CN108951247B - Test paper recovery unit - Google Patents

Abstract

The invention relates to a teacher's tool, in particular to a test paper recovery device, which comprises a water injection mechanism, a shearing mechanism, a heat dissipation mechanism, a stirring mechanism and a heating mechanism, wherein the device can crush test papers which finish teaching tasks; the device can reprocess the crushed test paper, and new paper is generated after the reprocessing, and can be reused as the straw paper; the device can also be at the self-propelled heat dissipation of long-time operation in-process, improves the life of device, and water injection mechanism and device shell are welded connection, and shearing mechanism and device shell are gap junction, and heat dissipation mechanism and device shell are bolted connection, and rabbling mechanism and base are bolted connection, and heating mechanism and base are welded connection.

Description

Test paper recovery unit

Technical Field

The invention relates to a teacher tool, in particular to a test paper recovery device.

Background

People's living condition is in gradual promotion, more will strengthen green consciousness, in modern teaching, has utilized a large amount of paper examination papers, directly abandons after the examination paper utilization is accomplished, has caused a large amount of wastes, so design an examination paper recovery unit, retrieve the reuse to the examination paper of teaching in-process.

Disclosure of Invention

The invention mainly solves the technical problem of providing a test paper recovery device which can crush test papers which finish teaching tasks; the device can reprocess the crushed test paper, and new paper is generated after the reprocessing, and can be reused as the straw paper; the device can also automatically dissipate heat in the long-time operation process, and the service life of the device is prolonged.

In order to solve the technical problems, the invention relates to a teacher tool, in particular to a test paper recovery device, which comprises a water injection mechanism, a shearing mechanism, a heat dissipation mechanism, a stirring mechanism and a heating mechanism, wherein the device can crush test papers which finish teaching tasks; the device can reprocess the crushed test paper, and new paper is generated after the reprocessing, and can be reused as the straw paper; the device can also automatically dissipate heat in the long-time operation process, and the service life of the device is prolonged.

The water injection mechanism comprises a water tank, a water tank bracket, a device shell, a water pipe switch and a test paper inlet, wherein the water tank is welded with the water tank bracket, the water tank and the water tank bracket share a center line, the side edge of the water tank is welded with the water pipe, the water pipe is connected with the water pipe switch in a threaded manner, and the device shell is welded on the base;

the shearing mechanism comprises a bearing I, a sleeve I, a connecting rod I, a gear I, a key I, a shearing tool I, a coupler, a bolt I, a motor output shaft I, a bolt II, a bearing III, a sleeve III, a shearing tool II, a connecting rod IV, a gear II, a sleeve IV and a bearing IV, wherein the shearing tool I and the shearing tool II are arranged in a device shell, one end of the shearing tool I is in welded connection with the connecting rod I, the other end of the shearing tool I is connected with the motor output shaft I through the coupler, the shearing tool I is fixedly connected with the motor output shaft I through the bolt I on the coupler, the motor output shaft I is in clearance connection with the motor I, the motor I is in bolt connection with the device shell through the bolt II, the connecting rod I is connected with the gear I through the key I, the other end of the connecting rod I penetrates through the bearing I, the connecting rod I is, the bearing I is in clearance connection with the sleeve I, the sleeve I is in welding connection with the device shell, the gear I is externally meshed with the gear II, the gear II is in key connection with the connecting rod IV, one end of the connecting rod IV is in welding connection with the shearing tool II, the other end of the connecting rod IV is in clearance connection with the bearing IV, the bearing IV is arranged in the sleeve IV, the bearing IV is in clearance connection with the sleeve IV, the other end of the shearing tool II is in welding connection with the connecting rod III, the other end of the connecting rod III is in clearance connection with the bearing III, the bearing III is arranged in the sleeve III, and the bearing III is in clearance connection with the sleeve III;

the heat dissipation mechanism comprises a bolt III, a motor II, a base, a fan, a motor output shaft II and a key II, wherein the motor II is in bolt connection with the device shell through the bolt III, the motor output shaft II of the motor II is connected with the fan through the key II, and the base is in welded connection with the device shell;

