CN218775373U - Building material recovery plant - Google Patents

Abstract

The utility model relates to a building engineering technical field just discloses a building material recovery plant, the on-line screen storage device comprises a base, row's material chute has been seted up to the inside of base, the last surface mounting of base has quick-witted case, the feed port has all been seted up to the front of machine case and back one side, the motor is installed to the right flank of machine case, both sides are rotated about the inner wall of machine case and are connected with fluted disc and lower fluted disc, both sides go up and all install the driving cylinder between fluted disc and the lower fluted disc, upper and lower both sides the surface of driving cylinder is installed respectively and is extruded the concave ring and extrude the concave ring down, the internally mounted of driving cylinder has the inner support, the inside of inner support is rotated and is connected with the screw rod, the surperficial threaded connection of screw rod has the swivel nut. This building material recovery plant, through the reinforcing bar that will drive the concrete piece put into on extrude between the concave ring and the lower extrusion concave ring, can clear up the concrete piece on reinforcing bar surface fast to carry out recycle to the reinforcing bar.

Description

Building material recovery plant

Technical Field

The utility model relates to a building engineering technical field specifically is a building material recovery plant.

Background

In the engineering of the dismantlement of building and fitment again, can produce a large amount of discarded materials, wherein the proportion that materials such as wall body, fragment of brick account for is the biggest, often be mingled with the reinforcing bar in such as cement, the fragment of brick, if direct will be mingled with cement and the reinforcing bar of fragment of brick abandons very extravagant resource, but the outside cement of reinforcing bar also is difficult to clear away, and then brings certain degree of difficulty for retrieving the reinforcing bar.

SUMMERY OF THE UTILITY MODEL

Technical problem to be solved

Not enough to prior art, the utility model provides a building material recovery plant has solved the inconvenient problem of cleaing away of the outside cement fragment of brick of reinforcing bar among the building abandonment material.

(II) technical scheme

For the outside cement fragment of brick of the reinforcing bar in realizing above-mentioned building waste material is convenient for clear away's purpose, the utility model provides a following technical scheme: the utility model provides a building material recovery plant, includes the base, the inside of base has been seted up and has been arranged the material chute, the last surface mounting of base has quick-witted case, the feed port has all been seted up to the front and back one side of machine case, the motor is installed to the right flank of machine case, both sides rotate about the inner wall of machine case and are connected with fluted disc and lower fluted disc, both sides go up the fluted disc and all install the driving cylinder down between the fluted disc, both sides from top to bottom the surface of driving cylinder is installed respectively and is extruded concave ring and extrude concave ring down, the internally mounted of driving cylinder has the inner support, the internal rotation of inner support is connected with the screw rod, the surperficial threaded connection of screw rod has the swivel nut.

A driving disc is arranged on the surface of the screw rod and inside the driving cylinder, a driving groove is arranged on the end surface of the driving disc, an inner sliding pin is connected inside the driving groove in a sliding manner, a bearing ring is sleeved on the surface of the inner sliding pin, a supporting rod is arranged on the surface of the bearing ring, one end of the outer side of the supporting rod is rotatably connected with a transfer block, one end of the transfer block, which is far away from the supporting rod, is provided with an inner compression ring, a reinforcing steel bar with a cement block is placed at a port of a feeding hole, then the reinforcing steel bar is pushed into the case, the motors on the upper side and the lower side are started simultaneously, the motors on the upper side and the lower side can respectively drive an upper fluted disc and a lower fluted disc to rotate, the driving cylinders on each side can respectively be driven by the upper fluted disc and the lower fluted disc to rotate, and when the reinforcing steel bar with the cement block moves to a position between the upper extruding concave ring and the lower extruding concave ring, the upper extrusion concave ring and the lower extrusion concave ring can extrude and crush cement blocks on the outer side of the reinforcing steel bar, the reinforcing steel bar cannot be damaged through a groove gap between the upper extrusion concave ring and the lower extrusion concave ring, the crushed cement blocks can fall to a discharge chute to be discharged, in addition, the screw rod can be rotated to drive the driving disc to rotate, the driving disc can drive the inner sliding pin to move outwards through the driving groove, the supporting rod can drive the inner sliding pin to move outwards, the supporting rod can drive the inner compression ring to move outwards, so that the inner compression rings on the upper side and the lower side can be close to each other, the screw rod can be fixed with the inner support by rotating the screw sleeve, namely, the driving disc and the supporting rod can be fixed through the screw rod, so that the inner compression rings on the upper side and the lower side can be fixed, when the inner compression rings on each side are respectively driven by the upper extrusion concave ring and the lower extrusion concave ring, the cement blocks can be extruded from the middle part through the inner compression rings, so as to further clean the surface of the steel bar with the cement blocks.

