CN112570067A - Be used for old and useless communication equipment processing apparatus - Google Patents

Abstract

For solving above-mentioned technical problem, a be used for old and useless communication equipment processing apparatus, including grinding separator, transmission, feed extrusion device, run broken material after to the extrusion through grinding separator and carry out the grinding screening, transmission provides the power of equipment work, and feed extrusion device controls feeding, extrusion breakage and the control function such as crushed aggregates of old and useless equipment, its characterized in that: the transmission device is fixedly arranged on the grinding and separating device, and the feeding extrusion device is fixedly arranged on the grinding and separating device.

Description

Be used for old and useless communication equipment processing apparatus

Technical Field

The invention relates to a communication equipment processing device, in particular to a waste communication equipment processing device.

Background

In the information age, information signals are mutually transmitted through equipment, but communication equipment is continuously replaced along with the improvement of science and technology and the increase of the requirements of people on the functions of the equipment, so that the invention provides the waste communication equipment processing device.

Disclosure of Invention

The invention relates to a waste communication equipment processing device, in particular to a waste communication equipment processing device, which is used for grinding and screening extruded and crushed materials through a grinding and separating device, wherein a transmission device provides power for equipment operation, and a feeding and extruding device has the functions of controlling feeding, extruding and crushing, discharging crushed materials and the like of waste equipment.

For solving above-mentioned technical problem, a be used for old and useless communication equipment processing apparatus, including grinding separator, transmission, feed extrusion device, run broken material after to the extrusion through grinding separator and carry out the grinding screening, transmission provides the power of equipment work, and feed extrusion device controls feeding, extrusion breakage and the control function such as crushed aggregates of old and useless equipment, its characterized in that: the transmission device is fixedly arranged on the grinding and separating device, and the feeding extrusion device is fixedly arranged on the grinding and separating device.

As a further optimization of the technical scheme, the grinding and separating device for the waste communication equipment treatment device comprises an installation box, a rotating shaft, a bevel gear, a connecting plate, an upper end extrusion grinding plate, a sliding chute, a sliding rod, a sliding plate, a material baffle plate, a lower end general selection grinding orifice plate, a first sliding chute, a matching sliding plate, an installation baffle plate and a feeding pipe, wherein the rotating shaft is rotatably installed on the installation box, the bevel gear is installed and fixed on the rotating shaft, the connecting plate is installed and fixed on the upper rotating shaft, the upper end extrusion grinding plate is hinged on the connecting plate, the sliding chute is arranged on the end extrusion grinding plate, the sliding rod is slidably installed on the installation box, the sliding rod is installed and fixed on the sliding plate, the sliding plate is slidably installed inside the first sliding chute, the material baffle plate is slidably installed on the installation box, the material baffle plate is slidably installed, the smart grinding orifice plate of lower extreme hinges on the connecting plate, and spout one sets up on the smart grinding orifice plate of lower extreme, and the smart grinding orifice plate slidable mounting of lower extreme is on the cooperation sliding plate, and cooperation sliding plate slidable mounting is inside the install bin, and the installation baffle is installed on the install bin, and the inlet pipe installation is fixed on the install bin.

As a further optimization of the technical scheme, the transmission device for the waste communication equipment treatment device comprises an installation seat, a driving shaft, a half bevel gear I, a transmission shaft, a bevel gear I, a belt wheel, a belt, an installation plate, a transmission shaft I, a belt wheel I and a bevel gear II, wherein the installation seat is fixedly installed on an installation box, the driving shaft is rotatably installed on the installation seat, the half bevel gear is fixedly installed on the driving shaft, the half bevel gear I is fixedly installed on the driving shaft, the bevel gear I is fixedly installed on the transmission shaft, the belt wheel is fixedly installed on the transmission shaft, the belt is installed on the belt wheel and the belt wheel I, the installation plate is fixedly installed on the installation box, the transmission shaft I is rotatably installed on the installation plate, the belt wheel I is fixedly installed on the transmission.

