cut space right side wall intercommunication, the haulage path right side wall with the space of shoveling is linked together.

Under the initial state, the sector block and the extrusion abutting block are not abutted, when the electric pole needs to be recovered, the electric pole is fed through the feeding channel, at the moment, the power motor is started, so that the power rotating shaft is driven to rotate, the driving gear is driven to rotate, the cutting box body is driven to rotate, the extrusion box body is driven to rotate, the driving turntable is driven to rotate, so that the sector block is abutted to the extrusion abutting block, the extrusion abutting block is pushed to slide downwards, the extrusion spring is compressed, the extrusion sliding plate is driven to slide downwards, the cutting sliding plate is driven to slide towards the direction close to the second penetration opening, the cutting spring is stretched, the cutting cone block is driven to slide towards the direction close to the cone block sliding groove, and the cement on the surface of the electric pole is subjected to ring cutting segmentation, work as the fan-shaped piece with when extrusion butt piece breaks away from the butt, the extrusion spring resets, thereby makes cut the slide and reset, thereby makes cut the conical block and reset to prepare to carry out next circulation, carry out the circular cutting segmentation to the concrete on pole surface, loosen the concrete segmentation, thereby make that the concrete in the pole is got rid of cleaner, the reinforcing bar surface adhesion's concrete in the pole that has significantly reduced.

Preferably, the ejection mechanism comprises a through shaft rotatably connected and installed on the lower side wall of the power space, the through shaft extends downwards to penetrate through the lower side wall of the power space and enter the ejection space, a through bevel gear is fixedly connected to the upper end surface of the through shaft, a power bevel gear is sleeved in the power space on the power rotating shaft and is meshed with the through bevel gear, a push wheel is fixedly connected to the lower end surface of the through shaft, two ejection slide bars are fixedly connected to the right side wall of the extrusion abutting block, two ejection slide bars are symmetrically distributed in the vertical direction relative to the center line of the ejection space, two ejection slide plates are sleeved on the two ejection slide bars, when the through shaft rotates, the push wheel abuts against the ejection slide plates, the ejection slide plates are slidably connected with the ejection slide bars, and each ejection slide bar is sleeved with an ejection spring, one end of the ejection spring is fixedly connected with the right side wall of the ejection space, the other end of the ejection spring is fixedly connected with the right end face of the ejection sliding plate, the right end face of the ejection sliding plate is fixedly connected with an ejection sliding block, the front side face of the ejection space is provided with a shoveling space, the rear side wall of the shoveling space is provided with two conical cutter sliding grooves with forward openings, the two conical cutter sliding grooves are vertically and symmetrically distributed about the center line of the shoveling space, each conical cutter sliding groove is internally and respectively connected with an ejection conical cutter in a sliding manner, the right end of each ejection conical cutter is conical, the left end face of each ejection conical cutter is fixedly connected with an ejection hinge block, an ejection hinge arm is respectively connected between each ejection hinge block and the ejection sliding block, one end of each ejection hinge arm is hinged with the ejection sliding block, the other end of each ejection hinge block is hinged with the corresponding ejection hinge block, and a reset spring is connected between the left end face of each ejection hinge block and the left side, the lateral wall intercommunication has the downward waste material mouth of opening under the spading space, the waste material mouth is used for the discharge of waste material, spading space right side wall intercommunication has the export of carrying out the delivery port of opening right, the export of carrying out the transportation is used for the transport of steel material.

In an initial state, the pushing wheel is not abutted with the pushing sliding plate, when the electric pole loosened by sections enters the shoveling space, the power rotating shaft rotates to drive the power bevel gear to rotate so as to drive the through shaft to rotate so as to drive the pushing wheel to rotate, when the pushing wheel is abutted with the pushing sliding plate, the pushing sliding plate is pushed to slide rightwards so as to compress the pushing spring, the pushing sliding block is driven to slide rightwards so as to drive the pushing articulated arm to move rightwards, the pushing articulated block is driven to move rightwards so as to drive the pushing conical cutter to slide rightwards, so that the concrete loosened by sections is collided, the fallen concrete falls from the waste material port, and the reinforcing steel bars in the electric pole are greatly protected, meanwhile, the influence of noise on workers is greatly reduced, and the working environment of the workers is improved.

In conclusion, the beneficial effects of the invention are as follows: the concrete removing device can effectively recycle steel materials in the waste electric poles, and the concrete removing on the surfaces of the traditional waste electric poles is time-consuming and labor-consuming, and the working environment of workers is very severe, so that the concrete removing on the surfaces of the electric poles is greatly influenced.

