CN112976413A

CN112976413A - Computer environmental protection recovery plant

Info

Publication number: CN112976413A
Application number: CN202110210153.9A
Authority: CN
Inventors: 王寿臣
Original assignee: Individual
Current assignee: Individual
Priority date: 2021-02-24
Filing date: 2021-02-24
Publication date: 2021-06-18

Abstract

The invention relates to recovery equipment, in particular to computer environment-friendly recovery equipment which comprises a feeding and cleaning mechanism, a crushing and draining mechanism and a dehydration and drying mechanism, wherein the equipment can be used for washing raw materials, can be used for feeding, can be used for crushing and dehydrating, and can be used for drying, the feeding and cleaning mechanism is connected with the crushing and draining mechanism, and the feeding and cleaning mechanism is connected with the dehydration and drying mechanism.

Description

Computer environmental protection recovery plant

Technical Field

The invention relates to a recovery device, in particular to a computer environment-friendly recovery device.

Background

In the process of recycling the computer, plastic materials and the like on the computer need to be crushed and recycled, and the dust can not be well controlled when the traditional recycling equipment is used for processing, so that the environment-friendly recycling equipment for the computer is designed.

Disclosure of Invention

The invention mainly solves the technical problem of providing the computer environment-friendly recovery equipment, the equipment can be used for washing raw materials, the equipment can be used for feeding materials, the equipment can be used for crushing and dehydrating, and the equipment can be used for drying.

In order to solve the technical problems, the invention relates to a recovery device, in particular to a computer environment-friendly recovery device which comprises a feeding and cleaning mechanism, a crushing and draining mechanism and a dehydration and drying mechanism, wherein the device can be used for washing raw materials, feeding, crushing and dehydrating, and drying.

The feeding and cleaning mechanism is connected with the crushing and water discharging mechanism, and the feeding and cleaning mechanism is connected with the dehydration and drying mechanism.

As a further optimization of the technical scheme, the feeding and cleaning mechanism of the computer environment-friendly recovery equipment comprises a water inlet bent pipe, a flange, a cleaning box, an inlet port, a limiting rod, a reset spring, a sliding chute, a perforated sliding block, a gate, a connecting pipe, a belt pulley, a belt, a motor belt pulley, a servo motor, an inlet elongated hole, a motor base, a drainage pipe with supporting legs, a base, a sewage outlet, a pipeline supporting seat, a main drainage pipe, a cleaning outlet, a threaded hole sliding block, a driving bidirectional screw rod, a driven bidirectional screw rod and a sliding chute I, wherein the water inlet bent pipe is connected with the flange, the water inlet bent pipe is connected and communicated with the cleaning box, the inlet port is arranged on the cleaning box, the limiting rod is connected with the cleaning box, the reset spring is sleeved on the limiting rod, two ends of the reset spring are respectively connected with the cleaning box and the perforated sliding, the perforated slide block is connected with the limiting rod in a sliding manner, the perforated slide block is hinged with the gate, the cleaning box is communicated with the drainage pipe with the supporting legs through the connecting pipe, the belt pulley is connected with the belt in a friction manner, the belt is connected with the motor belt pulley in a friction manner, the motor belt pulley is connected with the servo motor, the servo motor is connected with the cleaning box, the inlet elongated hole and the motor base are arranged on the drainage pipe with the supporting legs, the drainage pipe with the supporting legs is connected with the base, one end of each supporting leg is connected with the cleaning box, the other end of each supporting leg is connected with the base, the drainage pipe is connected with and communicated with the main drainage pipe, the main drainage pipe is connected with the pipeline supporting seat, the pipeline supporting seat is connected with the base, the sewage outlet is arranged on the main drainage pipe, the cleaning outlet is arranged on the lower end face of the cleaning, the driving bidirectional screw rod is connected with a motor belt pulley, and the belt pulley is connected with the driven bidirectional screw rod.