As a further optimization of the technical scheme, the feeding and extruding device for the waste communication equipment processing device comprises a crushed aggregate feeding cylinder, a control shaft, a receiving belt wheel, a triangular extruding column, a discharging port, a pressurizing cylinder, an extruding plate, an extruding toothed plate, a mounting plate II, a rotating shaft I, a rotating gear, a connecting bent plate, a mounting ring, a control bolt, a friction matching plate, a unidirectional rotation control ring, a pushing plate, a connecting shaft, a pushing plate II, an arc spring, a matching groove, a connecting pushing plate, a pushing square plate, a square tube control feeding door, a spring II, an adjusting plate, a control threaded rod, a limiting spring, a limiting ball and a feeding tube I, wherein the crushed aggregate feeding cylinder is fixedly arranged on the feeding tube, the control shaft is rotatably arranged on the crushed aggregate feeding cylinder, the receiving belt wheel is fixedly arranged on the control shaft, the triangular extruding column is fixedly arranged on the control shaft, the discharging port is arranged on the crushed aggregate feeding cylinder, the device comprises a pressure cylinder, an extrusion plate, a mounting plate II, a rotating shaft I, a transmission shaft, a rotating gear, a friction fit plate, a unidirectional rotation control ring, a pushing plate, a rotating connecting shaft, a pushing plate II, a pushing plate and a pushing plate, wherein the pressure cylinder is fixedly arranged on a crushed aggregate feeding cylinder, the extrusion plate is slidably arranged in the pressure cylinder, the extrusion plate II is fixedly arranged on the extrusion plate, the mounting plate II is fixedly arranged on the pressure cylinder, the rotating shaft I is rotatably arranged on the mounting plate II, the transmission shaft is fixedly arranged on the rotating gear, the rotating gear is fixedly arranged on the rotating shaft I, the rotating gear is meshed with the extrusion plate, the connecting bent plate is fixedly arranged on the pressure cylinder, the mounting ring is fixedly arranged on the connecting bent plate, arc spring installs and fixes on catch plate two, arc spring installs and fixes inside the folk prescription rotates the control ring, the cooperation groove sets up in axis of rotation one, it fixes on the extrusion pinion rack to connect the catch plate installation, promote the square plate installation and fix on connecting the catch plate, promote square plate slidable mounting inside having square tube control feed gate, it has square tube control feed gate slidable mounting on the pressurization section of thick bamboo to have, spring two installs inside having square tube control feed gate, regulating plate slidable mounting is inside having square tube control feed gate, the control threaded rod rotates and installs on having square tube control feed gate, spacing spring installs on having square tube control feed gate, spacing ball slidable mounting is on having square tube control feed gate, inlet pipe one installation is fixed on the pressurization section of thick bamboo, driving belt installs on receiving band pulley and folk prescription rotates the control ring.

As a further optimization of the technical scheme, the number of the sliding rods and the number of the sliding plates of the grinding and separating device for the waste communication equipment processing device are two.

As a further optimization of the technical scheme, the driving shaft of the transmission device for the waste communication equipment treatment device is provided with a matched motor.

The waste communication equipment treatment device has the beneficial effects that:

the invention relates to a waste communication equipment processing device, in particular to a waste communication equipment processing device, which realizes the functions of grinding and screening extruded and crushed materials through a grinding and separating device, providing power for equipment operation through a transmission device, controlling feeding, extruding and crushing, controlling crushed material discharge and the like of waste equipment through a feeding and extruding device.

Drawings

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

Fig. 1 is a schematic view of the overall structure of the present invention.

Fig. 2 is a schematic view of the overall structure of the present invention.

Fig. 3 is a third schematic view of the overall structure of the present invention.

Fig. 4 is a first schematic structural diagram of the grinding and separating device of the present invention.

Fig. 5 is a schematic structural view of a grinding and separating device of the present invention.

Fig. 6 is a schematic view showing the structure of the grinding and separating device of the present invention.

Fig. 7 is a schematic view of the structure of the grinding and separating device of the present invention.

Fig. 8 is a schematic structural diagram of the transmission device of the invention.

Fig. 9 is a first structural schematic diagram of the feeding extrusion device of the present invention.

Fig. 10 is a structural schematic diagram of a feeding extrusion device of the present invention.

Fig. 11 is a third structural schematic diagram of the feeding extrusion device of the present invention.

Fig. 12 is a fourth structural schematic diagram of the feeding extrusion device of the present invention.

Fig. 13 is a schematic structural diagram of a feeding extrusion device of the present invention.

Fig. 14 is a structural schematic diagram six of the feeding extrusion device of the present invention.

Fig. 15 is a structural schematic diagram seven of the feeding extrusion device of the present invention.

