CN112237971A

CN112237971A - Intelligent recovery processing equipment for security camera

Info

Publication number: CN112237971A
Application number: CN202011159139.2A
Authority: CN
Inventors: 蒋友才; 申远辉
Original assignee: Shenzhen Qianghong Electronic Co ltd
Current assignee: Shenzhen Qianghong Electronic Co ltd
Priority date: 2020-10-26
Filing date: 2020-10-26
Publication date: 2021-01-19
Anticipated expiration: 2040-10-26
Also published as: CN112237971B

Abstract

The invention relates to recovery processing equipment, in particular to intelligent recovery processing equipment for a security camera, which comprises a crushing execution mechanism, a machine body mechanism and a circulating material ring mechanism, wherein the equipment can feed and crush materials simultaneously, the equipment can return materials, the equipment can be crushed in an environment-friendly manner, the equipment can remove iron, the equipment can be pre-crushed, the crushing execution mechanism is connected with the machine body mechanism, the machine body mechanism is connected with the circulating material ring mechanism, and the crushing execution mechanism is connected with the circulating material ring mechanism.

Description

Intelligent recovery processing equipment for security camera

Technical Field

The invention relates to a recovery processing device, in particular to an intelligent recovery processing device for a security camera.

Background

In the recovery processing of security protection camera, need smash it, traditional crushing apparatus, feeding and returning charge need be equipped with different equipment and go on, and area is big, and transfer efficiency is low, so designed this kind of security protection camera intelligence recovery processing equipment.

Disclosure of Invention

The invention mainly solves the technical problem of providing intelligent recovery processing equipment for a security camera, wherein the equipment can feed and crush at the same time, can return materials, can crush in an environment-friendly way, can remove iron, and can pre-crush.

In order to solve the technical problems, the invention relates to recovery processing equipment, in particular to intelligent recovery processing equipment for a security camera, which comprises a crushing executing mechanism, a machine body mechanism and a circulating material ring mechanism, wherein the equipment can feed and crush materials simultaneously, can return materials, can perform environment-friendly crushing, can remove iron and can perform pre-crushing.

The crushing actuating mechanism is connected with the machine body mechanism, the machine body mechanism is connected with the circulating material ring mechanism, and the crushing actuating mechanism is connected with the circulating material ring mechanism.

As a further optimization of the technical scheme, the crushing executing mechanism of the intelligent recovery processing equipment for the security camera comprises a cam, a rotating shaft, a gear, a special-shaped rotating seat, a sliding seat, a hinged arm, a hammer head, a belt pulley, a belt, a motor belt pulley, a motor, a bolt, a limiting rod, a spring and a built-in sliding seat, wherein the cam is connected with the rotating shaft, the rotating shaft is connected with the gear, the rotating shaft is connected with the special-shaped rotating seat, the special-shaped rotating seat is connected with the sliding seat in a sliding manner, the sliding seat is hinged with the hinged arm, the hinged arm is hinged with the hammer head, the belt pulley is connected with the rotating shaft, 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 motor, the sliding seat is fixed on the built-in sliding, the spring is propped against the built-in sliding seat and the special-shaped rotating seat.