As a further optimization of the technical scheme, the crushing and water discharging mechanism of the computer environment-friendly recovery device comprises a square drainage pipe, a crushing motor, a coupling, a collecting box, a short pipe, a crushing box, a crushing inlet, a crushed aggregate discharging pipe, a driving shaft, a crushing knife, a lateral accelerating blade and a water outlet, wherein the square drainage pipe is connected and communicated with the collecting box, the crushing motor is connected with the coupling, the collecting box is connected and communicated with the short pipe, the short pipe is connected with the crushing box, the short pipe is communicated with the water outlet arranged on the crushing box, the crushing box is provided with a crushing inlet, the crushing inlet is communicated with a cleaning outlet, the crushing box is connected with a cleaning box, the crushing box is connected and communicated with the crushed aggregate discharging pipe, the driving shaft is connected with the crushing knife, the driving shaft is connected with the lateral accelerating blade, the square drainage pipe is communicated with, the motor cabinet is connected with a crushing motor, and the driving shaft is rotationally connected with the crushing box.

As a further optimization of the technical scheme, the dehydration drying mechanism of the computer environment-friendly recovery equipment comprises a bottom support, a step rod, a landing leg with a seat, a drying seat, a wind wheel, a bearing box, a distributing cone, a turning seat, a drainage drying hole, an opening, a shaft with a bulge, a vibration spring, a supporting plate, a drying coupler, a drying motor, a rotating shaft and a unthreaded hole, wherein the bottom support is connected with the step rod, the step rod is connected with the unthreaded hole arranged on the drying seat in a sliding manner, the wind wheel is connected with the shaft with the bulge, the shaft with the bulge is connected with the distributing cone, the landing leg with the seat is connected with the bearing box, the bottom support and the landing leg with the seat are both connected with a base, the turning seat is connected with the shaft with the bulge, the drainage drying hole is arranged on the bearing box, the opening is connected with the shaft with the bulge, the opening is arranged on the rotating shaft, the rotating shaft is connected with the drying seat in a rotating, the vibrations spring both ends are connected respectively on pivot and supporting disk, and the supporting disk links to each other with taking the bellying, takes the bellying to link to each other with drying shaft coupling, and drying shaft coupling links to each other with drying motor, and drying motor links to each other with the bottom sprag.

As further optimization of the technical scheme, the overturning seat of the computer environment-friendly recovery equipment is made of high manganese steel.

The computer environment-friendly recovery equipment has the beneficial effects that:

according to the environment-friendly computer recovery equipment, raw materials can be washed by the equipment, feeding can be carried out by the equipment, the equipment can be used for crushing and dewatering, and the equipment can be used for drying.

Drawings

The invention is described in further detail below with reference to the accompanying drawings and specific embodiments.

FIG. 1 is a schematic structural diagram of an environment-friendly recycling apparatus for computers according to the present invention.

FIG. 2 is a schematic structural diagram of a computer environmental-friendly recycling apparatus according to the present invention.

FIG. 3 is a third schematic structural diagram of an environment-friendly recycling apparatus for computers according to the present invention.

Fig. 4 is a first structural schematic diagram of a feeding and cleaning mechanism 1 of an environment-friendly recycling device of a computer according to the present invention.

Fig. 5 is a schematic structural diagram of a feeding and cleaning mechanism 1 of an environment-friendly recycling device for computers according to the present invention.

Fig. 6 is a third schematic structural diagram of the feeding and cleaning mechanism 1 of the computer environmental protection recycling device of the invention.

Fig. 7 is a fourth schematic structural diagram of the feeding and cleaning mechanism 1 of the computer environment-friendly recycling device of the invention.

Fig. 8 is a fifth structural schematic diagram of the feeding and cleaning mechanism 1 of the computer environmental protection recycling device of the invention.

Fig. 9 is a first schematic structural diagram of a crushing drainage mechanism 2 of the computer environmental protection recycling equipment of the invention.

Fig. 10 is a second schematic structural diagram of the pulverizing and draining mechanism 2 of the computer environmental protection recycling equipment of the present invention.

Fig. 11 is a third schematic structural diagram of the pulverizing and draining mechanism 2 of the computer environmental protection recycling equipment of the present invention.

Fig. 12 is a first schematic structural diagram of a dehydration drying mechanism 3 of a computer environmental protection recycling device of the present invention.

Fig. 13 is a second schematic structural diagram of a dewatering and drying mechanism 3 of the computer environment-friendly recycling device of the invention.

Fig. 14 is a third schematic structural diagram of a dewatering and drying mechanism 3 of the computer environment-friendly recycling device of the invention.