In the figure: a grinding and separating device 1; an installation box 1-1; a rotating shaft 1-2; bevel gears 1-3; connecting plates 1-4; the upper end extrudes and crushes the board 1-5; 1-6 of a chute; a slide bar 1-7; a slide plate 1-8; 1-9 parts of a material baffle plate; grinding the orifice plate 1-10 in order at the lower end; 1-11 of the first chute; cooperating with the slide plates 1-12; installing baffle plates 1-13; feed pipes 1-14; a transmission 2; a mounting base 2-1; 2-2 of a driving shaft; 2-3 of a half bevel gear; 2-4 parts of a half bevel gear I; 2-5 of a transmission shaft; 2-6 parts of a first bevel gear; 2-7 of belt wheel; 2-8 parts of a belt; mounting plates 2-9; a first transmission shaft 2-10; 2-11 of a belt wheel I; 2-12 parts of a bevel gear II; a feeding extrusion device 3; a crushed material feeding cylinder 3-1; a control shaft 3-2; a receiving pulley 3-3; 3-4 parts of a triangular extrusion column; 3-5 of a discharge port; 3-6 parts of a pressurizing cylinder; 3-7 parts of an extrusion plate; 3-8 of an extrusion toothed plate; 3-9 parts of a second mounting plate; rotating the first shaft by 3-10; 3-11 of a rotating gear; connecting the bent plates 3-12; 3-13 of a mounting ring; 3-14 parts of control bolt; 3-15 parts of friction fit plates; unidirectional rotation control ring 3-16; 3-17 of a push plate; connecting shafts 3-18; 3-19 of a second pushing plate; 3-20 parts of arc-shaped spring; 3-21 of a matching groove; connecting the pushing plates 3-22; pushing the square plate 3-23; 3-24 of a square tube control feeding door; 3-25 parts of a second spring; adjusting plates 3-26; control threaded rods 3-27; 3-28 parts of a limiting spring; 3-29 parts of a limiting ball and 3-30 parts of a first feeding pipe; and a transmission belt 3-31.

Detailed Description

The first embodiment is as follows:

in order to solve the above technical problems, a waste communication equipment processing apparatus includes a grinding and separating device 1, a transmission device 2, and a feeding and extruding device 3, the grinding and separating device grinds and sieves crushed materials after being extruded, the transmission device provides power for the operation of the equipment, and the feeding and extruding device controls the feeding, crushing and discharging of the waste equipment, and is characterized in that: the transmission device 2 is fixedly arranged on the grinding and separating device 1, and the feeding extrusion device 3 is fixedly arranged on the grinding and separating device 1.

The second embodiment is as follows:

the embodiment is described below with reference to fig. 1, 2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13, 14, 15, and is further described, where the grinding and separating device 1 includes a mounting box 1-1, a rotating shaft 1-2, a bevel gear 1-3, a connecting plate 1-4, an upper end extrusion grinding plate 1-5, a sliding chute 1-6, a sliding rod 1-7, a sliding plate 1-8, a material baffle plate 1-9, a lower end extrusion grinding orifice plate 1-10, a sliding chute 1-11, a matching sliding plate 1-12, a mounting baffle plate 1-13, and a feeding pipe 1-14, the bevel gear 1-3 drives the connecting plate 1-4 to rotate in a reciprocating manner through the rotating shaft 1-2, and the connecting plate 1-4 swinging in a reciprocating manner can enable the upper end extrusion grinding plate 1-5 to be hinged and the lower end extrusion grinding orifice plate 1-5 to be hinged 10 are matched with the sliding plates 1-8 to enable the upper end extrusion grinding plate 1-5 and the lower end handsome grinding orifice plate 1-10 to move up and down in a reciprocating way, the moving directions are opposite, materials entering between the upper end extrusion grinding plate 1-5 and the lower end handsome grinding orifice plate 1-10 are extruded and ground in a reciprocating way, when the size of the materials is smaller than a certain size, the materials can leak out from the lower end handsome grinding orifice plate 1-10, the rest materials are hard blocks with metal, when the hard blocks are accumulated to a certain number, the materials are taken out through the positions of the mounting baffle plates 1-13, the rotating shaft 1-2 is rotatably mounted on the mounting box 1-1, the bevel gear 1-3 is mounted and fixed on the rotating shaft 1-2, the connecting plate 1-4 is mounted and fixed on the upper rotating shaft 1-2, the upper end extrusion grinding plate 1-5 is hinged on the mounting plate 1-4, the chute 1-6 is arranged on the end extrusion grinding plate 1-5, the sliding rod 1-7 is slidably arranged on the installation box 1-1, the sliding rod 1-7 is fixedly arranged on the sliding plate 1-8, the sliding plate 1-8 is slidably arranged in the chute 1-6, the sliding plate 1-8 is slidably arranged in the chute I1-11, the baffle plate 1-9 is slidably arranged on the installation box 1-1, the baffle plate 1-9 is slidably arranged on the end extrusion grinding plate 1-5, the lower end handsome grinding orifice plate 1-10 is hinged on the connecting plate 1-4, the chute I1-11 is arranged on the lower end handsome grinding orifice plate 1-10, the lower end handsome grinding orifice plate 1-10 is slidably arranged on the matching sliding plate 1-12, and the matching sliding plate 1-12 is slidably arranged in the installation box 1-1, the mounting baffle plate 1-13 is mounted on the mounting box 1-1, and the feeding pipe 1-14 is mounted and fixed on the mounting box 1-1.