As a further optimization of the technical scheme, the machine body mechanism of the intelligent recovery processing equipment for the security camera comprises a base, a supporting seat, a servo motor, a coupler, a screw rod, a limiting rod I, a sliding bearing seat, a driving motor, a coupler, a crushing box, a feeding hopper, a supporting seat I, a hydraulic cylinder, a connecting plate, a connecting pipe, a pipe A, a transfer box, a supporting seat A, a pipe B, an extrusion box, a piston rod, a limiting seat, a wedge block, a bevel seat, a connecting rod, a limiting plate I, a special-shaped magnetic shaft, a filter plate, a shaft with a special-shaped hole, a discharge port, a connecting rod I, a matching hole, a crushing plate with a rod, a reset spring, a crushing plate with a rod I, a reset spring I, an air inlet one-way valve and an air outlet one-way valve, wherein the base is connected with the supporting seat, the servo motor is connected, a limiting rod I is connected with a supporting seat, the limiting rod I is connected with a sliding bearing seat in a sliding way, the sliding bearing seat is connected with a driving motor, the driving motor is connected with a special-shaped magnetic shaft through a coupler, the supporting seat is connected with a crushing box, a feed hopper is arranged on the crushing box, the crushing box is connected with the supporting seat I, the supporting seat I is connected with a hydraulic cylinder, the hydraulic cylinder is connected with a connecting plate, the connecting plate is connected with a connecting rod, the connecting rod is connected with the crushing box in a sliding way, the connecting pipe is used for communicating the crushing box with a pipe A, the pipe A is connected with a transfer box and communicated with the transfer box, the transfer box is connected with the supporting seat A, the supporting seat A is connected with the crushing box, the transfer box is connected with a pipe B, the pipe B is connected with the crushing box and communicated with the extrusion box, a belt piston rod is connected with the extrusion box, the connecting mode of the special-shaped magnetic shaft and the sliding bearing seat is bearing connection, the special-shaped magnetic shaft is in sliding connection with the shaft with the special-shaped hole, the connecting mode of the shaft with the special-shaped hole and the supporting seat is bearing connection, the discharge port is arranged on the crushing box, the connecting rod I is arranged in the matching hole, the matching hole is arranged on the limiting seat, the crushing plate with the rod is connected with the limiting plate I, the reset spring is sleeved on the crushing plate with the rod, the reset spring abuts against the crushing plate with the rod and the crushing box, the crushing plate I with the rod is in sliding connection with the crushing box, the reset spring I is sleeved on the crushing plate I with the rod, the reset spring I abuts against the crushing box and the crushing plate I with the rod, the crushing plate I with the rod is connected with the limiting seat, the air inlet check valve is arranged in the tube B, the air outlet check valve is arranged in the tube A, the connecting mode of the rotating.

As a further optimization of the technical scheme, the circulating material ring mechanism of the intelligent recovery processing equipment for the security camera comprises a special-shaped bearing seat, a discharge pipe I, a pre-crushing box, a rotating material ring seat, a discharge port I, a partition plate, a matching plate, a spring A, a supporting seat B, a special-shaped crushing seat, a square column, a square hole and a gear ring, wherein the special-shaped bearing seat is connected with a base, the discharge pipe I is arranged on the pre-crushing box, the pre-crushing box is connected with the special-shaped bearing seat, the gear ring is arranged on the rotating material ring seat, the gear ring is meshed with a gear, the discharge port I is arranged on the rotating material ring seat, the partition plate is arranged in the rotating material ring seat, the matching plate is connected with the square column, the spring A is sleeved on the square column, the spring A abuts against the matching plate and the supporting seat B, the supporting seat B is connected with the special-shaped bearing seat, the square column is connected with the special-shaped crushing seat.

As further optimization of the technical scheme, the hammerhead of the intelligent recovery and treatment equipment for the security camera is made of high manganese steel.

The intelligent recovery processing equipment for the security camera has the beneficial effects that:

according to the intelligent recovery processing equipment for the security camera, disclosed by the invention, the equipment can be used for feeding and crushing simultaneously, the equipment can be used for returning materials, the equipment can be used for environment-friendly crushing, the equipment can be used for removing iron, and the equipment can be used for pre-crushing.

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 intelligent recovery processing device for a security camera according to the present invention.

Fig. 2 is a schematic structural diagram of an intelligent recovery processing device for a security camera according to the present invention.

Fig. 3 is a schematic structural diagram three of the intelligent security camera recycling device of the present invention.

Fig. 4 is a schematic structural diagram of an intelligent recovery processing device for a security camera according to the present invention.

Fig. 5 is a schematic structural diagram of an intelligent recovery processing device for a security camera according to a fifth embodiment of the present invention.

Fig. 6 is a first schematic structural diagram of a crushing executing mechanism 1 of the intelligent security camera recovery processing device of the invention.

Fig. 7 is a schematic structural diagram of a crushing executing mechanism 1 of the intelligent security camera recovery processing device of the invention.

Fig. 8 is a first structural schematic diagram of the first machine body mechanism 2 of the intelligent security camera recovery processing device of the invention.

Fig. 9 is a schematic structural diagram of a second machine body mechanism 2 of the intelligent security camera recovery processing device of the invention.

Fig. 10 is a third schematic structural diagram of the machine body mechanism 2 of the intelligent security camera recovery processing device of the invention.

Fig. 11 is a fourth schematic structural diagram of the body mechanism 2 of the intelligent security camera recovery processing device of the present invention.

Fig. 12 is a first structural schematic diagram of a material circulating ring mechanism 3 of the intelligent security camera recovery processing device of the invention.