Drawings

Fig. 1 is a sectional view showing the overall structure of the apparatus for recycling steel for a waste electric pole.

Fig. 2 is a cross-sectional view taken at a-a of fig. 1 in accordance with the present invention.

Fig. 3 is a cross-sectional view at B-B of fig. 1 of the present invention.

Fig. 4 is an enlarged partial schematic view of the invention at C in fig. 1.

Fig. 5 is an enlarged partial schematic view of the invention at D in fig. 1.

In the figure, a machine body 10; a power motor 11; a power space 12; a power rotating shaft 13; a through shaft 14; a through bevel gear 15; a power bevel gear 16; the intercepting space 17; a drive gear 18; a drive turntable 19; a segment 20; the pressing abutment block 21; an extrusion case 22; a pressing slide plate 23; the extrusion groove 24; a pressing spring 25; a feed channel 26; a first through opening 27; a second through-hole 28; a cutoff box body 29; a pushing wheel 30; a push space 31; a push slide 32; a waste port 33; a push-out hinge block 34; pushing the conical cutter 35; a conical cutter chute 36; the scooping space 37; pushing the sliding rod 38; a push spring 39; pushing against the hinged arm 40; a push slider 41; the transport passage 42; a cutoff chamber 43; a truncating slide bar 44; a cut-off spring 45; a cutoff slide plate 46; a truncated cone block 47; a tapered block chute 48; a fixed slide bar 49; a rotating chute 50; a transport outlet 51; a return spring 52.

Detailed Description

The following are specific embodiments of the present invention and are further described with reference to the drawings, but the present invention is not limited to these embodiments.

As shown in fig. 1, a steel recycling device for abandoned poles comprises a machine body 10, and is characterized in that: be provided with power space 12 in the organism 10, be equipped with the power unit that is used for providing power for the device in the power space 12, power space 12 left side is provided with cuts space 17, cut and be equipped with the truncation mechanism in space 17, the truncation mechanism is used for abandonment pole outer layer concrete to cut, it is provided with ejection space 31 to cut space 17 right side, be equipped with ejection mechanism in the ejection space 31, ejection mechanism is used for hitting of pole outer layer concrete.

Combine figure 1 and fig. 3 to show, power unit includes fixed mounting in the power motor 11 of the 12 right side walls in power space, 11 output end fixedly connected with power shaft 13 of power motor, power shaft 13 extends to run through left power space 12 left side wall gets into cut space 17, power space 12 is gone up the cover is equipped with drive gear 18 and drive carousel 19 in cutting space 17, drive gear 18 is in drive carousel 19 right side, drive gear 18 with power shaft 13 fixed connection, drive carousel 19 with power shaft 13 fixed connection, six fan-shaped pieces 20 of fixedly connected with on the drive carousel 19, six fan-shaped pieces 20 are in equidistant distribution in drive carousel 19 outer lane.

Referring to fig. 1, 2, 4 and 5, the blocking mechanism includes a circular rotating chute 50 disposed at the left side of the right side wall of the blocking space 17, two fixed slide bars 49 are slidably connected in the rotating chute 50, the two fixed slide bars 49 are vertically and symmetrically distributed about the center line of the rotating chute 50, a blocking box 29 is fixedly connected to the left end face of the two fixed slide bars 49, engaging teeth are disposed on the outer ring end face of the blocking box 29, the blocking box 29 is engaged with the driving gear 18, a second through hole 28 passing through the blocking box 29 from left to right is disposed in the blocking box 29, four conical block chutes 48 are communicated with the inner wall of the second through hole 28, the four conical block chutes 48 are centrally and symmetrically distributed about the center of the second through hole 28, and a blocking cavity 43 is communicated with the side wall of each conical block chute 48 away from the second through hole 28, every cut chamber 43 and keep away from the second runs through two slide bars 44 that cut of fixedly connected with on the 28 directions of lateral wall of mouth, two cut slide bar 44 about cut chamber 43 center and be front and back symmetric distribution, corresponding two cut slide bar 44 go up the cover and be equipped with and cut slide plate 46, cut slide plate 46 with cut slide bar 44 sliding connection, every cut slide bar 44 go up respectively the cover and be equipped with and cut spring 45, cut spring 45 one end with cut chamber 43 lateral wall fixed connection, the other end with cut slide plate 46 fixed connection, every cut slide plate 46 lower extreme fixedly connected with and cut cone block 47, cut cone block 47 lower extreme and be the toper, every cut cone block 47 respectively with correspond cone block spout 48 sliding connection, cut box 29 left end fixedly connected with and extrude box 22, be provided with the first through-hole 27 that runs through about in the extrusion box 22, four extrusion grooves 24 corresponding to the cut-off cavity 43 and having openings far away from the first through hole 27 are arranged in the extrusion box body 22, each extrusion groove 24 is connected with an extrusion sliding plate 23 in a sliding manner, each extrusion sliding plate 23 extends rightwards to penetrate through the right side wall of the extrusion spring 25 and the left end face of the cut-off box body 29 to enter the corresponding cut-off cavity 43, each extrusion sliding plate 23 is abutted against the corresponding extrusion sliding plate 23, an extrusion spring 25 is connected between the end face of each extrusion sliding plate 23 close to the direction of the first through hole 27 and the side wall of the extrusion groove 24 close to the direction of the first through hole 27, each extrusion sliding plate 23 is fixedly connected with an extrusion abutting block 21 far away from the end face of the direction of the first through hole 27, when the driving turntable 19 rotates, each sector block 20 is abutted against the extrusion abutting block 21, intercepting space 17 left side wall intercommunication has opening feedstock channel 26 to the left, feedstock channel 26 is used for the entering of abandonment pole, intercepting space 17 right side wall intercommunication has transportation channel 42, transportation channel 42 right side wall with it is linked together to shovel space 37.