The third concrete implementation mode:

the embodiment is described below with reference to fig. 1, 2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13, 14 and 15, and the embodiment is further described, wherein the transmission device 2 comprises a mounting base 2-1, a driving shaft 2-2, a half bevel gear 2-3, a half bevel gear one 2-4, a driving shaft 2-5, a bevel gear one 2-6, a pulley 2-7, a belt 2-8, a mounting plate 2-9, a driving shaft one 2-10, a pulley one 2-11 and a bevel gear two 2-12, firstly, the driving shaft 2-2 of the transmission device 2 drives the half bevel gear 2-3 and the half bevel gear one 2-4 to rotate, the half bevel gear 2-3 and the half bevel gear one 2-4 are reciprocally engaged with the bevel gear one 2-6 to enable the bevel gear one 2-6 to reciprocally rotate, the bevel gear I2-6 drives a belt wheel 2-7 to rotate in a reciprocating manner through a transmission shaft 2-5, the belt wheel 2-7 drives the belt wheel I2-11 to move in a reciprocating manner through a belt 2-8, the belt wheel I2-11 drives a bevel gear II 2-12 to move in a reciprocating manner through a transmission shaft I2-10, the bevel gear II 2-12 drives a bevel gear 1-3 of the grinding and separating device 1 to rotate in a reciprocating manner, a mounting seat 2-1 is fixedly arranged on a mounting box 1-1, a driving shaft 2-2 is rotatably arranged on the mounting seat 2-1, a half bevel gear 2-3 is fixedly arranged on the driving shaft 2-2, a half bevel gear I2-4 is fixedly arranged on the driving shaft 2-2, a bevel gear I2-6 is fixedly arranged on the transmission shaft 2-5, and a belt wheel 2-7 is, the belt 2-8 is arranged on the belt wheel 2-7 and the belt wheel I2-11, the mounting plate 2-9 is fixedly arranged on the mounting box 1-1, the transmission shaft I2-10 is rotatably arranged on the mounting plate 2-9, the belt wheel I2-11 is fixedly arranged on the transmission shaft I2-10, and the bevel gear II 2-12 is fixedly arranged on the transmission shaft I2-10.

The fourth concrete implementation mode:

the second embodiment is further described with reference to fig. 1, 2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13, 14, 15. the second embodiment is further described, in which the feeding and extruding device 3 includes a crushed material feeding cylinder 3-1, a control shaft 3-2, a receiving pulley 3-3, a triangular extruding column 3-4, a discharging port 3-5, a pressurizing cylinder 3-6, an extruding plate 3-7, an extruding toothed plate 3-8, a mounting plate two 3-9, a rotating shaft one 3-10, a rotating gear 3-11, a connecting bent plate 3-12, a mounting ring 3-13, a control bolt 3-14, a friction fit plate 3-15, a unidirectional rotation control ring 3-16, a pushing plate 3-17, a connecting shaft 3-18, a pushing plate two 3-19, a connecting rod 3-13, a connecting rod 3-14, a connecting rod 3-15, a connecting rod 3-6, 3-20 parts of arc-shaped spring, 3-21 parts of matching groove, 3-22 parts of connecting pushing plate, 3-23 parts of pushing square plate, 3-24 parts of feeding door with square tube control, 3-25 parts of spring II, 3-26 parts of adjusting plate, 3-27 parts of control threaded rod, 3-28 parts of limiting spring, 3-29 parts of limiting ball, 3-30 parts of feeding tube I and 3-31 parts of driving belt, wherein reciprocating rotating shaft 2-5 drives rotating gear 3-11 of feeding extrusion device 3 to rotate in reciprocating mode, rotating gear 3-11 drives rotating shaft I3-10 to rotate in reciprocating mode and extrusion toothed plate 3-8 to move up and down, when extrusion toothed plate 3-8 moves up, matching groove 3-21 of rotating shaft I3-10 pushes unidirectional rotation control ring 3-16 to rotate through connecting pushing plate 3-22, the unidirectional rotation control ring 3-16 drives the receiving belt wheel 3-3 to rotate through the transmission belt 3-31, the receiving belt wheel 3-3 drives the triangular extrusion column 3-4 to rotate through the control shaft 3-2 and then discharges the crushed materials into the crushed material feeding cylinder 3-1, when the extrusion toothed plate 3-8 drives the extrusion plate 3-7 to move to the topmost end, the other surface of the triangular extrusion column 3-4 keeps a parallel state, meanwhile, the extrusion toothed plate 3-8 extrudes the spring II 3-25 through the connection of the pushing plate 3-22 and the pushing square plate 3-23, the extrusion force of the extrusion toothed plate 3-8 on the spring II is larger than the force of the limiting spring 3-28 on the limiting ball 3-29, so that the feeding door 3-24 with the square pipe control is instantly bounced, and then the materials in the feeding pipe 3-30 enter between the extrusion plate 3-7 and the triangular extrusion column 3-4, then the rotating gear 3-11 drives the rotating shaft I3-10 to reversely rotate and the extrusion toothed plate 3-8 to move downwards, the rotating shaft I3-10 cannot drive the triangular extrusion column 3-4 to rotate when the rotating shaft I3-10 is reversed due to certain pressure applied to the friction fit plate 3-15 by the control bolt 3-14 and acts on the unidirectional rotation control ring 3-16 and the angle of the fit groove 3-21 on the rotating shaft I3-10, the extrusion toothed plate 3-8 drives the extrusion plate 3-7 and the feeding door 3-24 with the square pipe to move downwards to crush the waste materials, then when the extrusion plate 3-7 moves upwards, the triangular extrusion column 3-4 rotates again, the materials on the triangular extrusion column 3-4 are discharged into the crushed material feeding cylinder 3-1 from the discharge port 3-5 to the feeding pipe 1-14, and then the above steps are carried out The process comprises the steps that a crushed aggregate feeding cylinder 3-1 is fixedly arranged on a feeding pipe 1-14, a control shaft 3-2 is rotatably arranged on the crushed aggregate feeding cylinder 3-1, a receiving belt wheel 3-3 is fixedly arranged on the control shaft 3-2, a triangular extrusion column 3-4 is fixedly arranged on the control shaft 3-2, a discharge port 3-5 is arranged on the crushed aggregate feeding cylinder 3-1, a pressurizing cylinder 3-6 is fixedly arranged on the crushed aggregate feeding cylinder 3-1, an extrusion plate 3-7 is slidably arranged in the pressurizing cylinder 3-6, an extrusion toothed plate 3-8 is fixedly arranged on the extrusion plate 3-7, a mounting plate two 3-9 is fixedly arranged on the pressurizing cylinder 3-6, a rotating shaft one 3-10 is rotatably arranged on the mounting plate two 3-9, a transmission shaft 2-5 is fixedly arranged on a rotating gear 3-11, a rotating gear 3-11 is fixedly arranged on a rotating shaft I3-10, the rotating gear 3-11 is meshed with an extrusion toothed plate 3-8, a connecting bent plate 3-12 is fixedly arranged on a pressurizing cylinder 3-6, a mounting ring 3-13 is fixedly arranged on the connecting bent plate 3-12, a control bolt 3-14 is arranged on the mounting ring 3-13, the control bolt 3-14 is in threaded fit with the mounting ring 3-13, the control bolt 3-14 is rotatably arranged on a friction fit plate 3-15, the friction fit plate 3-15 is slidably arranged in the mounting ring 3-13, a unidirectional rotating control ring 3-16 is rotatably arranged on the mounting ring 3-13, a pushing plate 3-17 is fixedly arranged on a connecting shaft 3-18, the connecting shaft 3-18 is rotatably arranged in the unidirectional rotating control ring 3-16, a pushing plate II 3-19 is fixedly arranged on a connecting shaft 3-18, an arc spring 3-20 is fixedly arranged on the pushing plate II 3-19, the arc spring 3-20 is fixedly arranged inside a unidirectional rotation control ring 3-16, a matching groove 3-21 is arranged on a rotating shaft I3-10, a connecting pushing plate 3-22 is fixedly arranged on an extrusion toothed plate 3-8, a pushing square plate 3-23 is fixedly arranged on the connecting pushing plate 3-22, the pushing square plate 3-23 is slidably arranged inside a square tube control feeding door 3-24, the square tube control feeding door 3-24 is slidably arranged on a pressurizing cylinder 3-6, a spring II 3-25 is arranged inside the square tube control feeding door 3-24, an adjusting plate 3-26 is slidably arranged inside the square tube control feeding door 3-24, the control threaded rod 3-27 is rotatably arranged on the square tube control feed door 3-24, the limiting spring 3-28 is arranged on the square tube control feed door 3-24, the limiting ball 3-29 is slidably arranged on the square tube control feed door 3-24, the feeding pipe I3-30 is fixedly arranged on the pressurizing cylinder 3-6, and the transmission belt 3-31 is arranged on the receiving belt wheel 3-3 and the unidirectional rotation control ring 3-16.