Fig. 13 is a structural schematic diagram of a second material circulating ring mechanism 3 of the intelligent security camera recovery processing device of the invention.

Fig. 14 is a third schematic structural diagram of a material circulating ring mechanism 3 of the intelligent security camera recovery processing device of the invention.

Fig. 15 is a fourth schematic structural diagram of a material circulating ring mechanism 3 of the intelligent security camera recovery processing device of the invention.

In the figure: a crushing actuator 1; a cam 1-1; a rotating shaft 1-2; 1-3 of gears; 1-4 of a special-shaped rotating seat; 1-5 of a sliding seat; articulated arms 1-6; 1-7 parts of a hammer head; 1-8 of belt pulleys; 1-9 parts of a belt; 1-10 parts of a motor belt pulley; motors 1-11; 1-12 parts of bolt; 1-13 parts of a limiting rod; springs 1-14; a built-in sliding seat 1-15; a body mechanism 2; a base 2-1; 2-2 parts of a supporting seat; 2-3 of a servo motor; 2-4 of a coupler; 2-5 parts of a screw rod; a limiting rod I2-6; 2-7 of a sliding bearing seat; 2-8 of a driving motor; 2-9 of a coupler; 2-10 parts of a crushing box; 2-11 parts of a feed hopper; supporting seat I2-12; 2-13 of a hydraulic cylinder; 2-14 of connecting plates; connecting pipes 2-15; tube A2-16; 2-17 of a transfer case; supporting seat A2-18; tube B2-19; 2-20 parts of an extrusion box; 2-21 with piston rod; 2-22 parts of a limiting seat; 2-23 parts of wedge blocks; 2-24 parts of a bevel seat; connecting rods 2-25; limiting plates I2-26; 2-27 of special-shaped magnetic shaft; 2-28 parts of filter plates; 2-29 of shaft with special-shaped holes; 2-30 parts of a discharge port; connecting rods I2-31; 2-32 of matching holes; a crushing plate with a rod 2-33; return springs 2-34; a belt bar shredder plate I2-35; a return spring I2-36; air inlet check valves 2-37; 2-38 parts of an air outlet one-way valve; a circulating material ring mechanism 3; 3-1 of a special-shaped bearing seat; a discharge pipe I3-2; 3-3 of a pre-crushing box; rotating the material ring seat by 3-4; a discharge port I3-5; 3-6 of a partition board; 3-7 of a matching plate; spring A3-8; supporting seat B3-9; 3-10 parts of a special-shaped crushing seat; 3-11 parts of square column; 3-12 parts of square hole; ring gears 3-13.

Detailed Description

The first 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 fig. 15, the present invention relates to a recovery processing device, and more specifically, to an intelligent recovery processing device for security cameras, which includes a crushing execution mechanism 1, a machine body mechanism 2, and a circulating material ring mechanism 3, and the device can perform feeding and crushing simultaneously, and can perform material returning, and can perform environment-friendly crushing, and can remove iron, and can perform pre-crushing.

The crushing actuating mechanism 1 is connected with the machine body mechanism 2, the machine body mechanism 2 is connected with the circulating material ring mechanism 3, and the crushing actuating mechanism 1 is connected with the circulating material ring 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, fig. 15, and the embodiment further describes the embodiment, where the crushing actuator 1 includes a cam 1-1, a rotating shaft 1-2, a gear 1-3, a special-shaped rotating seat 1-4, a sliding seat 1-5, an articulated arm 1-6, a hammer 1-7, a belt pulley 1-8, a belt 1-9, a motor belt pulley 1-10, a motor 1-11, a bolt 1-12, a limit rod 1-13, a spring 1-14, and a built-in sliding seat 1-15, the cam 1-1 is connected to the rotating shaft 1-2, the special-shaped gear 1-3 is connected to the rotating shaft 1-2 is connected to the rotating seat 1-4, the special-shaped rotating seat 1-4 is connected with the sliding seat 1-5 in a sliding manner, the sliding seat 1-5 is hinged with the hinged arm 1-6, the hinged arm 1-6 is hinged with the hammer 1-7, the belt pulley 1-8 is connected with the rotating shaft 1-2, the belt pulley 1-8 is connected with the belt 1-9 in a friction manner, the belt 1-9 is connected with the motor belt pulley 1-10 in a friction manner, the motor belt pulley 1-10 is connected with the motor 1-11, the sliding seat 1-5 is fixed on the built-in sliding seat 1-15 through the bolt 1-12, the built-in sliding seat 1-15 is connected with the special-shaped rotating seat 1-4 in a sliding manner, the built-in sliding seat 1-15 is connected with the limiting rod 1-13 in a sliding manner, the spring 1-14 is sleeved on the limiting rod 1-13, and the spring 1-, The special-shaped rotating seat 1-4.