the stirring mechanism comprises a stirring box, a bolt IV, a motor III, a sliding plate, a sliding chute I, a stirring knife, a sealing ring I, a key III, a motor output shaft III, a sealing ring II, a bearing II, a sleeve II, a sealing ring III, a positioning bearing, a through hole I and a through hole II, wherein the motor III is in bolt connection with a base through the bolt IV, the motor output shaft III of the motor III is in clearance connection with the positioning bearing, the residual shaft end penetrates into the stirring box after the positioning bearing is connected with the motor output shaft III, the motor output shaft III is in clearance connection with the stirring box, the residual shaft end of the motor output shaft III is provided with the sealing ring III, the motor output shaft III is in clearance connection with the sealing ring III, the motor output shaft III penetrates into the bearing II after being connected with the sealing ring III, the motor output shaft III is in clearance connection with the bearing II, the sleeve II is arranged outside the bearing, the sealing ring II is in clearance connection with the motor output shaft III, the tail end of the motor output shaft III is connected with the stirring knife through a key III, after the tail end of the motor output shaft III is connected with the stirring knife, the sealing ring I is arranged at the tail end of the motor output shaft III, the motor output shaft III is fixedly connected with the sealing ring I, a sliding plate is arranged inside the stirring box and is movably connected with the stirring box, a through hole I is formed in the sliding plate, and a sliding groove I is formed in the side wall of the stirring box;

the heating mechanism includes the crossbeam, the stiff spring, connecting rod II, go out the carton, a slide rail, a heater, the resistance wire, the collecting vessel, the overflow pipe, the handle, the bucket support, spout II, device shell side welding has the crossbeam, the crossbeam is swing joint via stiff spring and connecting rod II, II one end of connecting rod are welded connection with the slide, the other end is welded connection with the device shell, II lower extremes of connecting rod are provided with out the carton, it is welded connection with the handle to go out the carton, and go out the carton and be welded connection with the overflow pipe, it is equipped with the slide rail to go out the bottom of the case, it is connected with the heater via the slide rail to go out the case, heater inside welding has the resistance wire, device shell side is provided with spout II, the overflow pipe below is provided with the bucket support, and bucket support and base are welded connection, the collecting vessel.

The water injection mechanism is in welded connection with the device shell, the shearing mechanism is in clearance connection with the device shell, the heat dissipation mechanism is in bolted connection with the device shell, the stirring mechanism is in bolted connection with the base, and the heating mechanism is in welded connection with the base.

As further optimization of the technical scheme, the water tank of the test paper recovery device is made of stainless steel.

As further optimization of the technical scheme, the water tank bracket of the test paper recovery device is made of 45# steel.

As a further optimization of the technical scheme, the water tank bracket and the water tank of the test paper recovery device are concentric.

As further optimization of the technical scheme, the sleeve I is made of 45# steel.

As a further optimization of the technical scheme, the shearing tool I and the shearing tool II of the test paper recovery device are made of 45# steel.

As a further optimization of the technical scheme, the shearing tool I and the shearing tool II of the test paper recovery device are arranged in parallel.

As a further optimization of the technical scheme, the connecting rod I and the motor output shaft I are concentric.

As a further optimization of the technical scheme, the test paper recovery device provided by the invention has a plurality of resistance wires.

The test paper recovery device has the beneficial effects that:

according to the test paper recovery device, the test paper which completes the teaching task can be crushed; the device can reprocess the crushed test paper, and new paper is generated after the reprocessing, and can be reused as the straw paper; the device can also automatically dissipate heat in the long-time operation process, and the service life of the device is prolonged.

Drawings

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

Fig. 1 is a schematic front view of a test paper recycling device according to the present invention.

Fig. 2 is a schematic front view of a water injection mechanism 1 of a test paper recycling device according to the present invention.

Fig. 3 is a schematic front view of a shearing mechanism 2 of the test paper recycling device of the present invention.

Fig. 4 is a schematic front view of a heat dissipation mechanism 3 of a test paper recycling device according to the present invention.

Fig. 5 is a schematic front view of the stirring mechanism 4 of the test paper recycling device of the present invention.

Fig. 6 is a schematic front view of the heating mechanism 5 of the test paper recycling device of the present invention.

Fig. 7 is a schematic top view of the cutting mechanism 2 of the test paper recycling device according to the present invention.

Fig. 8 is a schematic front view of the couplings 2-7 of the test paper recycling device of the present invention.

