CN113210108B - Crushing equipment for waste intelligent device - Google Patents

Abstract

For solving above-mentioned technical problem, a old and useless intelligent device crushing equipment, including the preliminary breaker of feeding, crushed aggregates advancing device, secondary breaker, carry out preliminary breakage to the device of abandonment through the preliminary breaker of feeding, crushed aggregates advancing device promotes the secondary breaker forward with preliminary broken material and carries out the secondary and decide the breakage, secondary breaker carries out the quadratic breakage to preliminary broken device and arranges the function such as the effect that the flitch prevents the emission promotion of crushed aggregates to promote when broken, its characterized in that: the primary feeding crushing device is fixedly arranged on the crushed material propelling device, and the secondary crushing device is fixedly arranged on the crushed material propelling device.

Description

Crushing equipment for waste intelligent device

Technical Field

The invention relates to crushing equipment, in particular to crushing equipment for waste intelligent devices.

Background

By the improvement of science and technology, the intelligent device is continuously introduced into our life, the updating speed is continuously increased, and a large amount of intelligent equipment is eliminated, so that the waste intelligent device crushing equipment is invented.

Disclosure of Invention

The invention relates to waste intelligent device crushing equipment, in particular to waste intelligent device crushing equipment.

For solving above-mentioned technical problem, a waste intelligent device crushing apparatus, including the preliminary breaker of feeding, crushed aggregates advancing device, secondary breaker, carry out preliminary breakage to dumped device through the preliminary breaker of feeding, crushed aggregates advancing device promotes secondary and decides the breakage with preliminary broken material forward to secondary breaker, secondary breaker carries out quadratic breakage and arranges the function such as effect that the flitch prevents the discharge of crushed aggregates to promote the emission when broken to preliminary broken device, its characterized in that: the primary feeding crushing device is fixedly arranged on the crushed material propelling device, and the secondary crushing device is fixedly arranged on the crushed material propelling device.

According to the technical scheme, the waste intelligent device crushing equipment comprises an installation shell, a feeding inclined plane, an installation frame, an extrusion shaft, a first half gear, a second half gear, a first connection shaft, a first gear, a first bevel gear, a second connection shaft, a second bevel gear, a rotating disc, a pushing column, a connection pushing rod, an extrusion plate and a discharge port, wherein the feeding inclined plane is arranged on the installation shell, the installation frame is fixedly installed on the installation shell, the extrusion shaft is rotatably installed on the installation frame, the first half gear is fixedly installed on the extrusion shaft, the second half gear is fixedly installed on the extrusion shaft, the first connection shaft is rotatably installed on the installation frame, the first gear is fixedly installed on the first connection shaft, the second connection shaft is rotatably installed on the installation frame, the second bevel gear is fixedly installed on the second connection shaft, the second bevel gear is meshed with the first bevel gear, the rotating disc is fixedly installed on the second connection shaft, the pushing column is rotatably installed on the pushing rod, the connection pushing rod is rotatably installed on the extrusion plate, the extrusion plate is slidably installed on the installation shell, and the discharge port is arranged on the installation shell.

As a further optimization of the technical scheme, the crushing device for the waste intelligent devices comprises a connecting material pushing pipe, a material pushing rotating shaft, a material pushing spiral plate and a material discharging outlet, wherein the mounting shell is fixedly mounted on the connecting material pushing pipe, the material pushing rotating shaft is rotatably mounted on the mounting shell, the material pushing spiral plate is fixedly mounted on the material pushing rotating shaft, and the material discharging outlet is arranged on the connecting material pushing pipe.