In the figure: a feeding and cleaning mechanism 1; 1-1 of a water inlet bent pipe; 1-2 parts of a flange; 1-3 of a cleaning box; inlet ports 1-4; 1-5 parts of a limiting rod; 1-6 of a return spring; 1-7 of a chute; 1-8 of a slide block with a hole; 1-9 of a gate; connecting pipes 1-10; 1-11 of belt pulleys; 1-12 parts of a belt; 1-13 of a motor belt pulley; servo motors 1 to 14; entering the elongated hole 1-15; 1-16 of a motor base; 1-17 of drain pipe with support leg; legs 1-18; bases 1-19; 1-20 parts of sewage outlet; 1-21 parts of a pipeline supporting seat; 1-22 parts of a main drainage pipe; clean outlets 1-23; 1-24 of a slide block with a threaded hole; 1-25 of an active bidirectional screw; passive bidirectional lead screws 1-26; a chute I1-27; a crushing and water discharging mechanism 2; 2-1 of a drainage square pipe; a crushing motor 2-2; 2-3 of a coupler; a collecting box 2-4; 2-5 parts of short pipe; 2-6 parts of a crushing box; a crushing inlet 2-7; a crushed aggregate discharge pipe 2-8; a drive shaft 2-9; 2-10 parts of a crushing cutter; lateral accelerating blades 2-11; 2-12 parts of water outlet holes; a dehydration drying mechanism 3; a bottom support 3-1; a step bar 3-2; 3-3 of support legs with seats; 3-4 parts of a drying seat; 3-5 of a wind wheel; 3-6 of a receiving box; 3-7 parts of a material separating cone; 3-8 of a turnover seat; 3-9 parts of drainage drying holes; opening 3-10; 3-11 of a shaft with a bulge; 3-12 parts of a vibration spring; 3-13 of a support disc; drying the coupler 3-14; 3-15 parts of a drying motor; 3-16 of a rotating shaft; and 3-17 of light holes.

Detailed Description

The first embodiment is as follows:

the present embodiment is described below with reference to fig. 1, fig. 2, fig. 3, fig. 4, fig. 5, fig. 6, fig. 7, fig. 8, fig. 9, fig. 10, fig. 11, fig. 12, fig. 13, and fig. 14, and the present invention relates to a recycling apparatus, and more specifically, to an environmentally friendly computer recycling apparatus including a material feeding and washing mechanism 1, a pulverizing and water discharging mechanism 2, and a dehydration and drying mechanism 3, wherein the apparatus is capable of washing a material, feeding the apparatus, pulverizing the apparatus while dehydrating the apparatus, and drying the apparatus.

The feeding and cleaning mechanism 1 is connected with the crushing and water draining mechanism 2, and the feeding and cleaning mechanism 1 is connected with the dehydrating and drying mechanism 3.

The second embodiment is as follows:

the embodiment is described below with reference to fig. 1, fig. 2, fig. 3, fig. 4, fig. 5, fig. 6, fig. 7, fig. 8, fig. 9, fig. 10, fig. 11, fig. 12, fig. 13, fig. 14, and the embodiment further describes the embodiment, where the feeding and cleaning mechanism 1 includes a water inlet elbow 1-1, a flange 1-2, a cleaning box 1-3, an inlet port 1-4, a limiting rod 1-5, a return spring 1-6, a chute 1-7, a perforated slider 1-8, a gate 1-9, a connecting pipe 1-10, a belt pulley 1-11, a belt 1-12, a motor belt pulley 1-13, a servo motor 1-14, an inlet elongated hole 1-15, a motor base 1-16, a drainage pipe with support legs 1-17, support legs 1-18, a base 1-19, a motor belt pulley 1-13, a servo motor 1-, 1-20 parts of sewage outlet, 1-21 parts of pipeline supporting seat, 1-22 parts of main drainage pipe, 1-23 parts of cleaning outlet, 1-24 parts of threaded hole sliding block, 1-25 parts of driving bidirectional screw rod, 1-26 parts of driven bidirectional screw rod, 1-27 parts of sliding chute I1-27 parts of sliding groove, 1-1 parts of water inlet bent pipe connected with 1-2 parts of flange, 1-1 parts of water inlet bent pipe connected and communicated with 1-3 parts of cleaning box, 1-3 parts of cleaning box provided with inlet 1-4 parts of inlet, 1-5 parts of limiting rod connected with 1-3 parts of cleaning box, 1-6 parts of reset spring sleeved on 1-5 parts of limiting rod, 1-6 parts of reset spring with two ends respectively connected to 1-3 parts of cleaning box and 1-8 parts of sliding block with hole, 1-8 parts of sliding block with sliding groove connected with 1-, the perforated slide block 1-8 is connected with the limiting rod 1-5 in a sliding way, the perforated slide block 1-8 is hinged with the gate 1-9, the cleaning box 1-3 is communicated with the drainage pipe 1-17 with the supporting leg by the connecting pipe 1-10, the belt pulley 1-11 is connected with the belt 1-12 in a friction way, the belt 1-12 is connected with the motor belt pulley 1-13 in a friction way, the motor belt pulley 1-13 is connected with the servo motor 1-14, the servo motor 1-14 is connected with the cleaning box 1-3, the inlet long hole 1-15 and the motor base 1-16 are both arranged on the drainage pipe 1-17 with the supporting leg, the drainage pipe 1-17 with the supporting leg is connected with the base 1-19, one end of the supporting leg 1-18 is connected with the cleaning box 1-3, and the other end is connected, leg drain pipes 1-17 are connected and communicated with main drain pipes 1-22, the main drain pipes 1-22 are connected with pipeline supporting seats 1-21, the pipeline supporting seats 1-21 are connected with bases 1-19, sewage outlets 1-20 are arranged on the main drain pipes 1-22, cleaning outlets 1-23 are arranged on the lower end faces of cleaning boxes 1-3, driving bidirectional lead screws 1-25 and driven bidirectional lead screws 1-26 are in threaded connection with threaded hole sliders 1-24, the driving bidirectional lead screws 1-25 and the driven bidirectional lead screws 1-26 are in rotational connection with the cleaning boxes 1-3, the driving bidirectional lead screws 1-25 are connected with motor belt pulleys 1-13, the belt pulleys 1-11 are connected with the driven bidirectional lead screws 1-26, before the equipment is used, water adding pipelines are externally connected on flanges 1-2, adding a computer plastic part to be recycled into a cleaning box 1-3 from an inlet 1-4, enabling the material to fall onto a gate 1-9, then leading an external water receiving pipe into water to clean the material on the gate 1-9, directly leading the cleaned water into a connecting pipe 1-10 to be discharged, leading waste water into a drain pipe 1-17 with supporting legs and then discharging the waste water from a sewage outlet 1-20 through a main drain pipe 1-22, stopping adding water after the cleaning of the raw material added once is finished, operating a servo motor 1-14 after the cleaning is finished, driving a motor belt pulley 1-13 to rotate by the servo motor 1-14, driving the belt pulley 1-11 to synchronously rotate by the motor belt pulley 1-13 through a belt 1-12, driving a driving bidirectional screw 1-25 to rotate by the motor belt pulley 1-13, the belt pulleys 1-11 can drive the driven bidirectional screw rods 1-26 to rotate, when the driving bidirectional screw rods 1-25 rotate, the two threaded hole sliders 1-24 in threaded connection with the driving bidirectional screw rods 1-25 can be far away from each other, when the driven bidirectional screw rods 1-26 rotate, the two threaded hole sliders 1-24 in threaded connection with the driven bidirectional screw rods 1-26 can be far away from each other, so that the two gates 1-9 can move along with the threaded hole sliders 1-24, the two gates 1-9 can be far away from each other, the angle is steep, materials can slide downwards to realize feeding, and after feeding is finished, the servo motors 1-14 which run reversely can drive the two gates 1-9 to reset.

The third concrete implementation mode:

the embodiment is described below with reference to fig. 1, fig. 2, fig. 3, fig. 4, fig. 5, fig. 6, fig. 7, fig. 8, fig. 9, fig. 10, fig. 11, fig. 12, fig. 13, fig. 14, and the embodiment further describes the embodiment, wherein the crushing and draining mechanism 2 comprises a square drainage pipe 2-1, a crushing motor 2-2, a coupling 2-3, a collecting box 2-4, a short pipe 2-5, a crushing box 2-6, a crushing inlet 2-7, a crushed material discharging pipe 2-8, a driving shaft 2-9, a crushing knife 2-10, a lateral accelerating blade 2-11, and a water outlet 2-12, the square drainage pipe 2-1 is connected and communicated with the collecting box 2-4, the crushing motor 2-2 is connected and communicated with the coupling 2-3, the collecting box 2-4 is connected and communicated with the short pipe 2-5, the short pipe 2-5 is connected with the crushing box 2-6, the short pipe 2-5 is communicated with the water outlet hole 2-12 arranged on the crushing box 2-6, the crushing box 2-6 is provided with a crushing inlet 2-7, the crushing inlet 2-7 is communicated with the cleaning outlet 1-23, the crushing box 2-6 is connected with the cleaning box 1-3, the crushing box 2-6 is connected and communicated with the crushed material discharging pipe 2-8, the driving shaft 2-9 is connected with the crushing knife 2-10, the driving shaft 2-9 is connected with the lateral accelerating blade 2-11, the drainage square pipe 2-1 is communicated with the inlet elongated hole 1-15, the drainage square pipe 2-1 is connected with the drainage pipe 1-17 with the supporting leg, the motor seat 1-16 is connected with the crushing motor 2-2, the driving shaft 2-9 is rotationally connected with the crushing box 2-6, the coupler 2-3 is driven to rotate by the operation of the crushing motor 2-2, the coupler 2-3 can drive the driving shaft 2-9 to rotate, the driving shaft 2-9 can drive the crushing cutter 2-10 to rotate, when the crushing cutter 2-10 rotates, materials falling off when a gate is opened can be crushed by the rotating crushing cutter 2-10, when the driving shaft 2-9 rotates, the lateral accelerating blade 2-11 can be driven to rotate, the falling materials can be rotationally accelerated by the rotation of the lateral accelerating blade 2-11 and then are thrown out of the crushed material discharging pipe 2-8 into the receiving box 3-6, water mixed in the materials can enter the short pipe 2-5 from the water outlet hole 2-12 and then flow into the collecting box 2-4, and then flow into the water discharging pipe 1-17 with the supporting legs along the water discharging square pipe 2-1, the water flowing in the drainage pipe 1-17 with the supporting legs can also form attraction force on the drainage square pipe 2-1, so that the water flow is accelerated downwards, and the blockage is prevented.

The fourth concrete implementation mode:

the embodiment is described below with reference to fig. 1, fig. 2, fig. 3, fig. 4, fig. 5, fig. 6, fig. 7, fig. 8, fig. 9, fig. 10, fig. 11, fig. 12, fig. 13, fig. 14, and the embodiment further describes the embodiment, wherein the dewatering and drying mechanism 3 comprises a bottom support 3-1, a step rod 3-2, a leg with a seat 3-3, a drying seat 3-4, a wind wheel 3-5, a receiving box 3-6, a material distributing cone 3-7, a turning seat 3-8, a drainage and drying hole 3-9, an opening 3-10, a shaft with a protrusion 3-11, a vibrating spring 3-12, a support plate 3-13, a drying coupler 3-14, a drying motor 3-15, a rotating shaft 3-16, and a light hole 3-17, the bottom support 3-1 is connected with the step rod 3-2, the stepped rod 3-2 is connected with the unthreaded hole 3-17 arranged on the drying seat 3-4 in a sliding way, the wind wheel 3-5 is connected with the shaft with a bulge 3-11, the shaft with a bulge 3-11 is connected with the material dividing cone 3-7, the supporting leg with a seat 3-3 is connected with the bearing box 3-6, the bottom support 3-1 and the supporting leg with a seat 3-3 are both connected with the base 1-19, the turning seat 3-8 is connected with the shaft with a bulge 3-11, the drainage drying hole 3-9 is arranged on the bearing box 3-6, the opening 3-10 is connected with the shaft with a bulge 3-11 in a sliding way, the opening 3-10 is arranged on the rotating shaft 3-16, the rotating shaft 3-16 is connected with the drying seat 3-4 in a rotating way, the vibration spring 3-12 is sleeved on the shaft with a bulge 3-11, two ends of the vibration spring 3-12 are respectively connected with the rotating shaft 3-16 and, the supporting disk 3-13 is connected with the shaft with the bulge 3-11, the shaft with the bulge 3-11 is connected with the drying coupling 3-14, the drying coupling 3-14 is connected with the drying motor 3-15, the drying motor 3-15 is connected with the bottom support 3-1, the drying motor 3-15 is operated to drive the drying coupling 3-14 to rotate, the drying coupling 3-14 can drive the shaft with the bulge 3-11 to rotate, the shaft with the bulge 3-11 can drive the turning seat 3-8 to rotate, the turning seat 3-8 can continuously turn over the material, the shaft with the bulge 3-11 can drive the wind wheel 3-5 to rotate to form wind from bottom to top, the wind blows upwards from the water drainage drying hole 3-9, the drying process can be accelerated by matching with the turning action, and the water flowing from the water drainage drying hole 3-9 can fall into the drying seat 3-4, the drying seat 3-4 and the vibrating spring 3-12 are matched to enable the drying seat 3-4 to have a certain up-and-down fluctuation under the action of water flow, drying is accelerated, the water flow blows upwards in the wind direction, the water flow enables the water to repeatedly move up and down on the drying seat 3-4 downwards, and therefore the drying speed is accelerated, when the drying seat 3-4 fluctuates up and down, the rotating shaft 3-16 keeps rotating relative to the drying seat 3-4, and the rotating shaft 3-16 can rotate with the shaft 3-11 with the protrusions and simultaneously keep sliding, and therefore smooth proceeding of the drying process is guaranteed.