In the figure: a water injection mechanism 1; 1-1 of a water tank; a water tank bracket 1-2; device housings 1-3; 1-4 of a water pipe; 1-5 of a water pipe switch; 1-6 of test paper inlet; a shearing mechanism 2; a bearing I2-1; 2-2 parts of a sleeve; 2-3 of a connecting rod; 2-4 parts of a gear I; bond I2-5; 2-6 parts of a shearing tool I; 2-7 of a coupler; 2-8 parts of a bolt I; 2-9 parts of a motor I; 2-10 parts of a motor output shaft; bolts II 2-11; 2-12 parts of a bearing III; 2-13 parts of a sleeve; connecting rods III 2-14; 2-15 parts of a shearing tool II; 2-16 of a connecting rod IV; gears II 2-17; 2-18 parts of a sleeve; bearings IV 2-19; a heat dissipation mechanism 3; 3-1 of a bolt III; a motor II 3-2; 3-3 of a base; 3-4 of a fan; a motor output shaft II 3-5; bond II 3-6; 4-1 of a stirring box; a bolt IV 4-2; 4-3 of a motor; 4-4 of a sliding plate; 4-5 of a chute I; 4-6 parts of a stirring knife; 4-7 of a sealing ring I; bond III 4-8; 4-9 parts of a motor output shaft; 4-10 parts of a sealing ring II; a bearing II stirring mechanism 4; 4-11; 4-12 parts of a sleeve II; 4-13 parts of a sealing ring; positioning the bearings 4-14; 4-15 through holes; through holes II 4-16; a heating mechanism 5; a cross beam 5-1; a rigid spring 5-2; 5-3 of a connecting rod II; discharging the paper box 5-4; 5-5 of a slide rail; 5-6 of a heater; 5-7 parts of resistance wire; 5-8 parts of a collecting barrel; an overflow pipe 5-9; 5-10 parts of a handle; 5-11 parts of a barrel bracket; and chutes II 5-12.

Detailed Description

The first embodiment is as follows:

the present embodiment is described with reference to fig. 1, fig. 2, fig. 3, fig. 4, fig. 5, fig. 6, fig. 7, and fig. 8, and the present invention relates to a teacher's tool, and more specifically, to a test paper recycling device, which includes a water injection mechanism 1, a shearing mechanism 2, a heat dissipation mechanism 3, a stirring mechanism 4, and a heating mechanism 5, and can crush test papers that have completed teaching tasks; the device can reprocess the crushed test paper, and new paper is generated after the reprocessing, and can be reused as the straw paper; the device can also automatically dissipate heat in the long-time operation process, and the service life of the device is prolonged.

The water injection mechanism 1 comprises a water tank 1-1, a water tank support 1-2, a device shell 1-3, a water pipe 1-4, a water pipe switch 1-5 and a test paper inlet 1-6, wherein the water tank 1-1 is connected with the water tank support 1-2 in a welding manner, the water tank 1-1 and the water tank support 1-2 share a center line, the side edge of the water tank 1-1 is connected with the water pipe 1-4 in a welding manner, the water pipe 1-4 is connected with the water pipe switch 1-5 in a threaded manner, the device shell 1-3 is welded on a base 3-3, the water tank 1-1 plays a role in water storage, the water tank support 1-2 plays a supporting role, the device shell 1-3 plays a protection role, and the water pipe 1-4 plays a role, the water pipe switches 1-5 play a role in opening and closing water flow, and the test paper inlets 1-6 provide space for the test paper feeding device.