Preferably, the inner compression ring is arc-shaped and is positioned inside the surface grooves of the upper extrusion concave ring and the lower extrusion concave ring, so that the cement blocks can be squeezed out from the middle part through the inner compression ring, and the surface of the steel bar with the cement blocks can be further cleaned.

Preferably, branch passes through respectively and extrudes the notch ring under and on and extrudes the notch ring to rather than sliding connection, be convenient for can drive the driving-disc rotation through rotating the screw rod, the driving-disc can drive interior sliding pin through the drive groove and move to the outside, and then interior sliding pin can drive branch and move to the outside, and branch can drive interior clamping ring and move to the outside.

Preferably, the driving-disc is located the both sides of branch, the drive slot is the arc wall, the drive slot not with the driving-disc on same centre of circle, be convenient for the driving-disc can drive interior sliding pin and move to the outside through the drive slot, and then can make interior sliding pin drive the branch simultaneous movement of different positions to support interior clamping ring.

Preferably, the motors on the upper side and the lower side are a forward rotation motor and a reverse rotation motor, the output ends of the motors are respectively fixedly connected with the upper fluted disc and the lower fluted disc, the upper fluted disc is meshed with the lower fluted disc, the forward rotation motor and the reverse rotation motor on the upper side and the lower side can respectively drive the upper fluted disc and the lower fluted disc to rotate, and meanwhile, the driving cylinders on the upper side and the lower side can synchronously rotate through the meshing of the upper fluted disc and the lower fluted disc, so that the driving cylinders drive the upper extrusion concave ring and the lower extrusion concave ring to synchronously rotate.

Preferably, the annular arc-shaped grooves are formed in the outer surfaces of the upper extrusion concave ring and the lower extrusion concave ring, so that the cement blocks can be extruded and crushed conveniently through the edges of the upper extrusion concave ring and the lower extrusion concave ring, and the reinforcing steel bars are retained in the grooves between the upper extrusion concave ring and the lower extrusion concave ring.

Compared with the prior art, the utility model provides a building material recovery plant possesses following

Has the beneficial effects that:

1. this building material recovery plant, start the motor of both sides about, the motor of both sides can drive fluted disc and lower fluted disc rotation respectively about this moment, and then go up the fluted disc and can drive the driving cylinder rotation of each side respectively with lower fluted disc, the driving cylinder of upper and lower both sides can drive extrusion concave ring and extrusion concave ring rotation down respectively, and when the reinforcing bar that has the cement piece moves supreme extrusion concave ring and extrude down between the concave ring, can extrude the breakage to the cement piece in the reinforcing bar outside through last extrusion concave ring and extrusion concave ring down, and can not cause the destruction to the reinforcing bar through last extrusion concave ring and the groove gap that extrudees down between the concave ring, and the cement piece after the breakage can drop to row's material chute and discharge.

2. This building material recovery plant, can drive the driving-disc through rotating the screw rod and rotate, the driving-disc can drive interior sliding pin through the drive groove and remove to the outside, and then interior sliding pin can drive branch and remove to the outside, branch can drive interior clamping ring and remove to the outside, thereby can make the interior clamping ring of both sides be close to each other, and it can be fixed with screw rod and inner support to rotate the swivel nut, can be fixed with driving-disc and branch through the screw rod, thereby can be fixed with the interior clamping ring of both sides from top to bottom, and then when the interior clamping ring that drives each side respectively with lower extrusion concave ring of last extrusion, can extrude the cement piece from middle part through interior clamping ring, so that further will have the reinforcing bar surface of cement piece to clear up.

Drawings

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

FIG. 2 is a partial sectional view of the structural base and the case of the present invention;

FIG. 3 is a schematic view of the inner compression ring structure of the present invention;

fig. 4 is a schematic view of the structural driving disk of the present invention.

Wherein: 1. a base; 2. a discharge chute; 3. a chassis; 4. a feed port; 5. a motor; 6. an upper fluted disc; 7. a lower fluted disc; 8. a drive cylinder; 9. an upper extrusion concave ring; 10. downward extruding the concave ring; 11. an inner support; 12. a screw; 13. a threaded sleeve; 14. a drive disc; 15. a drive slot; 16. an inner slide pin; 17. a bearing ring; 18. a strut; 19. a transfer block; 20. and (7) an inner compression ring.

Detailed Description

Please refer to fig. 1-4, the utility model provides a building material recovery plant, including base 1, row's material chute 2 has been seted up to base 1's inside, base 1's last surface mounting has quick-witted case 3, feed port 4 has all been seted up to the front of machine case 3 and back one side, motor 5 is installed to the right flank of machine case 3, both sides rotate about the inner wall of machine case 3 and are connected with fluted disc 6 and lower fluted disc 7, all install driving cylinder 8 on both sides between fluted disc 6 and the lower fluted disc 7, the surface of upper and lower both sides driving cylinder 8 is installed respectively and is gone up extrusion concave ring 9 and extrude concave ring 10 down, the internally mounted of driving cylinder 8 has inner support 11, the internal rotation of inner support 11 is connected with screw rod 12, the surperficial threaded connection of screw rod 12 has swivel nut 13.