The third concrete implementation mode:

the following describes the present embodiment 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 fig. 15, and the present embodiment further describes the present embodiment, where the fuselage mechanism 2 includes a base 2-1, a support seat 2-2, a servo motor 2-3, a coupling 2-4, a lead screw 2-5, a limit rod I2-6, a sliding bearing seat 2-7, a driving motor 2-8, a coupling 2-9, a crushing box 2-10, a feed hopper 2-11, a support seat I2-12, a hydraulic cylinder 2-13, a connection plate 2-14, a connection pipe 2-15, a pipe a2-16, a transfer box 2-17, a support seat a2-18, a pipe B2-19, an extrusion box 2-20, a, 2-21 parts of a piston rod, 2-22 parts of a limiting seat, 2-23 parts of a wedge block, 2-24 parts of an inclined seat, 2-25 parts of a connecting rod, 2-26 parts of a limiting plate I, 2-27 parts of a special-shaped magnetic shaft, 2-28 parts of a filter plate, 2-29 parts of a shaft with a special-shaped hole, 2-30 parts of a discharge port, 2-31 parts of a connecting rod, 2-32 parts of a matching hole, 2-33 parts of a crushing plate with a rod, 2-34 parts of a return spring, I2-35 parts of a crushing plate with a rod, I2-36 parts of a return spring, 2-37 parts of an air inlet one-way valve and 2-38 parts of an air outlet one-way valve, 2-1 parts of a base, 2-2 parts of a supporting seat, 2-2 parts of a servo motor, 2-3 parts of a servo motor, a limiting rod I2-6 is connected with a supporting seat 2-2, a limiting rod I2-6 is connected with a sliding bearing seat 2-7 in a sliding way, the sliding bearing seat 2-7 is connected with a driving motor 2-8, the driving motor 2-8 is connected with a special-shaped magnetic shaft 2-27 through a coupling 2-9, the supporting seat 2-2 is connected with a crushing box 2-10, a feed hopper 2-11 is arranged on the crushing box 2-10, the crushing box 2-10 is connected with a supporting seat I2-12, the supporting seat I2-12 is connected with a hydraulic cylinder 2-13, the hydraulic cylinder 2-13 is connected with a connecting plate 2-14, the connecting plate 2-14 is connected with a connecting rod 2-25, the connecting rod 2-25 is connected with the crushing box 2-10 in a sliding way, the connecting pipe 2-15 is used for connecting the crushing box 2-10, the pipe A2-16 is connected and communicated with the transfer case 2-17, the transfer case 2-17 is connected and communicated with the supporting seat A2-18, the supporting seat A2-18 is connected and communicated with the crushing case 2-10, the transfer case 2-17 is connected and communicated with the pipe B2-19, the pipe B2-19 is connected and communicated with the crushing case 2-10, the transfer case 2-17 is connected and communicated with the extrusion case 2-20, the belt piston rod 2-21 is connected with the extrusion case 2-20 in a sliding way, the belt piston rod 2-21 is connected with the limiting seat 2-22, the wedge block 2-23 is connected with the inclined seat 2-24 in a sliding way, the inclined seat 2-24 is connected with the connecting rod 2-25, the special-shaped magnetic shaft 2-27 is connected with the sliding bearing seat 2-7 in a bearing way, the special-shaped magnetic shaft 2-27 is connected with the shaft with the special-29, the connecting mode of the shaft 2-29 with the special-shaped hole and the supporting seat 2-2 is that the shaft is connected by a bearing, the discharging port 2-30 is arranged on the crushing box 2-10, the connecting rod I2-31 is arranged in the matching hole 2-32, the matching hole 2-32 is arranged on the limiting seat 2-22, the crushing plate 2-33 with the rod is connected with the limiting plate I2-26, the reset spring 2-34 is sleeved on the crushing plate 2-33 with the rod, the reset spring 2-34 is abutted against the crushing plate 2-33 with the rod and the crushing box 2-10, the crushing plate I2-35 with the rod is connected with the crushing box 2-10 in a sliding way, the reset spring I2-36 is sleeved on the crushing plate I2-35 with the rod, the reset spring I2-36 is abutted against the crushing box 2-10 with the crushing plate I2-35 with the rod, the crushing plate I2-35 with the rod is connected with the limiting seat 2-22, the air inlet one-way valve 2-37 is arranged in the pipe B2-19, the air outlet one-way valve 2-38 is arranged in the pipe A2-16, the rotating shaft 1-2 is connected with the crushing box 2-10 by a bearing, the motor 1-11 is connected with the supporting seat 2-2, the motor belt pulley 1-10 is driven to rotate by the operation of the motor 1-11, the motor belt pulley 1-10 drives the belt pulley 1-8 to rotate by the belt 1-9, the belt pulley 1-8 drives the special-shaped rotating seat 1-4 to rotate by the rotating shaft 1-2, the centrifugal force is generated in the rotating process of the special-shaped rotating seat 1-4, the sliding seat 1-5 slides to the circumferential outward direction under the action of the centrifugal force, thereby expanding the crushing radius of the hammer head 1-7 and improving the crushing capacity, thus, the hammer heads 1-7 can crush materials, the rotating shaft 1-2 can drive the gear 1-3 to rotate when rotating, the gear 1-3 can drive the rotating material ring seat 3-4 to rotate through the gear ring 3-13, the rotating direction is anticlockwise seen from the sliding bearing seat 2-7 to the crushing box 2-10, the gear is gradually improved under the support of the partition plate 3-6, the gear is lifted to the position of the feed hopper 2-11 and then falls into the feed hopper 2-11, the gear is impacted by the rotating hammer heads 1-7, the impacted materials can impact the crushing plate I2-35 with the rod and then rebound to be continuously crushed by the hammer heads 1-7, then impact the crushing plate 2-33 with the rod, then fall and be discharged from the discharge port 2-30, and the crushing plate I2-35 with the rod can move upwards when being impacted, then the crushing box is reset under the rebound action of a reset spring I2-36, so that a belt rod crushing plate I2-35 drives a belt piston rod 2-21 to reciprocate up and down, the belt piston rod 2-21 can repeatedly compress the air in the extrusion box 2-20, when the belt piston rod 2-21 moves upwards, the air in the extrusion box 2-20 rushes out of an air one-way valve 2-38 and enters a connecting pipe 2-15 and then enters the crushing box 2-10, when the belt piston rod 2-21 moves downwards, the air in the crushing box 2-10 rushes out of an air inlet one-way valve 2-37 from a pipe B2-19 and enters a transfer box 2-17, the middle part of the air is filtered by a filter plate 2-28, so that dust generated by crushing and feeding can be purified, and a coupler 2-9 is driven to rotate by the operation of a driving motor 2-8, the coupler 2-9 can drive the special-shaped magnetic shaft 2-27 to rotate, the special-shaped magnetic shaft 2-27 can adsorb iron in materials when rotating, then the servo motor 2-3 is operated to drive the coupler 2-4 to rotate, the coupler 2-4 can drive the lead screw 2-5 to rotate, the lead screw 2-5 can drive the sliding bearing seat 2-7 to move, and the sliding bearing seat 2-7 can drive the special-shaped magnetic shaft 2-27 to slide, so that the iron on the special-shaped magnetic shaft 2-27 is scraped by the special-shaped hole shaft 2-29.