The shearing mechanism 2 comprises a bearing I2-1, a sleeve I2-2, a connecting rod I2-3, a gear I2-4, a key I2-5, a shearing tool I2-6, a coupler 2-7, a bolt I2-8, a motor I2-9, a motor output shaft I2-10, a bolt II 2-11, a bearing III 2-12, a sleeve III 2-13, a connecting rod III 2-14, a shearing tool II 2-15, a connecting rod IV 2-16, a gear II 2-17, a sleeve IV 2-18 and a bearing IV 2-19, a shearing tool I2-6 and a shearing tool II 2-15 are arranged in a device shell 1-3, one end of the shearing tool I2-6 is connected with the connecting rod I2-3 in a welding mode, the other end of the shearing tool I2-6 is connected with the motor output shaft I2-10 through the coupler 2-7, the shearing tool I2-6 is fixedly connected with a motor output shaft I2-10 through a coupling 2-7 and a bolt I2-8, the motor output shaft I2-10 is in clearance connection with a motor I2-9, the motor I2-9 is in bolt connection with a device shell 1-3 through a bolt II 2-11, a connecting rod I2-3 is connected with a gear I2-4 through a key I2-5, the other end of the connecting rod I2-3 penetrates through a bearing I2-1, the connecting rod I2-3 is in clearance connection with the bearing I2-1, a sleeve I2-2 is arranged outside the bearing I2-1, the bearing I2-1 is in clearance connection with the sleeve I2-2, the sleeve I2-2 is in welding connection with the device shell 1-3, the gear I2-4 is externally meshed with the gear II 2-17, the gear II 2-17 is in key connection with the connecting rod IV 2-16, one end of the connecting rod IV 2-16 is in welding connection with the shearing tool II 2-15, the other end of the connecting rod IV 2-16 is in clearance connection with the bearing IV 2-19, the bearing IV 2-19 is arranged in the sleeve IV 2-18, the bearing IV 2-19 is in clearance connection with the sleeve IV 2-18, the other end of the shearing tool II 2-15 is in welding connection with the connecting rod III 2-14, the other end of the connecting rod III 2-14 is in clearance connection with the bearing III 2-12, the bearing III 2-12 is arranged in the sleeve III 2-13, the bearing III 2-12 is in clearance connection with the sleeve III 2-13, wherein the bearing I2-1 plays a protective role, the sleeve I2-2 plays a protective role, and the connecting rod I2-3 plays a connecting role, the gear I2-4 plays a role in transferring motion, the key I2-5 plays a role in connection, the shearing cutter I2-6 plays a role in shearing, the coupler 2-7 plays a role in connection, the bolt I2-8 plays a role in connection, the motor I2-9 plays a role in providing power, the motor output shaft I2-10 plays a role in transferring motion, the bolt II 2-11 plays a role in connection, the bearing III 2-12 plays a role in protection, the sleeve III 2-13 plays a role in protection, the connecting rod III 2-14 plays a role in connection, the shearing cutter II 2-15 plays a role in shearing test paper, the connecting rod IV 2-16 plays a role in connection, the gear II 2-17 plays a role in transferring motion, the sleeve IV 2-18 plays a role in protection, and the bearing IV 2-19 plays a role in protection.

The heat dissipation mechanism 3 comprises a bolt III 3-1, a motor II 3-2, a base 3-3, a fan 3-4, a motor output shaft II 3-5 and a key II 3-6, wherein the motor II 3-2 is in bolt connection with the device shell 1-3 through the bolt III 3-1, the motor output shaft II 3-5 of the motor II 3-2 is in connection with the fan 3-4 through the key II 3-6, the base 3-3 is in welding connection with the device shell 1-3, wherein the bolt III 3-1 plays a role in connection, the motor II 3-2 plays a role in providing power, the base 3-3 provides a stable working environment for the device, the fan 3-4 plays a role in heat dissipation, the motor output shaft II 3-5 plays a role in motion transmission, and the key II 3-6 plays a role in connection.