In the initial state, the sector 20 and the extrusion abutting block 21 are not abutted, when the electric pole needs to be recovered, the electric pole is fed through the feeding channel 26, at this time, the power motor 11 is turned on, so as to drive the power rotating shaft 13 to rotate, so as to drive the driving gear 18 to rotate, so as to drive the block box 29 to rotate, so as to drive the extrusion box 22 to rotate, so as to drive the driving turntable 19 to rotate, so that the sector 20 abuts against the extrusion abutting block 21, so as to push the extrusion abutting block 21 to slide downwards, so as to compress the extrusion spring 25, so as to drive the extrusion sliding plate 23 to slide downwards, so as to drive the block sliding plate 46 to slide towards the direction close to the second through hole 28, so as to stretch the block spring 45, so as to drive the block cone 47 to slide towards the direction close to the cone chute 48, carry out the circular cutting segmentation to the cement on pole surface, work as fan-shaped block 20 with when extrusion butt piece 21 breaks away from the butt, extrusion spring 25 resets, thereby makes cut slide 46 and reset, thereby makes cut cone 47 resets to prepare to carry out next circulation, carry out the circular cutting segmentation to the concrete on pole surface, loosen the concrete segmentation, thereby make that the concrete in the pole is got rid of cleaner, the reinforcing bar surface adhesion's concrete in the pole that has significantly reduced.

Referring to fig. 1 and 3, the ejector mechanism includes a through shaft 14 rotatably connected to the lower side wall of the power space 12, the through shaft 14 extends downward to penetrate through the lower side wall of the power space 12 and enter the ejector space 31, a through bevel gear 15 is fixedly connected to the upper end surface of the through shaft 14, a power bevel gear 16 is sleeved on the power shaft 13 in the power space 12, the power bevel gear 16 is engaged with the through bevel gear 15, an ejector roller 30 is fixedly connected to the lower end surface of the through shaft 14, two ejector slide bars 38 are fixedly connected to the right side wall of the extrusion abutting block 21, two ejector slide bars 38 are vertically and symmetrically distributed about the center line of the ejector space 31, two ejector slide bars 32 are sleeved on the two ejector slide bars 38, and when the through shaft 14 rotates, the ejector roller 30 abuts against the ejector slide plates 32, the pushing sliding plate 32 is slidably connected with the pushing sliding rods 38, each pushing sliding rod 38 is sleeved with a pushing spring 39, one end of each pushing spring 39 is fixedly connected with the right side wall of the pushing space 31, the other end of each pushing spring 39 is fixedly connected with the right end face of the pushing sliding plate 32, the right end face of the pushing sliding plate 32 is fixedly connected with a pushing sliding block 41, the front side face of the pushing space 31 is provided with a shoveling space 37, the rear side wall of the shoveling space 37 is provided with two conical cutter sliding grooves 36 with forward openings, the two conical cutter sliding grooves 36 are vertically and symmetrically distributed relative to the central line of the shoveling space 37, each conical cutter sliding groove 36 is slidably connected with a pushing conical cutter 35, the right end of each pushing conical cutter 35 is conical, the left end face of each pushing conical cutter 35 is fixedly connected with a pushing hinge block 34, a pushing hinge arm 40 is connected between each pushing hinge block 34 and the pushing sliding block 41, the articulated arm 40 one end of top push with the slider 41 that pushes away is articulated, the other end and corresponding the articulated piece 34 that pushes away is articulated, every the articulated piece 34 left end face of top push with correspond be connected with reset spring 52 between the wall of awl sword spout 36 left side, spading space 37 downside wall intercommunication has opening decurrent waste gate 33, waste gate 33 is used for the discharge of waste material, spading space 37 right side wall intercommunication has opening transportation export 51 to the right, transportation export 51 is used for the transport of steel material.