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, fig. 15, and the embodiment further illustrates the embodiment, in which the circulating material ring mechanism 3 includes a special-shaped bearing seat 3-1, a material discharge pipe I3-2, a pre-crushing box 3-3, a rotating material ring seat 3-4, a material discharge port I3-5, a partition plate 3-6, a matching plate 3-7, a spring A3-8, a supporting seat B3-9, a special-shaped crushing seat 3-10, a square column 3-11, a square hole 3-12, and a gear ring 3-13, the special-shaped bearing seat 3-1 is connected to a base 2-1, the material discharge pipe I3-2 is disposed on the pre-crushing box 3-3, the pre-crushing box 3-3 is connected to the, the rotary material ring seat 3-4 is provided with a gear ring 3-13, the gear ring 3-13 is meshed with a gear 1-3, the rotary material ring seat 3-4 is provided with a discharge port I3-5, the rotary material ring seat 3-4 is internally provided with a partition plate 3-6, a matching plate 3-7 is connected with a square column 3-11, a spring A3-8 is sleeved on the square column 3-11, a spring A3-8 is abutted against the matching plate 3-7 and a supporting seat B3-9, the supporting seat B3-9 is connected with a special-shaped bearing seat 3-1, the matching plate 3-7 is contacted with a cam 1-1, the supporting seat B3-9 is provided with a square hole 3-12, the square hole 3-12 is connected with the square column 3-11 in a sliding manner, the square column 3-11 is connected with a special-shaped crushing seat 3-10, in the process that the cam 1-1 rotates along with a rotating shaft, will drive the matching board 3-7 to reciprocate up and down through the matching with the spring A3-8, the matching board 3-7 will drive the special-shaped crushing seat 3-10 to reciprocate up and down through the square column 3-11, the pre-crushing box 3-3 will crush the material added into the pre-crushing box 3-3.