The stirring mechanism 4 comprises a stirring box 4-1, a bolt IV 4-2, a motor III 4-3, a sliding plate 4-4, a sliding chute I4-5, a stirring knife 4-6, a sealing ring I4-7, a key III 4-8, a motor output shaft III 4-9, a sealing ring II 4-10, a bearing II 4-11, a sleeve II 4-12, a sealing ring III 4-13, a positioning bearing 4-14, a through hole I4-15 and a through hole II 4-16, wherein the motor III 4-3 is connected with a base 3-3 through the bolt IV 4-2, the motor output shaft III 4-9 of the motor III 4-3 is in clearance connection with the positioning bearing 4-14, the residual shaft end penetrates into the stirring box 4-1 after the positioning bearing 4-14 is connected with the motor output shaft III 4-9, the motor output shaft III 4-9 is in clearance connection with the stirring box 4-1, the residual shaft end of the motor output shaft III 4-9 is provided with a sealing ring III 4-13, the motor output shaft III 4-9 is in clearance connection with the sealing ring III 4-13, the motor output shaft III 4-9 is connected with the sealing ring III 4-13 and then penetrates into the bearing II 4-11, the motor output shaft III 4-9 is in clearance connection with the bearing II 4-11, the bearing II 4-11 is externally provided with a sleeve II 4-12, the bearing II 4-11 is in clearance connection with the sleeve II 4-12, the upper end of the bearing II 4-11 is sleeved with a sealing ring II 4-10, the sealing ring II 4-10 is in clearance connection with the motor output shaft III 4-9, the tail end of the motor output shaft III 4-9 is connected with the stirring knife 4-6 through a key III 4-, after the tail end of a motor output shaft III 4-9 is connected with a stirring knife 4-6, a sealing ring I4-7 is arranged at the tail end of the motor output shaft III 4-9, the motor output shaft III 4-9 is fixedly connected with the sealing ring I4-7, a sliding plate 4-4 is arranged inside a stirring box 4-1, the sliding plate 4-4 is movably connected with the stirring box 4-1, a through hole I4-15 is formed in the sliding plate 4-4, a sliding groove I4-5 is arranged on the side wall of the stirring box 4-1, the stirring box 4-1 plays a role in containing test paper fragments, a bolt IV 4-2 plays a connecting role, a motor III 4-3 plays a role in providing power, the sliding plate 4-4 plays a role in limiting paper pulp flowing, and the sliding groove I4-5 plays a role in enabling internal components to slide, the stirring knife 4-6 plays a role in stirring and smashing, the sealing ring I4-7 plays a role in sealing, the key III 4-8 plays a role in connecting, the motor output shaft III 4-9 plays a role in transferring motion, the sealing ring II 4-10 plays a role in sealing, the bearing II 4-11 plays a role in connection protection, the sleeve II 4-12 plays a role in protection, the sealing ring III 4-13 plays a role in sealing, the positioning bearing 4-14 plays a role in positioning support, the through hole I4-15 plays a role in enabling paper pulp to flow out, and the through hole II 4-16 plays a role in enabling paper pulp to flow out.

The heating mechanism 5 comprises a beam 5-1, a rigid spring 5-2, a connecting rod II 5-3, a paper outlet box 5-4, a sliding rail 5-5, a heater 5-6, a resistance wire 5-7, a collecting barrel 5-8, an overflow pipe 5-9, a handle 5-10, a barrel support 5-11 and a sliding chute II 5-12, wherein the beam 5-1 is welded on the side edge of the device shell 1-3, the beam 5-1 is movably connected with the connecting rod II 5-3 through the rigid spring 5-2, one end of the connecting rod II 5-3 is welded with the sliding plate 4-4, the other end is welded with the device shell 1-3, the lower end of the connecting rod II 5-3 is provided with the paper outlet box 5-4, the paper outlet box 5-4 is welded with the handle 5-10, and the paper outlet box 5-4 is welded with the overflow pipe 5-9, the bottom of the paper outlet box 5-4 is provided with a slide rail 5-5, the paper outlet box 5-4 is connected with a heater 5-6 through the slide rail 5-5, a resistance wire 5-7 is welded inside the heater 5-6, the side edge of the device shell 1-3 is provided with a slide groove II 5-12, a barrel support 5-11 is arranged below the overflow pipe 5-9, the barrel support 5-11 is welded with the base 3-3, a collecting barrel 5-8 is arranged inside the barrel support 5-11, the barrel support 5-11 is in clearance connection with the collecting barrel 5-8, wherein the cross beam 5-1 plays a supporting role, the rigid spring 5-2 plays a resetting role, the connecting rod II 5-3 plays a connecting role, the paper outlet box 5-4 provides a containing space for regenerated paper, and the slide rail 5-5 plays a sliding connection role, the heater 5-6 plays a role in heating, the resistance wire 5-7 plays a role in providing heat, the collecting barrel 5-8 plays a role in collecting excessive paper pulp, the overflow pipe 5-9 enables the excessive paper pulp to flow out of the overflow pipe 5-9, the handle 5-10 plays a role in drawing out the paper box 5-4, the barrel support 5-11 plays a role in supporting, and the sliding groove II 5-12 plays a role in enabling internal components to slide in the paper box.