The fifth concrete implementation mode:

in the following, this embodiment will be described with reference to fig. 1, 2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13, 14, 15, and this embodiment will be further described as an embodiment two, where there are two slide bars 1 to 7 and two slide bars 1 to 8 of the grinding and separating device 1.

The sixth specific implementation mode:

the second embodiment is further described below with reference to fig. 1, 2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13, 14, and 15, and the driving shaft 2-2 of the transmission 2 is provided with a matching motor.

The working principle of the invention is as follows:

a working principle for a waste communication equipment processing device is that before use, whether the connection condition between the devices meets requirements is checked, firstly, a driving shaft 2-2 of a transmission device 2 drives a half bevel gear 2-3 and a half bevel gear 2-4 to rotate, the half bevel gear 2-3 and the half bevel gear 2-4 are meshed with a bevel gear 2-6 in a reciprocating mode so that the bevel gear 2-6 rotates in a reciprocating mode, the bevel gear 2-6 drives a belt wheel 2-7 to rotate in a reciprocating mode through a transmission shaft 2-5, the belt wheel 2-7 drives a belt wheel 2-11 to move in a reciprocating mode through a belt 2-8, the belt wheel 2-11 drives a bevel gear 2-12 to move in a reciprocating mode through the transmission shaft 2-10, and the bevel gear 2-12 drives a bevel gear 1-3 of a grinding and separating device 1 to rotate in a reciprocating mode, the bevel gears 1-3 drive the connecting plates 1-4 to rotate in a reciprocating manner through the rotating shafts 1-2, the connecting plates 1-4 which swing in a reciprocating manner can enable the hinged upper end extrusion grinding plates 1-5 and the hinged lower end handsome grinding hole plates 1-10 to be matched with the sliding plates 1-8, so that the upper end extrusion grinding plates 1-5 and the lower end handsome grinding hole plates 1-10 move up and down in a reciprocating manner and the moving directions are opposite, materials entering the space between the upper end extrusion grinding plates 1-5 and the lower end handsome grinding hole plates 1-10 are subjected to reciprocating extrusion grinding, when the size of the materials is smaller than a certain size, the materials can leak out from the lower end handsome grinding hole plates 1-10, the rest materials are metal hard blocks, and when the hard blocks are accumulated to a certain number, the materials are taken out through the positions of the mounting baffles 1-13, the reciprocating rotary transmission shaft 2-5 drives the rotary gear 3-11 of the feeding extrusion device 3 to rotate in a reciprocating mode, the rotary gear 3-11 drives the rotary shaft I3-10 to rotate in a reciprocating mode and the extrusion toothed plate 3-8 to move up and down, when the extrusion toothed plate 3-8 moves upwards, the matching groove 3-21 of the rotary shaft I3-10 pushes the unidirectional rotation control ring 3-16 to rotate through the connection of the pushing plate 3-22, the unidirectional rotation control ring 3-16 drives the receiving belt wheel 3-3 to rotate through the transmission belt 3-31, the receiving belt wheel 3-3 drives the triangular extrusion column 3-4 to rotate through the control shaft 3-2 and then discharges the crushed materials into the crushed material feeding cylinder 3-1, and when the extrusion toothed plate 3-8 drives the extrusion plate 3-7 to move to the topmost end, the other face of the triangular extrusion column 3-4 is kept in a parallel state Meanwhile, the extrusion toothed plate 3-8 enables the square tube control feeding door 3-24 to be instantly bounced up by connecting the push plate 3-22 with the push square plate 3-23 to the spring II 3-25 through the component of the limit spring 3-28 to the limit ball 3-29, then the material in the feeding tube I3-30 enters between the extrusion plate 3-7 and the triangular extrusion column 3-4, then the rotating gear 3-11 drives the rotating shaft I3-10 to reversely rotate and the extrusion toothed plate 3-8 to downwards move, as the control bolt 3-14 gives a certain pressure to the friction fit plate 3-15 and acts on the unidirectional rotation control ring 3-16, and the rotating shaft I3-10 cannot drive the triangular extrusion column 3-4 to rotate in the reverse direction due to the angle of the fit groove 3-21 on the rotating shaft I3-10, the extrusion toothed plate 3-8 drives the extrusion plate 3-7 and the feeding door 3-24 with the square pipe control to move downwards to crush the waste materials, then when the extrusion plate 3-7 moves upwards, the triangular extrusion column 3-4 rotates again, the materials on the triangular extrusion column 3-4 are discharged into the crushed material feeding cylinder 3-1, enter the feeding pipe 1-14 from the discharging port 3-5, and then the process is carried out.