As a further optimization of the technical scheme, the invention relates to waste intelligent device crushing equipment, which comprises a secondary crushing box, a feed inlet II, a reciprocating rotating shaft, a bevel gear III, an extrusion pushing gear, a pushing toothed plate, a sliding limiting plate, a crushing extrusion plate, a reset semi-spring, a position limiting plate, an installation fixing plate, a connecting shaft III, a bevel gear IV, a semi-gear III, a connecting shaft IV, a unidirectional rotating ratchet gear, an output belt wheel, an installation frame II, a pulling rotating shaft, a receiving belt wheel, a pulling gear II, a transmission belt, a discharge control plate, a spring I, a sliding square head connecting bolt, a spring II and a connecting rack, wherein the secondary crushing box is fixedly installed on a connecting material pushing pipe, the feed inlet II is arranged on the secondary crushing box, the reciprocating rotating shaft is rotatably installed on the secondary crushing box, and the bevel gear III is fixedly installed on the reciprocating rotating shaft, an extrusion pushing gear is installed and fixed on a reciprocating rotating shaft, a pushing toothed plate is installed and fixed on a sliding limiting plate in a sliding mode, the sliding limiting plate is installed and fixed inside a secondary crushing box, a crushing extrusion plate is installed and fixed on the pushing toothed plate in a rotating mode, a reset half spring is installed and fixed on the crushing extrusion plate and the pushing toothed plate, a position limiting plate is installed and fixed on the pushing toothed plate, an installation fixing plate is installed and fixed on the secondary crushing box, a connecting shaft three is installed and fixed on the installation fixing plate, a bevel gear four is installed and fixed on a connecting shaft three, a half gear three is installed and fixed on a connecting shaft three, a connecting shaft four is installed and fixed on the installation fixing plate, a one-way rotating ratchet gear is installed on the connecting shaft four, an output belt wheel is installed and fixed on the connecting shaft four, an installation frame two is installed and fixed on the secondary crushing box, an pulling rotating shaft is installed and rotated on an installation frame two, and a receiving belt wheel is installed and fixed on the pulling rotating shaft, pulling gear two installation is fixed on pulling open the axis of rotation, and driving belt installs on receiving band pulley and output band pulley, arranges material control panel slidable mounting inside the secondary crushing case, and spring one installation is fixed on arranging the material control panel, and slip square head connecting bolt slidable mounting is inside arranging the material control panel, and spring two suit is on slip square head connecting bolt, and the installation of connecting rack is fixed on slip square head connecting bolt, and connecting rack slidable mounting is inside the secondary crushing case, connects rack and the meshing of pulling gear two.

As a further optimization of the technical scheme, the crushing equipment for the waste intelligent devices comprises a matched motor arranged on an extrusion shaft of the primary feeding crushing device, two connecting shafts I, two gears I, two bevel gears I, two connecting shafts II, two bevel gears II, a rotating disc, two pushing columns, two connecting pushing rods and two extrusion plates, wherein the pushing rotating shafts are connected with the extrusion shaft through a transmission device.

As a further optimization of the technical scheme, the crushing equipment for the waste intelligent devices comprises a reciprocating rotating shaft of a secondary crushing device, wherein a matched motor is arranged, and the reciprocating rotating shaft of the secondary crushing device comprises a third bevel gear, a mounting fixing plate, a third connecting shaft, a fourth bevel gear, a third half gear, a fourth connecting shaft, a unidirectional rotating ratchet gear, an output belt wheel, a second mounting frame, a pulling rotating shaft, a receiving belt wheel, a second pulling gear, a transmission belt, a discharging control plate, a sliding square head connecting bolt, a second spring and a connecting rack, wherein the number of the first spring is four.

The crushing equipment for the waste intelligent device has the beneficial effects that:

the invention relates to waste intelligent device crushing equipment, in particular to waste intelligent device crushing equipment, which has the functions of primarily crushing a waste device by feeding a primary crushing device, pushing a primarily crushed material to a secondary crushing device by a crushed material pushing device for secondary and fixed crushing, secondarily crushing the primarily crushed material by the secondary crushing device, preventing the discharge of crushed materials by a discharge plate during crushing, improving the discharge effect and the like.

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 schematic structural diagram of a feeding primary crushing device of the invention.

FIG. 4 is a schematic structural diagram of a feeding preliminary crushing device of the present invention.

Fig. 5 is a schematic structural diagram of a feeding primary crushing device in the invention.

Fig. 6 is a fourth schematic structural diagram of the feeding primary crushing device of the invention.

Fig. 7 is a first schematic view of a chip pusher according to the present invention.

Fig. 8 is a second schematic structural diagram of a crushing propulsion device according to the invention.

Fig. 9 is a schematic structural diagram of a secondary crushing device according to the first embodiment of the present invention.

Fig. 10 is a schematic structural diagram of a secondary crushing device of the invention.

Fig. 11 is a third schematic structural diagram of the secondary crushing device of the invention.

Fig. 12 is a fourth schematic structural view of the secondary crushing device of the invention.