The water injection mechanism 1 is connected with the device shell 1-3 in a welding mode, the shearing mechanism 2 is connected with the device shell 1-3 in a clearance mode, the heat dissipation mechanism 3 is connected with the device shell 1-3 in a bolt mode, the stirring mechanism 4 is connected with the base 3-3 in a bolt mode, and the heating mechanism 5 is connected with the base 3-3 in a welding mode.

The second embodiment is as follows:

the present embodiment will be described below with reference to fig. 1, 2, 3, 4, 5, 6, 7, and 8, and the first embodiment will be further described, in which the water tank 1-1 is made of stainless steel.

The third concrete implementation mode:

the present embodiment is described below with reference to fig. 1, fig. 2, fig. 3, fig. 4, fig. 5, fig. 6, fig. 7, and fig. 8, and the present embodiment further describes the first embodiment, in which the material of the tank bracket 1-2 is 45# steel.

The fourth concrete implementation mode:

the present embodiment is described below with reference to fig. 1, fig. 2, fig. 3, fig. 4, fig. 5, fig. 6, fig. 7, and fig. 8, and the present embodiment further describes the present embodiment in which the tank bracket 1-2 and the tank 1-1 are concentric.

The fifth concrete implementation mode:

the present embodiment will be described below with reference to fig. 1, 2, 3, 4, 5, 6, 7, and 8, and the present embodiment further describes the present embodiment, in which the material of the sleeve i 2-2 is 45# steel.

The sixth specific implementation mode:

the present embodiment will be described with reference to fig. 1, 2, 3, 4, 5, 6, 7, and 8, and the present embodiment further describes the present embodiment, wherein the material of the shear tools i 2 to 6 and the shear tools ii 2 to 15 is 45# steel.

The seventh embodiment:

the present embodiment will be described with reference to fig. 1, 2, 3, 4, 5, 6, 7 and 8, and the present embodiment further describes the present embodiment in which the shearing tools i 2 to 6 and the shearing tools ii 2 to 15 are disposed in parallel with each other.

The specific implementation mode is eight:

the present embodiment will be described with reference to fig. 1, 2, 3, 4, 5, 6, 7 and 8, and the present embodiment further describes the present embodiment in which the connecting rod i 2-3 and the motor output shaft i 2-10 are concentric.

The specific implementation method nine:

the present embodiment is described below with reference to fig. 1, fig. 2, fig. 3, fig. 4, fig. 5, fig. 6, fig. 7, and fig. 8, and the present embodiment further describes the first embodiment, in which a plurality of resistance wires 5 to 7 are provided.

The use method of the device comprises the following steps: when the device is started, water is filled in the water tank 1-1, the water pipe switch 1-5 is opened, water can continuously flow out from the water pipe 1-4, the water pipe switch 1-5 can adjust the water flow, then a test paper is put in from the test paper inlet 1-6, the test paper is cut into pieces under the rotation of the shearing cutter I2-6 and the shearing cutter II 2-15 which are started simultaneously with the device, the test paper enters the stirring mechanism 4, meanwhile, the fan 3-4 in the heat dissipation mechanism 3 continuously rotates to take away heat generated in the operation of the device, the service life of the device is prolonged, the test paper pieces enter the stirring box 4-1 in the stirring mechanism 4, the test paper pieces are cut into pieces again by the stirring cutter 4-6 under the participation of water and are stirred into paper pulp, at the moment, the upper lifting connecting rod II 5-3 and the sliding plate 4-4 are also lifted, at the moment, the paper pulp enters the paper outlet box 5-4 in the heating mechanism 5 from the stirring mechanism 4, paper pulp is heated by a heater 5-6 in the paper outlet box 5-4, an overflow pipe 5-9 is arranged on the paper outlet box 5-4, redundant paper pulp flows out along with the paper pulp, moisture in the paper pulp is evaporated, the paper pulp can be recycled by pulling a handle 5-10 to be taken out of the paper box 5-4, and meanwhile, the paper outlet device can automatically and intermittently stop running when being pulled out of the paper box 5-4, so that the paper outlet device is more convenient to use.