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 (6)

1. The utility model provides a be used for old and useless communication equipment processing apparatus, includes grinding separator (1), transmission (2), feed extrusion device (3), its characterized in that: the transmission device (2) is fixedly arranged on the grinding and separating device (1), and the feeding extrusion device (3) is fixedly arranged on the grinding and separating device (1).

2. The waste communication equipment treatment device according to claim 1, wherein the waste communication equipment treatment device comprises: the grinding and separating device (1) comprises an installation box (1-1), a rotating shaft (1-2), bevel gears (1-3), a connecting plate (1-4), an upper end extrusion grinding plate (1-5), a sliding chute (1-6), a sliding rod (1-7), a sliding plate (1-8), a material baffle plate (1-9), a lower end handsome grinding orifice plate (1-10), a sliding chute (1-11), a matching sliding plate (1-12), an installation baffle plate (1-13) and a feeding pipe (1-14), wherein the rotating shaft (1-2) is rotatably installed on the installation box (1-1), the bevel gears (1-3) are installed and fixed on the rotating shaft (1-2), the connecting plate (1-4) is installed and fixed on the upper rotating shaft (1-2), an upper end extrusion grinding plate (1-5) is hinged on a connecting plate (1-4), a sliding chute (1-6) is arranged on the end extrusion grinding plate (1-5), a sliding rod (1-7) is slidably arranged on an installation box (1-1), the sliding rod (1-7) is fixedly arranged on a sliding plate (1-8), the sliding plate (1-8) is slidably arranged inside the sliding chute (1-6), the sliding plate (1-8) is slidably arranged inside a sliding chute I (1-11), a material baffle plate (1-9) is slidably arranged on the installation box (1-1), the material baffle plate (1-9) is slidably arranged on the end extrusion grinding plate (1-5), a lower end general selection grinding pore plate (1-10) is hinged on the connecting plate (1-4), the sliding chute I (1-11) is arranged on the lower end general selection grinding pore plate (1-10), the lower end of the general grinding orifice plate (1-10) is slidably mounted on a matching sliding plate (1-12), the matching sliding plate (1-12) is slidably mounted inside a mounting box (1-1), a mounting baffle plate (1-13) is mounted on the mounting box (1-1), and a feeding pipe (1-14) is fixedly mounted on the mounting box (1-1).

3. The waste communication equipment treatment device according to claim 1, wherein the waste communication equipment treatment device comprises: the transmission device (2) comprises a mounting seat (2-1), a driving shaft (2-2), a half bevel gear (2-3), a half bevel gear I (2-4), a transmission shaft (2-5), a bevel gear I (2-6), a belt wheel (2-7), a belt (2-8), a mounting plate (2-9), a transmission shaft I (2-10), a belt wheel I (2-11) and a bevel gear II (2-12), wherein the mounting seat (2-1) is fixedly arranged on a mounting box (1-1), the driving shaft (2-2) is rotatably arranged on the mounting seat (2-1), the half bevel gear (2-3) is fixedly arranged on the driving shaft (2-2), and the half bevel gear I (2-4) is fixedly arranged on the driving shaft (2-2), the bevel gear I (2-6) is fixedly arranged on the transmission shaft I (2-5), the belt wheel (2-7) is fixedly arranged on the transmission shaft I (2-5), the belt (2-8) is arranged on the belt wheel (2-7) and the belt wheel I (2-11), the mounting plate (2-9) is fixedly arranged on the mounting box (1-1), the transmission shaft I (2-10) is rotatably arranged on the mounting plate (2-9), the belt wheel I (2-11) is fixedly arranged on the transmission shaft I (2-10), and the bevel gear II (2-12) is fixedly arranged on the transmission shaft I (2-10).