The fifth concrete implementation mode:

the present embodiment will be described below with reference to fig. 1, fig. 2, fig. 3, fig. 4, fig. 5, fig. 6, fig. 7, fig. 8, fig. 9, fig. 10, fig. 11, fig. 12, fig. 13, and fig. 14, and the present embodiment further describes the first embodiment in which the material of the flipping bases 3 to 8 is high manganese steel.

The working principle of the device is as follows: the equipment can be used for washing raw materials, a pipeline capable of adding water is externally connected to the flange 1-2 before the equipment is used, a computer plastic part needing to be recycled is added into the cleaning box 1-3 from the inlet 1-4, the material falls onto the gate 1-9, then the external water pipe is communicated with water to clean the material on the gate 1-9, the cleaned water directly enters the connecting pipe 1-10 to be discharged, the waste water enters the drain pipe 1-17 with the supporting legs and then is discharged from the sewage outlet 1-20 through the main drain pipe 1-22, and the water adding is stopped after the raw materials added once are cleaned; the equipment can feed, after cleaning, the servo motors 1-14 are operated, the servo motors 1-14 can drive the motor belt pulleys 1-13 to rotate, the motor belt pulleys 1-13 can drive the belt pulleys 1-11 to synchronously rotate through the belts 1-12, the motor belt pulleys 1-13 can drive the driving bidirectional screw rods 1-25 to rotate, the belt pulleys 1-11 can drive the driven bidirectional screw rods 1-26 to rotate, when the driving bidirectional screw rods 1-25 rotate, the two threaded hole sliders 1-24 in threaded connection with the driving bidirectional screw rods 1-25 can be far away from each other, when the driven bidirectional screw rods 1-26 rotate, the two threaded hole sliders 1-24 in threaded connection with the driven bidirectional screw rods 1-26 can be far away from each other, so that the gates 1-9 can move along with the threaded hole sliders 1-24, the two gates 1-9 are far away from each other, and the angle is steep, so that the materials can slide downwards to realize feeding, and the servo motors 1-14 are operated in reverse direction to drive the two gates 1-9 to reset after the feeding is finished; the equipment can crush and dewater simultaneously, the coupler 2-3 is driven to rotate by the operation of the crushing motor 2-2, the coupler 2-3 can drive the driving shaft 2-9 to rotate, the driving shaft 2-9 can drive the crushing cutter 2-10 to rotate, when the crushing cutter 2-10 rotates, the falling materials can be crushed by the rotating crushing cutter 2-10 when the gate is opened, the driving shaft 2-9 also drives the lateral accelerating blade 2-11 to rotate, the falling materials can be accelerated in a rotating way by the rotation of the lateral accelerating blade 2-11 and then thrown out to the receiving box 3-6 from the crushed material discharging pipe 2-8, the water mixed in the materials can enter the short pipe 2-5 from the water outlet hole 2-12 and then flow into the collecting box 2-4, then the water discharging square pipe 2-1 is converged into the water discharging pipe with the supporting legs along the water discharging pipe 1-17, the water flowing in the drainage pipe 1-17 with the supporting legs can also form attraction force on the drainage square pipe 2-1, so that the water flow is accelerated to be downward, and the blockage is prevented; the equipment can carry out drying, a drying motor 3-15 is operated to drive a drying coupling 3-14 to rotate, the drying coupling 3-14 can drive a shaft with a bulge 3-11 to rotate, the shaft with the bulge 3-11 can drive a turning seat 3-8 to rotate, the turning seat 3-8 can continuously turn materials, the shaft with the bulge 3-11 can drive a wind wheel 3-5 to rotate to form wind from bottom to top to blow upwards from a drainage drying hole 3-9, the drying process can be better accelerated by matching with the turning action, water flowing from the drainage drying hole 3-9 can fall into the drying seat 3-4, the drying seat 3-4 and a vibration spring 3-12 are matched to enable the drying seat 3-4 to have certain up-and-down fluctuation under the action of water flow, the drying is accelerated, and the wind direction blows upwards, when the drying seat 3-4 fluctuates up and down, the rotating shaft 3-16 keeps rotating relative to the drying seat 3-4, and the rotating shaft 3-16 can rotate with the shaft 3-11 with the bulge and keep sliding at the same time, so that the smooth operation of the drying process is ensured.