In the figure: a feeding preliminary crushing device 1; mounting the shell 1-1; a feeding bevel 1-2; mounting frames 1-3; 1-4 of an extrusion shaft; 1-5 of a half gear I; 1-6 of a half gear II; connecting shafts I1-7; 1-8 parts of a first gear; 1-9 parts of a first bevel gear; connecting shafts II 1-10; 1-11 parts of a bevel gear II; 1-12 of a rotating disc; pushing the columns 1-13; connecting push rods 1-14; 1-15 parts of an extrusion plate; 1-16 parts of a discharge port; a scrap pusher apparatus 2; connecting a material pushing pipe 2-1; 2-2 parts of pushing rotating shaft; 2-3 of pushing spiral plate; a discharge outlet 2-4; a secondary crushing device 3; 3-1 of a secondary crushing box; a second feeding hole 3-2; 3-3 parts of a reciprocating rotating shaft; bevel gears III 3-4; 3-5 of a pushing gear is extruded; pushing toothed plates 3-6; 3-7 of a sliding limiting plate; 3-8 parts of a crushing extrusion plate; 3-9 parts of a reset half spring; position limiting plates 3-10; mounting a fixed plate 3-11; connecting shafts III are 3-12; bevel gears four 3-13; 3-14 parts of a half gear; connecting shaft IV 3-15; 3-16 of ratchet wheel rotating in one direction; an output pulley 3-17; mounting frames II 3-18; pulling the rotating shaft 3-19 open; receiving pulleys 3-20; pulling the second gear 3-21; 3-22 parts of a transmission belt; discharging control plates 3-23; 3-24 parts of a first spring; sliding square head connecting bolts 3-25; 3-26 parts of a second spring; connecting racks 3-27.

Detailed Description

The first embodiment is as follows:

in the following, combine fig. 1, 2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12 to describe this embodiment, this embodiment further describes the first embodiment, in order to solve the above technical problem, a waste intelligent device crushing apparatus, including the preliminary breaker of feeding 1, crushed aggregates advancing device 2, secondary crusher device 3, carry out preliminary breakage to the abandoned device through the preliminary breaker of feeding, crushed aggregates advancing device pushes the material of preliminary breakage forward to secondary crusher device and carries out the secondary and decide breakage, secondary crusher device carries out secondary breakage to the preliminary broken device and when broken the discharge plate prevents that the discharge of crushed aggregates promotes functions such as the effect of discharging, its characterized in that: the preliminary breaker 1 of feeding is installed and is fixed on crushed aggregates advancing device 2, and secondary crushing device 3 is installed and is fixed on crushed aggregates advancing device 2.

The second embodiment is as follows:

the first embodiment is further described by combining fig. 1, 2, 3, 4, 5, 6, 7, 8, 9, 10, 11 and 12. The first embodiment is further described by the first embodiment, the preliminary feeding crushing device 1 comprises a mounting shell 1-1, a feeding inclined plane 1-2, a mounting rack 1-3, an extruding shaft 1-4, a first half gear 1-5, a second half gear 1-6, a first connecting shaft 1-7, a first gear 1-8, a first bevel gear 1-9, a second connecting shaft 1-10, a second bevel gear 1-11, a rotating disc 1-12, a pushing column 1-13, a connecting pushing rod 1-14, an extruding plate 1-15 and a discharging port 1-16, preferably, a device to be processed enters the mounting shell 1-1 through the feeding inclined plane 1-2 of the preliminary feeding crushing device 1, then the extruding shaft 1-4 rotates under the action of a matched motor, the extruding shaft 1-4 drives the first half gear 1-5 and the second half gear 1-6 to rotate through the feeding inclined plane 1-2 of the first feeding crushing device 1, then drives the second half gear 1-6 to rotate through the reciprocating rotating disc 1-12, the first connecting shaft 1-8 and the second bevel gear 1-8 to drive the rotating disc 1-7 to rotate, then the second bevel gear 1-8 to drive the rotating disc to rotate, and drive the first bevel gear 1-7 to rotate through the second bevel gear 1-8 to drive the rotating disc 1-7 to drive the rotating disc 1-12, and the second bevel gear 1-8 to rotate, and drive the rotating disc to rotate, and drive the second bevel gear 1-8 to rotate, and drive the reciprocating connecting shaft to drive the rotating disc to rotate, and drive the rotating disc to drive the second bevel gear 1-8 to rotate, wherein the rotating disc to drive the rotating disc to rotate, after one of the extrusion plates 1-15 reciprocates, the other extrusion plate reciprocates to further perform primary extrusion on the device, a feeding inclined plane 1-2 is arranged on a mounting shell 1-1, a mounting rack 1-3 is fixedly arranged on the mounting shell 1-1, an extrusion shaft 1-4 is rotatably arranged on the mounting rack 1-3, a half gear 1-5 is fixedly arranged on the extrusion shaft 1-4, a half gear 1-6 is fixedly arranged on the extrusion shaft 1-4, a connecting shaft 1-7 is rotatably arranged on the mounting rack 1-3, a gear 1-8 is fixedly arranged on the connecting shaft 1-7, a bevel gear 1-9 is fixedly arranged on the connecting shaft 1-7, a connecting shaft two 1-10 is rotatably arranged on the mounting rack 1-3, a bevel gear two 1-11 is fixedly arranged on the connecting shaft two 1-10, the bevel gear two 1-11 is meshed with the bevel gear one 1-9, a rotating disc 1-12 is fixedly arranged on the connecting shaft two 1-10, a pushing column 1-13 is rotatably arranged on the pushing column 1-14, a pushing rod 1-13 is rotatably arranged on the mounting shell, and a pushing plate 1-15 is slidably arranged on the mounting shell 1-15, and a discharge port.