4. The waste communication equipment treatment device according to claim 2, wherein the waste communication equipment treatment device comprises: the feeding extrusion device (3) comprises a crushed aggregate feeding cylinder (3-1), a control shaft (3-2), a receiving belt wheel (3-3), a triangular extrusion column (3-4), a discharge hole (3-5), a pressurizing cylinder (3-6), an extrusion plate (3-7), an extrusion toothed plate (3-8), a mounting plate II (3-9), a rotating shaft I (3-10), a rotating gear (3-11), a connecting bent plate (3-12), a mounting ring (3-13), a control bolt (3-14), a friction fit plate (3-15), a unidirectional rotation control ring (3-16), a pushing plate (3-17), a connecting shaft (3-18), a pushing plate II (3-19), an arc spring (3-20), a fit groove (3-21), A pushing plate (3-22), a pushing square plate (3-23), a square tube control feeding door (3-24), a second spring (3-25), an adjusting plate (3-26), a control threaded rod (3-27), a limiting spring (3-28), a limiting ball (3-29), a first feeding tube (3-30), a transmission belt (3-31), a crushed aggregate feeding cylinder (3-1) is fixedly arranged on the feeding tube (1-14), a control shaft (3-2) is rotatably arranged on the crushed aggregate feeding cylinder (3-1), a receiving belt wheel (3-3) is fixedly arranged on the control shaft (3-2), a triangular extrusion column (3-4) is fixedly arranged on the control shaft (3-2), and a discharging port (3-5) is arranged on the crushed aggregate feeding cylinder (3-1), the pressing cylinder (3-6) is fixedly arranged on the crushed aggregate feeding cylinder (3-1), the extrusion plate (3-7) is slidably arranged in the pressing cylinder (3-6), the extrusion toothed plate (3-8) is fixedly arranged on the extrusion plate (3-7), the mounting plate II (3-9) is fixedly arranged on the pressing cylinder (3-6), the rotating shaft I (3-10) is rotatably arranged on the mounting plate II (3-9), the transmission shaft (2-5) is fixedly arranged on the rotating gear (3-11), the rotating gear (3-11) is fixedly arranged on the rotating shaft I (3-10), the rotating gear (3-11) is meshed with the extrusion toothed plate (3-8), the connecting bent plate (3-12) is fixedly arranged on the pressing cylinder (3-6), the mounting ring (3-13) is fixedly arranged on the connecting bent plate (3-12), control bolts (3-14) are arranged on the mounting rings (3-13), the control bolts (3-14) are in threaded fit with the mounting rings (3-13), the control bolts (3-14) are rotationally arranged on friction fit plates (3-15), the friction fit plates (3-15) are slidably arranged in the mounting rings (3-13), unidirectional rotation control rings (3-16) are rotationally arranged on the mounting rings (3-13), pushing plates (3-17) are fixedly arranged on connecting shafts (3-18), the connecting shafts (3-18) are rotationally arranged in unidirectional rotation control rings (3-16), pushing plates (3-19) are fixedly arranged on the connecting shafts (3-18), and arc-shaped springs (3-20) are fixedly arranged on the pushing plates (3-19), the arc-shaped springs (3-20) are fixedly installed inside the unidirectional rotation control rings (3-16), the matching grooves (3-21) are arranged on the first rotating shafts (3-10), the connecting pushing plates (3-22) are fixedly installed on the extrusion toothed plates (3-8), the pushing square plates (3-23) are fixedly installed on the connecting pushing plates (3-22), the pushing square plates (3-23) are slidably installed inside the square tube control feeding doors (3-24), the square tube control feeding doors (3-24) are slidably installed on the pressurizing cylinders (3-6), the springs (3-25) are installed inside the square tube control feeding doors (3-24), the adjusting plates (3-26) are slidably installed inside the square tube control feeding doors (3-24), and the control threaded rods (3-27) are rotatably installed on the square tube control feeding doors (3-24), the limiting springs (3-28) are installed on the square tube control feeding doors (3-24), the limiting balls (3-29) are installed on the square tube control feeding doors (3-24) in a sliding mode, the feeding tubes I (3-30) are installed and fixed on the pressurizing cylinders (3-6), and the transmission belts (3-31) are installed on the receiving belt wheels (3-3) and the unidirectional rotation control rings (3-16).

5. The waste communication equipment treatment device according to claim 2, wherein the waste communication equipment treatment device comprises: the number of the sliding rods (1-7) and the sliding plates (1-8) of the grinding and separating device (1) is two.

6. The waste communication equipment treatment device according to claim 3, wherein the waste communication equipment treatment device comprises: a driving shaft (2-2) of the transmission device (2) is provided with a matched motor.

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