In the initial state, the pushing wheel 30 is not abutted with the pushing sliding plate 32, when the electric pole loosened by stages enters the shoveling space 37, the power rotating shaft 13 rotates to drive the power bevel gear 16 to rotate, thereby driving the through bevel gear 15 to rotate, thereby driving the through shaft 14 to rotate, thereby driving the pushing wheel 30 to rotate, when the pushing wheel 30 abuts against the pushing sliding plate 32, thereby pushing the pushing sliding plate 32 to slide right, thereby compressing the pushing spring 39, thereby driving the pushing slider 41 to slide right, thereby driving the pushing hinge arm 40 to move right, thereby driving the pushing hinge block 34 to move right, thereby driving the pushing cone knife 35 to slide right, thereby knocking off the loosened concrete opening, and dropping off the fallen concrete from the waste 33, the reinforcing bar in the pole has so greatly protected, simultaneously greatly reduced the noise to workman's influence, improved workman's operational environment.

The foregoing illustrates and describes the principles, general features, and advantages of the present invention. It will be understood by those skilled in the art that the present invention is not limited to the embodiments described above, which are given by way of illustration of the principles of the present invention, and that various changes and modifications may be made without departing from the spirit and scope of the invention as defined by the appended claims. The scope of the invention is defined by the appended claims and equivalents thereof.

Claims (4)

1. The utility model provides a be used for abandonment pole steel recovery unit, includes organism (10), its characterized in that: be provided with power space (12) in organism (10), be equipped with the power unit that is used for providing power for the device in power space (12), power space (12) left side is provided with cuts space (17), be equipped with the truncation mechanism in cutting space (17), the truncation mechanism is used for abandonment pole outer layer concrete's truncation, it is provided with ejection space (31) to cut space (17) right side, be equipped with ejection mechanism in ejection space (31), ejection mechanism is used for hitting of pole outer layer concrete.

2. The recycling device for steel materials of abandoned electric poles as claimed in claim 1, characterized in that: the power mechanism comprises a power motor (11) fixedly arranged on the right side wall of the power space (12), the output end of the power motor (11) is fixedly connected with a power rotating shaft (13), the power rotating shaft (13) extends leftwards to penetrate through the left side wall of the power space (12) to enter the intercepting space (17), a driving gear (18) and a driving turntable (19) are sleeved in the intercepting space (17) on the power space (12), the driving gear (18) is arranged on the right side of the driving turntable (19), the driving gear (18) is fixedly connected with the power rotating shaft (13), drive carousel (19) with power pivot (13) fixed connection, six sectorial blocks (20) of fixedly connected with on drive carousel (19), six sectorial blocks (20) are in equidistantly distributed on drive carousel (19) outer lane.