The third concrete implementation mode:

the following describes the present embodiment with reference to fig. 1, 2, 3, 4, 5, 6, 7, 8, 9, 10, 11, and 12, and the present embodiment further describes an embodiment, where the crushed aggregates propulsion device 2 includes a connection material pushing pipe 2-1, a material pushing rotating shaft 2-2, a material pushing spiral plate 2-3, and a material discharging port 2-4, then the extrusion shaft 1-4 drives the material pushing rotating shaft 2-2 of the crushed aggregates propulsion device 2 to rotate through a transmission device, the material pushing rotating shaft 2-2 drives the material pushing spiral plate 2-3 to rotate, so that the crushed aggregates are pushed into a secondary crushing box 3-1 of the secondary crushing device 3 through the material discharging port 2-4 and then fall on a material discharging control plate 3-23, the installation shell 1-1 is installed and fixed on the connection material pushing pipe 2-1, the rotating shaft 2-2 is installed and installed on the installation shell 1-1, the material pushing spiral plate 2-3 is installed and fixed on the material pushing rotating shaft 2-2, and the material discharging port 2-4 is installed on the connection material pushing pipe 2-1.

The fourth concrete implementation mode:

the embodiment is described below by combining with fig. 1, 2, 3, 4, 5, 6, 7, 8, 9, 10, 11 and 12, and the embodiment is further described, wherein the secondary crushing device 3 comprises a secondary crushing box 3-1, a feed inlet two 3-2, a reciprocating rotating shaft 3-3, a bevel gear three 3-4, an extrusion pushing gear 3-5, a pushing toothed plate 3-6, a sliding limiting plate 3-7, a crushing extrusion plate 3-8, a reset half spring 3-9, a position limiting plate 3-10, an installation fixing plate 3-11, a connecting shaft three 3-12, a bevel gear four 3-13, a half gear three 3-14, a connecting shaft four 3-15, a unidirectional rotating ratchet gear 3-16, an output belt wheel 3-17, an installation frame two 3-18, a pulling rotating shaft 3-19, a receiving belt wheel 3-20, a pulling gear two 3-21, a transmission belt 3-22, a discharging belt 3-23, a spring control plate one 3-24, a sliding square head connecting bolt 3-25, a spring two connecting rod 3-26 and a rack connecting 27, then the motor matched with the reciprocating rotating shaft 3-3 drives the reciprocating rotating shaft 3-3 to rotate in a reciprocating manner, the reciprocating rotating shaft 3-3 rotating in a reciprocating manner can push the gear 3-5 to push the toothed plate 3-6 to move in a reciprocating manner by extruding, when the toothed plate 3-6 is pushed to move downwards, the crushing and extruding plate 3-8 can be driven to move in a moving manner, then when the material is contacted, the crushing and extruding plate 3-8 can rotate around a mounting point until the material is contacted with the position limiting plate 3-10 and then reaches a horizontal position, and the reset half spring 3-9 is compressed, then the toothed plate 3-6 is pushed to drive the crushing and extruding plate 3-8 to move downwards to extrude the material for the second time, the toothed plate 3-6 is pushed to pull the crushing and extruding plate 3-8 to move upwards after the material is extruded to a certain degree, the crushed material pushed by the crushed material pushing device 2 falls on the crushing and extruding plate 3-8 in the extruding process, meanwhile, the bevel gear three 3-4 drives the half gear three 3-14 on the connecting shaft three 3-12 to rotate through the bevel gear four 3-13, the half gear three 3-14 drives the unidirectional rotation ratchet gear 3-16 to rotate, but due to the unidirectional rotation ratchet gear 3-16, the toothed plate 3-6 is pushed to move downwards again, so that the connecting shaft 3-16 of the unidirectional rotation ratchet gear