The fifth concrete implementation mode:

the present embodiment will be described below with reference to fig. 1, 2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13, 14, and 15, and the first embodiment will be further described with reference to the embodiment in which the material of the hammers 1 to 7 is high manganese steel.

The working principle of the device is as follows: the equipment can feed and crush simultaneously, the motor belt pulleys 1-10 are driven to rotate by the running of the motors 1-11, the motor belt pulleys 1-10 can drive the belt pulleys 1-8 to rotate by the belts 1-9, the belt pulleys 1-8 can drive the special-shaped rotating seats 1-4 to rotate by the rotating shafts 1-2, centrifugal force is generated in the rotating process of the special-shaped rotating seats 1-4, the sliding seats 1-5 can slide towards the circumferential direction under the action of the centrifugal force, so that the crushing radius of the hammers 1-7 is enlarged, the crushing capacity is improved, the hammers 1-7 can crush materials, the rotating shafts 1-2 can drive the gears 1-3 to rotate when rotating, the gears 1-3 can drive the rotating material ring seats 3-4 to rotate by the gear rings 3-13, the rotating direction is anticlockwise seen from the sliding bearing seat 2-7 to the crushing box 2-10, so that the materials are gradually improved under the support of the partition plates 3-6, are lifted to the position of the feed hopper 2-11 and then fall into the feed hopper 2-11, are impacted by the rotating hammer head 1-7, impact the crushing plate I2-35 with the rod after impact, rebound to be continuously crushed by the hammer head 1-7, then impact the crushing plate 2-33 with the rod again, and then fall and are discharged from the discharge port 2-30; the device can return materials, the discharged materials meet the discharge size and are leaked out from a discharge port I3-5, and the materials needing to be returned continuously return to the feed hoppers 2-11 along with the rotation of the rotary material ring seats 3-4; the device can crush in environment protection, the crushing plate I2-35 with the rod moves upwards when being impacted, then the belt piston rod is reset under the rebound action of the reset spring I2-36, so that the belt rod crushing plate I2-35 drives the belt piston rod 2-21 to reciprocate up and down, the belt piston rod 2-21 can repeatedly compress the air in the extrusion box 2-20, when the belt piston rod 2-21 moves upwards, the air in the extrusion box 2-20 rushes out the air one-way valve 2-38 and enters the connecting pipe 2-15, then the crushed materials enter the crushing box 2-10, when the piston rod 2-21 moves downwards, air in the crushing box 2-10 can rush out the air inlet one-way valve 2-37 from the pipe B2-19 to enter the transfer box 2-17, and the air is filtered by the filter plate 2-28, so that dust generated by crushing and feeding can be purified; the device can remove iron, the driving motor 2-8 is operated to drive the shaft coupler 2-9 to rotate, the shaft coupler 2-9 can drive the special-shaped magnetic shaft 2-27 to rotate, the special-shaped magnetic shaft 2-27 rotates to adsorb iron in materials, then the servo motor 2-3 is operated to drive the shaft coupler 2-4 to rotate, the shaft coupler 2-4 can drive the screw rod 2-5 to rotate, the screw rod 2-5 can drive the sliding bearing seat 2-7 to move, and the sliding bearing seat 2-7 can drive the special-shaped magnetic shaft 2-27 to slide, so that the iron on the special-shaped magnetic shaft 2-27 is scraped off by the shaft with the special-shaped hole 2-29; the device can pre-crush, in the process that the cam 1-1 rotates along with the rotating shaft 1-2, the cam is matched with the spring A3-8 to drive the matching plate 3-7 to reciprocate up and down, the matching plate 3-7 drives the special-shaped crushing seat 3-10 to reciprocate up and down through the square column 3-11, and the pre-crushing box 3-3 crushes materials added into the pre-crushing box 3-3.