It is to be understood that the above description is not intended to limit the present invention, and the present invention is not limited to the above examples, and that various changes, modifications, additions and substitutions which are within the spirit and scope of the present invention and which may be made by those skilled in the art are also within the scope of the present invention.

Claims

1. The utility model provides a computer environmental protection recovery plant, includes feed wiper mechanism (1), smashes drainage mechanism (2), dehydration drying mechanism (3), its characterized in that: the feeding and cleaning mechanism (1) is connected with the crushing and water draining mechanism (2), and the feeding and cleaning mechanism (1) is connected with the dehydrating and drying mechanism (3).

2. The environment-friendly recycling apparatus for computers according to claim 1, wherein: the feeding and cleaning mechanism (1) comprises a water inlet bent pipe (1-1), a flange (1-2), a cleaning box (1-3), an inlet (1-4), a limiting rod (1-5), a return spring (1-6), a sliding chute (1-7), a perforated sliding block (1-8), a gate (1-9), a connecting pipe (1-10), a belt pulley (1-11), a belt (1-12), a motor belt pulley (1-13), a servo motor (1-14), an inlet elongated hole (1-15), a motor base (1-16), a drain pipe (1-17) with supporting legs, supporting legs (1-18), a base (1-19), a sewage outlet (1-20), a pipeline supporting base (1-21), a main drain pipe (1-22), A cleaning outlet (1-23), a slide block (1-24) with a threaded hole, an active bidirectional screw rod (1-25), a passive bidirectional screw rod (1-26) and a chute I (1-27), wherein a water inlet bent pipe (1-1) is connected with a flange (1-2), the water inlet bent pipe (1-1) is connected and communicated with a cleaning box (1-3), an inlet (1-4) is arranged on the cleaning box (1-3), a limiting rod (1-5) is connected with the cleaning box (1-3), a reset spring (1-6) is sleeved on the limiting rod (1-5), two ends of the reset spring (1-6) are respectively connected on the cleaning box (1-3) and the slide block (1-8) with a hole, the slide block (1-8) with a hole is connected with the chute (1-7) in a sliding manner, the chute (1-7) is arranged on the cleaning box (1-3), the perforated slide block (1-8) is connected with the limiting rod (1-5) in a sliding way, the perforated slide block (1-8) is hinged with the gate (1-9), the cleaning box (1-3) is communicated with the drainage pipe (1-17) with the supporting leg by the connecting pipe (1-10), the belt pulley (1-11) is connected with the belt (1-12) in a friction way, the belt (1-12) is connected with the motor belt pulley (1-13) in a friction way, the motor belt pulley (1-13) is connected with the servo motor (1-14), the servo motor (1-14) is connected with the cleaning box (1-3), the entering elongated hole (1-15) and the motor base (1-16) are both arranged on the drainage pipe (1-17) with the supporting leg, the drain pipes (1-17) with the supporting legs are connected with the bases (1-19), one ends of the supporting legs (1-18) are connected with the cleaning box (1-3), the other ends of the supporting legs are connected with the bases (1-19), the leg drain pipes (1-17) are connected and communicated with the main drain pipes (1-22), the main drain pipes (1-22) are connected with the pipeline supporting seats (1-21), the pipeline supporting seats (1-21) are connected with the bases (1-19), the sewage outlets (1-20) are arranged on the main drain pipes (1-22), the cleaning outlets (1-23) are arranged on the lower end faces of the cleaning box (1-3), the driving bidirectional screw rods (1-25) and the driven bidirectional screw rods (1-26) are both in threaded connection with the threaded hole sliders (1-24), and the driving bidirectional screw rods (1-25) and the driven bidirectional screw rods (1-26) are both connected with the cleaning box (1-) 3) The driving bidirectional screw rod (1-25) is connected with the motor belt pulley (1-13) in a rotating way, and the belt pulley (1-11) is connected with the driven bidirectional screw rod (1-26).