3. The recycling device for steel materials of abandoned electric poles as claimed in claim 1, characterized in that: the cutting mechanism comprises a circular rotating sliding groove (50) which is arranged on the left side of the opening of the right side wall of the cutting space (17), two fixed sliding rods (49) are connected in the rotating sliding groove (50) in a sliding manner and are symmetrically distributed up and down about the center line of the rotating sliding groove (50), two fixed sliding rods (49) are fixedly connected with the left end face of the cutting box body (29), meshing teeth are arranged on the outer ring end face of the cutting box body (29), the cutting box body (29) is meshed with the driving gear (18), a left through hole and a right through hole (28) are formed in the cutting box body (29), four conical block sliding grooves (48) are communicated with the inner wall of the second through hole (28) and are symmetrically distributed in the center of the second through hole (28), and each conical block sliding groove (48) is far away from the side wall of the second through hole (28) and is communicated with a cutting cavity (43), every cut chamber (43) and keep away from the second runs through two fixedly connected with on the lateral wall of wearing hole (28) and cuts slide bar (44), two cut slide bar (44) about cut chamber (43) center and be front and back symmetric distribution, corresponding two cut the cover on slide bar (44) and be equipped with and cut slide plate (46), cut slide plate (46) with cut slide bar (44) sliding connection, every cut and overlap respectively on slide bar (44) and be equipped with and cut spring (45), cut spring (45) one end with cut chamber (43) lateral wall fixed connection, the other end with cut slide plate (46) fixed connection, every cut end face fixedly connected with under slide plate (46) and cut awl piece (47), it is the toper to cut awl piece (47) lower extreme, every cut awl piece (47) respectively with correspond awl piece spout (48) sliding connection, cut box (29) left end face fixedly connected with extrusion box (22), be provided with in the extrusion box (22) and control first through-hole (27) that run through, be provided with in the extrusion box (22) four with cut the corresponding opening in chamber (43) and keep away from extrusion recess (24) of first through-hole (27), every in extrusion recess (24) respectively sliding connection have extrusion slide (23), every extrusion slide (23) extend right respectively and run through extrusion spring (25) right side wall with cut box (29) left end face and get into corresponding cut chamber (43), every extrusion slide (23) respectively with corresponding extrusion slide (23) butt, every extrusion slide (23) are close to first through-hole (27) direction terminal surface with extrusion recess (24) are close to be connected with extrusion spring (25) between first through-hole (27) direction lateral wall, every extrusion slide (23) are kept away from fixedly connected with extrusion butt piece (21) on first through-hole (27) direction terminal surface, work as when drive carousel (19) rotate, every fan-shaped piece (20) with extrusion butt piece (21) butt, cut space (17) left side wall intercommunication and have opening feedstock channel (26) to the left, feedstock channel (26) are used for the entering of abandonment pole, cut space (17) right side wall intercommunication and have haulage way (42), haulage way (42) right side wall with it is linked together to shovel space (37).

4. The recycling device for steel materials of abandoned electric poles as claimed in claim 1, characterized in that: the ejection mechanism comprises a through shaft (14) rotatably connected and installed on the lower side wall of the power space (12), the through shaft (14) extends downwards to penetrate through the lower side wall of the power space (12) to enter the ejection space (31), the upper end face of the through shaft (14) is fixedly connected with a through bevel gear (15), a power bevel gear (16) is sleeved in the power space (12) on the power rotating shaft (13), the power bevel gear (16) is meshed with the through bevel gear (15), an ejection wheel (30) is fixedly connected with the lower end face of the through shaft (14), two ejection sliding rods (38) are fixedly connected with the right side wall of the extrusion abutting block (21), the two ejection sliding rods (38) are vertically and symmetrically distributed about the central line of the ejection space (31), two ejection sliding plates (32) are sleeved on the two ejection sliding rods (38), when the penetrating shaft (14) rotates, the ejector wheel (30) is abutted against the ejector sliding plate (32), the ejector sliding plate (32) is slidably connected with the ejector sliding rods (38), each ejector sliding rod (38) is sleeved with an ejector spring (39), one end of each ejector spring (39) is fixedly connected with the right side wall of the ejector space (31), the other end of each ejector spring is fixedly connected with the right end face of the ejector sliding plate (32), the right end face of each ejector sliding plate (32) is fixedly connected with an ejector sliding block (41), the front side face of each ejector space (31) is provided with a shoveling space (37), the rear side wall of each shoveling space (37) is provided with two conical cutter sliding grooves (36) with forward openings, the two conical cutter sliding grooves (36) are vertically and symmetrically distributed about the central line of the shoveling space (37), and each conical cutter sliding groove (36) is respectively and slidably connected with an ejector conical cutter (35), the right end of each ejection conical cutter (35) is conical, the left end face of each ejection conical cutter (35) is fixedly connected with an ejection hinge block (34), an ejection hinge arm (40) is respectively connected between each ejection hinge block (34) and the ejection sliding block (41), one end of each ejection hinge arm (40) is hinged with the ejection sliding block (41), the other end of each ejection hinge arm is hinged with the corresponding ejection hinge block (34), a return spring (52) is connected between the left end surface of each ejection hinge block (34) and the left side wall of the corresponding conical knife sliding groove (36), the lower side wall of the shoveling space (37) is communicated with a waste port (33) with a downward opening, the waste material mouth (33) are used for the discharge of waste material, it has opening transport output mouth (51) to the right to shovel space (37) right side wall intercommunication, transport output mouth (51) are used for the transport of steel material.

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