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 (9)

1. The utility model provides a test paper recovery unit, includes water injection mechanism (1), shears mechanism (2), heat dissipation mechanism (3), rabbling mechanism (4), heating mechanism (5), its characterized in that: the water injection mechanism (1) comprises a water tank (1-1), a water tank support (1-2), a device shell (1-3), a water pipe (1-4), a water pipe switch (1-5) and a test paper inlet (1-6), wherein the water tank (1-1) is in welded connection with the water tank support (1-2), the water tank (1-1) and the water tank support (1-2) share a center line, the side edge of the water tank (1-1) is in welded connection with the water pipe (1-4), the water pipe switch (1-5) is connected onto the water pipe (1-4), the water pipe (1-4) is in threaded connection with the water pipe switch (1-5), and the device shell (1-3) is welded on a base (3-3);

the shearing mechanism (2) comprises a bearing I (2-1), a sleeve I (2-2), a connecting rod I (2-3), a gear I (2-4), a key I (2-5), a shearing cutter I (2-6), a coupler (2-7), a bolt I (2-8), a motor I (2-9), a motor output shaft I (2-10), a bolt II (2-11), a bearing III (2-12), a sleeve III (2-13), a connecting rod III (2-14), a shearing cutter II (2-15), a connecting rod IV (2-16), a gear II (2-17), a sleeve IV (2-18) and a bearing IV (2-19), wherein the shearing cutter I (2-6) and the shearing cutter II (2-15) are arranged in a device shell (1-3), one end of a shearing tool I (2-6) is connected with a connecting rod I (2-3) in a welding mode, the other end of the shearing tool I (2-6) is connected with a motor output shaft I (2-10) through a coupler (2-7), the shearing tool I (2-6) is fixedly connected with the motor output shaft I (2-10) through a bolt I (2-8) on the coupler (2-7), the motor output shaft I (2-10) is in clearance connection with a motor I (2-9), the motor I (2-9) is in bolt connection with a device shell (1-3) through a bolt II (2-11), the connecting rod I (2-3) is connected with a gear I (2-4) through a key I (2-5), the other end of the connecting rod I (2-3) penetrates through a bearing I (2-1), the connecting rod I (2-3) is in clearance connection with the bearing I (2-1), the sleeve I (2-2) is arranged outside the bearing I (2-1), the bearing I (2-1) is in clearance connection with the sleeve I (2-2), the sleeve I (2-2) is in welding connection with the device shell (1-3), the gear I (2-4) is externally meshed with the gear II (2-17), the gear II (2-17) is in key connection with the connecting rod IV (2-16), one end of the connecting rod IV (2-16) is in welding connection with the shearing cutter II (2-15), the other end of the connecting rod IV (2-16) is in clearance connection with the bearing IV (2-19), the bearing IV (2-19) is arranged in the sleeve IV (2-18), and the bearing IV (2-19) is in clearance connection with the sleeve IV (2-18), the other end of the shearing tool II (2-15) is in welded connection with the connecting rod III (2-14), the other end of the connecting rod III (2-14) is in clearance connection with the bearing III (2-12), the bearing III (2-12) is arranged in the sleeve III (2-13), and the bearing III (2-12) is in clearance connection with the sleeve III (2-13);

the heat dissipation mechanism (3) comprises a bolt III (3-1), a motor II (3-2), a base (3-3), a fan (3-4), a motor output shaft II (3-5) and a key II (3-6), the motor II (3-2) is in bolt connection with the device shell (1-3) through the bolt III (3-1), the motor output shaft II (3-5) of the motor II (3-2) is connected with the fan (3-4) through the key II (3-6), and the base (3-3) is in welding connection with the device shell (1-3);