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 security protection camera intelligence recovery processing equipment, includes crushing actuating mechanism (1), fuselage mechanism (2), circulation material ring mechanism (3), its characterized in that: the crushing actuating mechanism (1) is connected with the machine body mechanism (2), the machine body mechanism (2) is connected with the circulating material ring mechanism (3), and the crushing actuating mechanism (1) is connected with the circulating material ring mechanism (3).

2. The intelligent recovery processing device for the security camera according to claim 1, characterized in that: the crushing executing mechanism (1) comprises a cam (1-1), a rotating shaft (1-2), a gear (1-3), a special-shaped rotating seat (1-4), a sliding seat (1-5), an articulated arm (1-6), a hammer head (1-7), a belt pulley (1-8), a belt (1-9), a motor belt pulley (1-10), a motor (1-11), a bolt (1-12), a limiting rod (1-13), a spring (1-14) and a built-in sliding seat (1-15), wherein the cam (1-1) is connected with the rotating shaft (1-2), the rotating shaft (1-2) is connected with the gear (1-3), the rotating shaft (1-2) is connected with the special-shaped rotating seat (1-4), the special-shaped rotating seat (1-4) is connected with the sliding seat (1-5) in a sliding way, the sliding seat (1-5) is hinged with the hinged arm (1-6), the hinged arm (1-6) is hinged with the hammer head (1-7), the belt pulley (1-8) is connected with the rotating shaft (1-2), the belt pulley (1-8) is in friction connection with the belt (1-9), the belt (1-9) is in friction connection with the motor belt pulley (1-10), the motor belt pulley (1-10) is connected with the motor (1-11), the sliding seat (1-5) is fixed on the built-in sliding seat (1-15) through the bolt (1-12), the built-in sliding seat (1-15) is in sliding connection with the special-shaped rotating seat (1-4), the built-in sliding seat (1-15) is in sliding connection with the limiting rod (1-13), the spring (1-14) is sleeved on the limiting rod (1-13), the springs (1-14) are propped against the built-in sliding seats (1-15) and the special-shaped rotating seats (1-4).