cannot drive the four gear 3-15 to rotate, and the discharging control plate 3-23 rotates in a closed manner in the extruding process, when the push toothed plate 3-6 moves upwards, the unidirectional rotation ratchet gear 3-16 rotates in the opposite direction and then drives the connecting shaft four 3-15 to rotate, the connecting shaft four 3-15 drives the output belt wheel 3-17 to rotate, the output belt wheel 3-17 rotates through the transmission belt 3-22, the transmission belt 3-22 drives the pulling gear two 3-21 to rotate through pulling the rotating shaft 3-19, the pulling gear two 3-21 pulls the sliding square head connecting bolt 3-25 to move through the connecting rack 3-27, the sliding square head connecting bolt 3-25 pulls the discharging control plate 3-23 to two sides through the spring two 3-26 and compresses the spring one 3-24, but the time for meshing the unidirectional rotation ratchet gear 3-16 and the half gear three 3-14 is limited due to the time limit So that the discharge control plate 3-23 can restore to a closed state by the compressed spring I3-24 after moving to a certain distance, then the reset half spring 3-9 pushes the crushing extrusion plate 3-8 to a position which is a certain larger than the horizontal plane, crushed aggregates on the crushing extrusion plate 3-8 can fall on the discharge control plate 3-23 again and wait for the next crushing secondary box 3-1, the feeding port II 3-2 is arranged on the secondary crushing box 3-1, the reciprocating rotating shaft 3-3 is rotatably arranged on the secondary crushing box 3-1, the bevel gear III 3-4 is fixedly arranged on the reciprocating rotating shaft 3-3, the extruding pushing gear 3-5 is fixedly arranged on the reciprocating rotating shaft 3-3, the pushing toothed plate 3-6 is slidably arranged on the sliding limit plate 3-7, the sliding limit plate 3-7 is fixedly arranged inside the secondary crushing box 3-1, the crushing extrusion plate 3-8 is rotatably arranged on the pushing toothed plate 3-6, the reset half spring 3-9 is fixedly arranged on the crushing extrusion plate 3-8 and the pushing toothed plate 3-6, the position limit plate 3-10 is fixedly arranged on the pushing toothed plate 3-6, the mounting fixed plate 3-11 is fixedly arranged on the secondary crushing box 3-1, the connecting shaft three 3-12 is rotatably arranged on the mounting fixed plate 3-11, the bevel gear four 3-13 is fixedly arranged on the connecting shaft three 3-12, the half gear three 3-14 is fixedly arranged on the connecting shaft three 3-12, the connecting shaft four 3-15 is rotatably arranged on the mounting fixed plate 3-11, the one-way rotating ratchet gear 3-16 is installed on a connecting shaft IV 3-15, the output belt wheel 3-17 is installed and fixed on the connecting shaft IV 3-15, the mounting frame II 3-18 is installed and fixed on the secondary crushing box 3-1, the pulling rotating shaft 3-19 is installed and fixed on the mounting frame II 3-18 in a rotating mode, the receiving belt wheel 3-20 is installed and fixed on the pulling rotating shaft 3-19, the pulling gear II 3-21 is installed and fixed on the pulling rotating shaft 3-19, the transmission belt 3-22 is installed on the receiving belt wheel 3-20 and the output belt wheel 3-17, the discharging control plate 3-23 is installed inside the secondary crushing box 3-1 in a sliding mode, the spring I3-24 is installed and fixed on the discharging control plate 3-23 in a sliding mode, the sliding square head connecting bolt 3-25 is installed inside the sliding square head connecting bolt 3-26 in a sleeving mode, the connecting rack 3-27 is installed and fixed on the sliding square head connecting bolt 3-25 in a sliding mode, the connecting rack 3-27 is installed inside the secondary crushing box 3-1 in a sliding mode, and the connecting rack 3-27 is meshed with the pulling gear II 3-21.