the stirring mechanism (4) comprises a stirring box (4-1), a bolt IV (4-2), a motor III (4-3), a sliding plate (4-4), a chute I (4-5), a stirring knife (4-6), a sealing ring I (4-7), a key III (4-8), a motor output shaft III (4-9), a sealing ring II (4-10), a bearing II (4-11), a sleeve II (4-12), a sealing ring III (4-13), a positioning bearing (4-14), a through hole I (4-15) and a through hole II (4-16), wherein the motor III (4-3) is in bolt connection with the base (3-3) through the bolt IV (4-2), the motor output shaft III (4-9) of the motor III (4-3) is in clearance connection with the positioning bearing (4-14), the residual shaft end penetrates into the stirring box (4-1) after the positioning bearing (4-14) is connected with the motor output shaft III (4-9), the motor output shaft III (4-9) is in clearance connection with the stirring box (4-1), the residual shaft end of the motor output shaft III (4-9) is provided with a sealing ring III (4-13), the motor output shaft III (4-9) is in clearance connection with the sealing ring III (4-13), the motor output shaft III (4-9) is connected with the sealing ring III (4-13) and then penetrates into the bearing II (4-11), the motor output shaft III (4-9) is in clearance connection with the bearing II (4-11), the sleeve II (4-12) is arranged outside the bearing II (4-11), and the bearing II (4-11) is in clearance connection with the sleeve II (4-12), a sealing ring II (4-10) is sleeved at the upper end of the bearing II (4-11), the sealing ring II (4-10) is in clearance connection with a motor output shaft III (4-9), the tail end of the motor output shaft III (4-9) is connected with a stirring knife (4-6) through a key III (4-8), after the tail end of the motor output shaft III (4-9) is connected with the stirring knife (4-6), a sealing ring I (4-7) is arranged at the tail end of the motor output shaft III (4-9), the motor output shaft III (4-9) is fixedly connected with the sealing ring I (4-7), a sliding plate (4-4) is arranged inside the stirring box (4-1), the sliding plate (4-4) is movably connected with the stirring box (4-1), a through hole I (4-15) is formed in the sliding plate (4-4), a sliding chute I (4-5) is arranged on the side wall of the stirring box (4-1);

the heating mechanism (5) comprises a beam (5-1), a rigid spring (5-2), a connecting rod II (5-3), a paper outlet box (5-4), a slide rail (5-5), a heater (5-6), a resistance wire (5-7), a collecting barrel (5-8), an overflow pipe (5-9), a handle (5-10), a barrel support (5-11) and a chute II (5-12), wherein the beam (5-1) is welded on the side edge of the device shell (1-3), the beam (5-1) is movably connected with the connecting rod II (5-3) through the rigid spring (5-2), one end of the connecting rod II (5-3) is welded with the sliding plate (4-4), the other end of the connecting rod II is welded with the device shell (1-3), the lower end of the connecting rod II (5-3) is provided with the paper outlet box (5-4), the paper outlet box (5-4) is connected with a handle (5-10) in a welding way, the paper outlet box (5-4) is connected with an overflow pipe (5-9) in a welding way, the bottom of the paper outlet box (5-4) is provided with a slide rail (5-5), the paper outlet box (5-4) is connected with a heater (5-6) through the slide rail (5-5), a resistance wire (5-7) is welded inside the heater (5-6), the side edge of the device shell (1-3) is provided with a slide groove II (5-12), a barrel support (5-11) is arranged below the overflow pipe (5-9), the barrel support (5-11) is connected with the base (3-3) in a welding mode, the collecting barrel (5-8) is arranged in the barrel support (5-11), and the barrel support (5-11) is connected with the collecting barrel (5-8) in a clearance mode;

the water injection mechanism (1) is connected with the device shell (1-3) in a welding mode, the shearing mechanism (2) is connected with the device shell (1-3) in a clearance mode, the heat dissipation mechanism (3) is connected with the device shell (1-3) in a bolt mode, the stirring mechanism (4) is connected with the base (3-3) in a bolt mode, and the heating mechanism (5) is connected with the base (3-3) in a welding mode.

2. The test paper recycling device according to claim 1, wherein: the water tank (1-1) is made of stainless steel.

3. The test paper recycling device according to claim 1, wherein: the water tank support (1-2) is made of 45# steel.

4. The test paper recycling device according to claim 1, wherein: the water tank bracket (1-2) and the water tank (1-1) share the same center line.

5. The test paper recycling device according to claim 1, wherein: the sleeve I (2-2) is made of 45# steel.

6. The test paper recycling device according to claim 1, wherein: the shearing tool I (2-6) and the shearing tool II (2-15) are made of 45# steel.

7. The test paper recycling device according to claim 1, wherein: the shearing tool I (2-6) and the shearing tool II (2-15) are arranged in parallel.

8. The test paper recycling device according to claim 1, wherein: the connecting rod I (2-3) and the motor output shaft I (2-10) are concentric.

9. The test paper recycling device according to claim 1, wherein: the resistance wires (5-7) are multiple.

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