3. The intelligent recovery processing device for the security camera according to claim 1, characterized in that: the machine body mechanism (2) comprises a base (2-1), a supporting seat (2-2), a servo motor (2-3), a coupler (2-4), a lead screw (2-5), a limiting rod I (2-6), a sliding bearing seat (2-7), a driving motor (2-8), a coupler (2-9), a crushing box (2-10), a feeding hopper (2-11), a supporting seat I (2-12), a hydraulic cylinder (2-13), a connecting plate (2-14), a connecting pipe (2-15), a pipe A (2-16), a transfer box (2-17), a supporting seat A (2-18), a pipe B (2-19), an extrusion box (2-20), a belt piston rod (2-21), a limiting seat (2-22), Wedge blocks (2-23), inclined plane seats (2-24), connecting rods (2-25), limiting plates I (2-26), special-shaped magnetic shafts (2-27), filter plates (2-28), special-shaped hole shafts (2-29), discharge holes (2-30), connecting rods I (2-31), matching holes (2-32), rod-provided crushing plates (2-33), reset springs (2-34), rod-provided crushing plates I (2-35), reset springs I (2-36), air inlet one-way valves (2-37) and air outlet one-way valves (2-38), a base (2-1) is connected with the supporting seats (2-2), the supporting seats (2-2) are connected with servo motors (2-3), the servo motors (2-3) are connected with lead screws (2-5) through couplers (2-4), the screw rod (2-5) is in threaded connection with the sliding bearing seat (2-7), the limiting rod I (2-6) is connected with the supporting seat (2-2), the limiting rod I (2-6) is in sliding connection with the sliding bearing seat (2-7), the sliding bearing seat (2-7) is connected with the driving motor (2-8), the driving motor (2-8) is connected with the special-shaped magnetic shaft (2-27) through the coupler (2-9), the supporting seat (2-2) is connected with the crushing box (2-10), the crushing box (2-10) is provided with a feed hopper (2-11), the crushing box (2-10) is connected with the supporting seat I (2-12), the supporting seat I (2-12) is connected with the hydraulic cylinder (2-13), the hydraulic cylinder (2-13) is connected with the connecting plate (2-14), the connecting plates (2-14) are connected with the connecting rods (2-25), the connecting rods (2-25) are connected with the crushing boxes (2-10) in a sliding manner, the connecting pipes (2-15) are used for communicating the crushing boxes (2-10) with the pipes A (2-16), the pipes A (2-16) are connected with the transfer boxes (2-17) and communicated with the transfer boxes, the transfer boxes (2-17) are connected with the supporting seats A (2-18), the supporting seats A (2-18) are connected with the crushing boxes (2-10), the transfer boxes (2-17) are connected with the pipes B (2-19) and communicated with the same, the pipes B (2-19) are connected with the crushing boxes (2-10) and communicated with the pressing boxes (2-20), the transfer boxes (2-17) are connected with the pressing boxes (2-20) and provided with the piston rods (2-21) and the pressing boxes (2-20) in a sliding manner, the belt piston rod (2-21) is connected with a limiting seat (2-22), a wedge block (2-23) is connected with a bevel seat (2-24) in a sliding way, the bevel seat (2-24) is connected with a connecting rod (2-25), a special-shaped magnetic shaft (2-27) is connected with a sliding bearing seat (2-7) in a bearing way, the special-shaped magnetic shaft (2-27) is connected with a shaft (2-29) with a special-shaped hole in a sliding way, the shaft (2-29) with the special-shaped hole is connected with a supporting seat (2-2) in a bearing way, a discharge port (2-30) is arranged on a crushing box (2-10), a connecting rod I (2-31) is arranged in a matching hole (2-32), the matching hole (2-32) is arranged on the limiting seat (2-22), a crushing plate (2-33) with a rod is connected with a limiting plate I (2-26), the reset springs (2-34) are sleeved on the crushing plates with the rods (2-33), the reset springs (2-34) are propped against the crushing plates with the rods (2-33) and the crushing boxes (2-10), the crushing plates with the rods (I (2-35) are in sliding connection with the crushing boxes (2-10), the reset springs (I (2-36) are sleeved on the crushing plates with the rods (I (2-35), the reset springs (I (2-36) are propped against the crushing boxes (2-10) and the crushing plates with the rods (I (2-35), the crushing plates with the rods (I (2-35) are connected with the limiting seats (2-22), the air inlet one-way valves (2-37) are arranged in the tubes (B (2-19), the air outlet one-way valves (2-38) are arranged in the tubes (A) (2-16), and the connecting modes of the rotating shafts (1-2) and the crushing boxes (2-10) are in bearing connection, the motors (1-11) are connected with the supporting seats (2-2).

4. The intelligent recovery processing device for the security camera according to claim 1, characterized in that: the circulating material ring mechanism (3) comprises a special-shaped bearing seat (3-1), a discharge pipe I (3-2), a pre-crushing box (3-3), a rotating material ring seat (3-4), a discharge port I (3-5), a partition plate (3-6), a matching plate (3-7), a spring A (3-8), a supporting seat B (3-9), a special-shaped crushing seat (3-10), a square column (3-11), a square hole (3-12) and a gear ring (3-13), the special-shaped bearing seat (3-1) is connected with a base (2-1), the discharge pipe I (3-2) is arranged on the pre-crushing box (3-3), the pre-crushing box (3-3) is connected with the special-shaped bearing seat (3-1), the gear ring (3-13) is arranged on the rotating material ring seat (3-4), the gear ring (3-13) is meshed with the gear (1-3), the rotary material ring seat (3-4) is provided with a discharge port I (3-5), the rotary material ring seat (3-4) is internally provided with a partition plate (3-6), the matching plate (3-7) is connected with the square column (3-11), the spring A (3-8) is sleeved on the square column (3-11), the spring A (3-8) is propped against the matching plate (3-7), the supporting seat B (3-9) is connected with the special-shaped bearing seat (3-1), the matching plate (3-7) is in contact with the cam (1-1), the supporting seat B (3-9) is provided with a square hole (3-12), the square hole (3-12) is in sliding connection with the square column (3-11), and the square column (3-11) is connected with the special-shaped crushing seat (3-10).

5. The intelligent recovery processing device for the security camera according to claim 2, characterized in that: the hammerhead (1-7) is made of high manganese steel.