A driving disc 14 is arranged on the surface of the screw 12 and inside the driving cylinder 8, a driving groove 15 is arranged on the end surface of the driving disc 14, an inner sliding pin 16 is slidably connected inside the driving groove 15, a bearing ring 17 is sleeved on the surface of the inner sliding pin 16, a support rod 18 is arranged on the surface of the bearing ring 17, one end of the outer side of the support rod 18 is rotatably connected with a switching block 19, one end of the switching block 19, which is far away from the support rod 18, is provided with an inner compression ring 20, reinforcing steel bars with cement blocks are placed at the port of the feeding hole 4, then the reinforcing steel bars are pushed into the case 3, and the motors 5 on the upper side and the lower side are started simultaneously, at this time, the motors 5 on the upper side and the lower side can respectively drive the upper fluted disc 6 and the lower fluted disc 7 to rotate, and then the driving cylinders 6 on the upper side and the lower fluted disc 7 can respectively drive the upper extrusion concave ring 9 and the lower extrusion concave ring 10 to rotate, when the steel bar with the cement blocks moves between the upper extrusion concave ring 9 and the lower extrusion concave ring 10, the cement blocks on the outer side of the steel bar can be extruded and crushed through the upper extrusion concave ring 9 and the lower extrusion concave ring 10, the steel bar cannot be damaged through a groove gap between the upper extrusion concave ring 9 and the lower extrusion concave ring 10, the crushed cement blocks can fall to the discharge chute 2 to be discharged, in addition, the driving disc 14 can be driven to rotate by rotating the screw rod 12, the driving disc 14 can drive the inner sliding pin 16 to move outwards through the driving groove 15, further, the inner sliding pin 16 can drive the supporting rod 18 to move outwards, the supporting rod 18 can drive the inner compression ring 20 to move outwards, so that the inner compression rings 20 on the upper side and the lower side can be close to each other, the screw rod 12 and the inner support 11 can be fixed by rotating the screw sleeve 13, namely, the driving disc 14 and the supporting rod 18 can be fixed through the screw rod 12, and the inner compression rings 20 on the upper side and the lower side can be fixed, and when the upper extrusion concave ring 9 and the lower extrusion concave ring 10 respectively drive the inner compression rings 20 on each side to rotate, the cement blocks can be extruded from the middle part through the inner compression rings 20, so that the surfaces of the steel bars with the cement blocks can be further cleaned.

Further, the inner compression ring 20 is arc-shaped and is positioned inside the surface grooves of the upper extrusion concave ring 9 and the lower extrusion concave ring 10, so that the cement blocks can be extruded from the middle part through the inner compression ring 20, and the surface of the steel bar with the cement blocks can be further cleaned.

Furthermore, the supporting rod 18 penetrates through the upper extrusion concave ring 9 and the lower extrusion concave ring 10 respectively and is connected with the upper extrusion concave ring and the lower extrusion concave ring in a sliding mode, so that the driving disc 14 can be driven to rotate by rotating the screw 12, the driving disc 14 can drive the inner sliding pin 16 to move outwards through the driving groove 15, the inner sliding pin 16 can drive the supporting rod 18 to move outwards, and the supporting rod 18 can drive the inner compression ring 20 to move outwards.

Furthermore, the driving discs 14 are located on two sides of the supporting rods 18, the driving grooves 15 are arc-shaped grooves, the driving grooves 15 are not located on the same center of circle with the driving discs 14, the driving discs 14 can drive the inner sliding pins 16 to move outwards through the driving grooves 15, and therefore the inner sliding pins 16 can drive the supporting rods 18 at different positions to move simultaneously and support the inner compression ring 20.

Further, upper and lower both sides motor 5 is corotation motor and reversal motor, and the output of motor 5 respectively with last fluted disc 6 and lower fluted disc 7 fixed connection, and go up fluted disc 6 and the meshing of fluted disc 7 down, the corotation motor and the reversal motor of both sides can drive fluted disc 6 and lower fluted disc 7 rotation respectively about being convenient for, can make the driving cylinder 8 synchronous rotation of upper and lower both sides through the meshing of last fluted disc 6 and lower fluted disc 7 simultaneously, so that driving cylinder 8 drives and extrudes concave ring 9 and extrude concave ring 10 synchronous rotation down.