The fifth concrete implementation mode:

the second embodiment is further described with reference to fig. 1, 2, 3, 4, 5, 6, 7, 8, 9, 10, 11, and 12. The second embodiment is further described, where the extrusion shaft 1-4 of the preliminary feeding crushing device 1 is provided with a matching motor, two numbers of connecting shafts 1-7, gears 1-8, bevel gears 1-9, connecting shafts two 1-10, bevel gears two 1-11, rotating discs 1-12, pushing columns 1-13, connecting pushing rods 1-14, and extrusion plates 1-15 are provided, and the pushing rotating shaft 2-2 is connected with the extrusion shaft 1-4 through a transmission device.

The sixth specific implementation mode is as follows:

the fourth embodiment is further described with reference to fig. 1, 2, 3, 4, 5, 6, 7, 8, 9, 10, 11, and 12. The fourth embodiment is further described, where the reciprocating rotary shaft 3-3 of the secondary crushing device 3 is provided with a matching motor, bevel gears three 3-4, mounting and fixing plates 3-11, connecting shafts three 3-12, bevel gears four 3-13, half gears three 3-14, connecting shafts four 3-15, unidirectional rotation ratchet gears 3-16, output pulleys 3-17, mounting frames two 3-18, pulling rotary shafts 3-19, receiving pulleys 3-20, pulling gears two 3-21, transmission belts 3-22, discharge control plates 3-23, sliding square head connecting bolts 3-25, springs two 3-26, and connecting racks 3-27, and springs one 3-24 are four.

The working principle of the invention is as follows:

a waste intelligent device crushing device works on the principle that before the device crushing device is used, whether the connection condition between the devices meets requirements is checked, firstly, the device to be processed enters a mounting shell 1-1 through a feeding inclined plane 1-2 of a feeding primary crushing device 1, then an extrusion shaft 1-4 rotates under the action of a matched motor, the extrusion shaft 1-4 drives a half gear 1-5 and a half gear 1-6 to rotate, the rotating half gear 1-5 and the half gear 1-6 are meshed with an upper gear 1-8 and a lower gear 1-8 in a reciprocating mode, then the gear 1-8 is driven to rotate, when one gear 1-8 rotates the other gear 1-8 to stop rotating, the gear 1-8 drives a bevel gear 1-9 to rotate through a connecting shaft 1-7, the bevel gear 1-9 drives a rotating disc 1-12 on a connecting shaft 1-10 to rotate through a bevel gear 1-11, the rotating disc 1-12 pushes a pushing plate 1-14 connected with a pushing rod 1-14 to push a material pushing plate 1-15 to push the material pushing plate 1-10 to rotate through a pushing plate 1-15, and then the material pushing plate 2 moves to a material pushing plate 2 to push a material pushing plate 2-15 to push a material pushing plate 2 to push a material pushing device 2 to move in a material pushing device 2-3 in a reciprocating mode, then a motor matched with the reciprocating rotating shaft 3-3 drives the reciprocating rotating shaft 3-3 to rotate in a reciprocating manner, the reciprocating rotating shaft 3-3 rotating in a reciprocating manner pushes the gear 3-5 to enable the pushing toothed plate 3-6 to move in a reciprocating manner, when the pushing toothed plate 3-6 moves downwards, the crushing and extruding plate 3-8 is driven to move in a moving manner, then when the crushing and extruding plate 3-8 contacts with a material, the crushing and extruding plate 3-8 rotates around a mounting point until the crushing and extruding plate contacts with the position limiting plate 3-10 and then reaches a horizontal position and compresses the reset half spring 3-9, then the toothed plate 3-6 is pushed to drive the crushing and extruding plate 3-8 to move downwards to extrude the material for the second time, after the crushing and extruding plate 3-8 is extruded to a certain degree, the toothed plate 3-6 is pushed to pull the crushing and extruding plate 3-8 to move upwards, during the extruding process, the crushed material pushing device 2 falls on the crushing and extruding plate 3-8, meanwhile, the bevel gear 3-4 drives the half gear 3-14 on the connecting shaft 3-12 to rotate through the bevel gear four bevel gears 3-13 to drive the ratchet wheel 3-14 to rotate, but drives the ratchet wheel 3-16 to rotate to drive the ratchet wheel 3-6 to rotate in the unidirectional driving the ratchet wheel 3-16 to rotate, so that the ratchet wheel 3-6 to rotate in the unidirectional extrusion plate 3-16, and then drives the ratchet wheel to rotate, the fourth connecting shaft 3-15 drives the output belt wheels 3-17 to rotate, the output belt wheels 3-17 drive the belts 3-22 to rotate through the transmission belts 3-22, the transmission belts 3-22 drive the pulling gears 3-21 to rotate by pulling the rotating shafts 3-19 open, the pulling gears 3-21 pull the sliding square head connecting bolts 3-25 to move through the connecting racks 3-27, the sliding square head connecting bolts 3-25 pull the discharge control plates 3-23 to two sides through the springs 3-26 and compress the springs 3-24, but the time for meshing the unidirectional rotating ratchet gears 3-16 and the half gears 3-14 is limited, so that the discharge control plates 3-23 can restore to a closed state through the compressed springs 3-24 after moving to a certain distance, and then the reset half springs 3-9 push the crushing and extruding plates 3-8 to positions which are larger than the horizontal plane, and the discharge crushed materials on the crushing and extruding plates 3-8 can fall on the crushing and extruding control plates 3-23 to wait for next extrusion.