3. The environment-friendly recycling apparatus for computers according to claim 1, wherein: the crushing and water discharging mechanism (2) comprises a water discharging square pipe (2-1), a crushing motor (2-2), a coupler (2-3), a collecting box (2-4), a short pipe (2-5), a crushing box (2-6), a crushing inlet (2-7), a crushed material discharging pipe (2-8), a driving shaft (2-9), a crushing cutter (2-10), a lateral accelerating blade (2-11) and a water outlet (2-12), the water discharging square pipe (2-1) is connected and communicated with the collecting box (2-4), the crushing motor (2-2) is connected with the coupler (2-3), the collecting box (2-4) is connected and communicated with the short pipe (2-5), the short pipe (2-5) is connected with the crushing box (2-6), and the short pipe (2-5) is connected with the water outlet (2-one-in charge) arranged on the crushing box (2-6) 12) The crushing box (2-6) is provided with a crushing inlet (2-7), the crushing inlet (2-7) is communicated with a cleaning outlet (1-23), the crushing box (2-6) is connected with a cleaning box (1-3), the crushing box (2-6) is connected and communicated with a crushed material discharging pipe (2-8), a driving shaft (2-9) is connected with a crushing knife (2-10), the driving shaft (2-9) is connected with a lateral accelerating blade (2-11), a drainage square pipe (2-1) is communicated with an inlet strip hole (1-15), the drainage square pipe (2-1) is connected with a drainage pipe (1-17) with supporting legs, a motor base (1-16) is connected with a crushing motor (2-2), and the driving shaft (2-9) is rotationally connected with the crushing box (2-6).

4. The environment-friendly recycling apparatus for computers according to claim 1, wherein: the dehydration drying mechanism (3) comprises a bottom support (3-1), a step rod (3-2), a landing leg with a seat (3-3), a drying seat (3-4), a wind wheel (3-5), a receiving box (3-6), a distributing cone (3-7), a turning seat (3-8), a drainage drying hole (3-9), an opening (3-10), a shaft with a bulge (3-11), a vibration spring (3-12), a support plate (3-13), a drying coupling (3-14), a drying motor (3-15), a rotating shaft (3-16) and a unthreaded hole (3-17), wherein the bottom support (3-1) is connected with the step rod (3-2), the step rod (3-2) is connected with the unthreaded hole (3-17) arranged on the drying seat (3-4) in a sliding manner, the wind wheel (3-5) is connected with a shaft (3-11) with a bulge, the shaft (3-11) with the bulge is connected with a material distribution cone (3-7), the landing leg (3-3) with a seat is connected with a bearing box (3-6), a bottom support (3-1) and the landing leg (3-3) with the seat are both connected with a base (1-19), a turning seat (3-8) is connected with the shaft (3-11) with the bulge, a drainage drying hole (3-9) is arranged on the bearing box (3-6), an opening (3-10) is in sliding connection with the shaft (3-11) with the bulge, the opening (3-10) is arranged on a rotating shaft (3-16), the rotating shaft (3-16) is in rotating connection with a drying seat (3-4), a spring (3-12) is sleeved on the shaft (3-11) with the bulge, two ends of a vibration spring (3-12) are respectively connected to a rotating shaft (3-16) and a supporting disc (3-13), the supporting disc (3-13) is connected with a shaft (3-11) with a bulge, the shaft (3-11) with the bulge is connected with a drying coupling (3-14), the drying coupling (3-14) is connected with a drying motor (3-15), and the drying motor (3-15) is connected with a bottom support (3-1).

5. The environment-friendly recycling apparatus for computers according to claim 4, wherein: the turning seat (3-8) is made of high manganese steel.