Further, the outer surfaces of the upper extrusion concave ring 9 and the lower extrusion concave ring 10 are provided with annular arc-shaped grooves, so that the cement blocks can be extruded and crushed conveniently through the edges of the upper extrusion concave ring 9 and the lower extrusion concave ring 10, and the reinforcing steel bars are retained in the grooves between the upper extrusion concave ring 9 and the lower extrusion concave ring 10.

When the cement extrusion machine is used, a steel bar with cement blocks is placed at the port of the feed hole 4, then the steel bar is pushed towards the inside of the machine case 3, the motors 5 on the upper side and the lower side are started simultaneously, at the moment, the motors 5 on the upper side and the lower side can respectively drive the upper fluted disc 6 and the lower fluted disc 7 to rotate, further, the upper fluted disc 6 and the lower fluted disc 7 can respectively drive the driving cylinders 8 on each side to rotate, the driving cylinders 8 on the upper side and the lower side can respectively drive the upper extrusion concave ring 9 and the lower extrusion concave ring 10 to rotate, when the steel bar with the cement blocks moves to the position between the upper extrusion concave ring 9 and the lower extrusion concave ring 10, the cement blocks outside the steel bar can be extruded and crushed through the upper extrusion concave ring 9 and the lower extrusion concave ring 10, the steel bar cannot be damaged through a groove gap between the upper extrusion concave ring 9 and the lower extrusion concave ring 10, the crushed cement blocks can fall to the discharge chute 2, in addition, the driving disc 14 can be driven to rotate through the rotating screw 12, the driving disc 14 can drive the inner sliding pin 16 to move outwards, the inner sliding pin 16 can drive the support rod 18 to move outwards, the support rod 18 can further drive the inner sliding pin 20 to drive the inner sliding ring 20 to move, so as to further, the inner compression ring 20 and the inner compression ring 20, the inner compression ring 20 can be fixed on the inner compression ring 20, and the inner compression ring 20, and the inner compression ring can be fixed by the screw rod, and the inner compression ring 20, and the inner compression ring can be fixed by the screw rod support, and the screw.

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

Claims (6)

1. A building material recycling apparatus, comprising a base (1), characterized in that: the feeding device is characterized in that a discharging chute (2) is formed in the base (1), a case (3) is mounted on the upper surface of the base (1), feeding holes (4) are formed in the front side and the back side of the case (3), a motor (5) is mounted on the right side face of the case (3), an upper fluted disc (6) and a lower fluted disc (7) are rotatably connected to the upper side and the lower side of the inner wall of the case (3), a driving cylinder (8) is mounted between the upper fluted disc (6) and the lower fluted disc (7) on the two sides, an upper extrusion concave ring (9) and a lower extrusion concave ring (10) are respectively mounted on the surfaces of the driving cylinder (8) on the upper side and the lower side, an inner support (11) is mounted in the driving cylinder (8), a screw rod (12) is rotatably connected to the inner support (11), and a threaded sleeve (13) is connected to the surface of the screw rod (12);

the surface of screw rod (12) and the internally mounted who is located driving barrel (8) have driving-disc (14), driving groove (15) have been seted up to the terminal surface of driving-disc (14), the inside sliding connection of driving groove (15) has interior sliding pin (16), bearing ring (17) have been cup jointed on the surface of interior sliding pin (16), the surface mounting of bearing ring (17) has branch (18), the outside one end of branch (18) is rotated and is connected with adapter block (19), adapter block (19) are kept away from the one end of branch (18) and are installed interior clamping ring (20).

2. The construction material recycling apparatus according to claim 1, wherein: the inner compression ring (20) is arc-shaped and is positioned inside the surface grooves of the upper extrusion concave ring (9) and the lower extrusion concave ring (10).

3. The construction material recycling apparatus according to claim 1, wherein: the supporting rod (18) penetrates through the upper extrusion concave ring (9) and the lower extrusion concave ring (10) respectively and is connected with the upper extrusion concave ring and the lower extrusion concave ring in a sliding mode.

4. The construction material recycling apparatus according to claim 1, wherein: the driving discs (14) are positioned on two sides of the supporting rod (18), the driving grooves (15) are arc-shaped grooves, and the driving grooves (15) are not positioned on the same center of a circle with the driving discs (14).

5. The construction material recycling apparatus according to claim 1, wherein: the motors (5) on the upper side and the lower side are forward rotation motors and reverse rotation motors, the output ends of the motors (5) are fixedly connected with the upper fluted disc (6) and the lower fluted disc (7) respectively, and the upper fluted disc (6) is meshed with the lower fluted disc (7).

6. The construction material recycling apparatus according to claim 1, wherein: the outer surfaces of the upper extrusion concave ring (9) and the lower extrusion concave ring (10) are provided with annular arc-shaped grooves.

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