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)

1. The utility model provides a waste intelligent device crushing equipment, includes preliminary breaker of feeding (1), crushed aggregates advancing device (2), secondary crushing device (3), its characterized in that: the primary feeding crushing device (1) is fixedly arranged on the crushed material propelling device (2), and the secondary crushing device (3) is fixedly arranged on the crushed material propelling device (2);

the feeding primary crushing device (1) comprises an installation shell (1-1), a feeding inclined plane (1-2), an installation frame (1-3), an extrusion shaft (1-4), a half gear I (1-5), a half gear II (1-6), a connecting shaft I (1-7), a gear I (1-8), a bevel gear I (1-9), a connecting shaft II (1-10), a bevel gear II (1-11), a rotating disc (1-12), a pushing column (1-13), a connecting pushing rod (1-14), an extrusion plate (1-15) and a discharge port (1-16), wherein the feeding inclined plane (1-2) is arranged on the installation shell (1-1), the installation frame (1-3) is installed and fixed on the installation shell (1-1), the extrusion shaft (1-4) is rotatably installed on the installation frame (1-3), the half gear I (1-5) is installed and fixed on the extrusion shaft (1-4), the half gear II (1-6) is installed and fixed on the extrusion shaft (1-4), the connecting shaft (1-7) is rotatably installed on the gear I (1-7), the connecting shaft (1-8) is installed and fixed on the connecting shaft (1-4), the bevel gear I (1-9) is fixedly installed on the connecting shaft I (1-7), the connecting shaft II (1-10) is rotatably installed on the installation frame (1-3), the bevel gear II (1-11) is fixedly installed on the connecting shaft II (1-10), the bevel gear II (1-11) is meshed with the bevel gear I (1-9), the rotating disc (1-12) is fixedly installed on the connecting shaft II (1-10), the pushing column (1-13) is fixedly installed on the rotating disc (1-12), the connecting pushing rod (1-14) is rotatably installed on the pushing column (1-13), the connecting pushing rod (1-14) is rotatably installed on the extrusion plate (1-15), the extrusion plate (1-15) is slidably installed on the installation shell (1-1), and the discharge port (1-16) is arranged on the installation shell (1-1);

the crushed material propelling device (2) comprises a connecting material pushing pipe (2-1), a material pushing rotating shaft (2-2), a material pushing spiral plate (2-3) and a material discharging outlet (2-4), wherein a mounting shell (1-1) is fixedly arranged on the connecting material pushing pipe (2-1), the material pushing rotating shaft (2-2) is rotatably arranged on the mounting shell (1-1), the material pushing spiral plate (2-3) is fixedly arranged on the material pushing rotating shaft (2-2), and the material discharging outlet (2-4) is arranged on the connecting material pushing pipe (2-1);

the secondary crushing device (3) comprises a secondary crushing box (3-1), a feeding port II (3-2), a reciprocating rotating shaft (3-3), a bevel gear III (3-4), an extrusion pushing gear (3-5), a pushing toothed plate (3-6), a sliding limiting plate (3-7), a crushing extrusion plate (3-8), a reset half spring (3-9), a position limiting plate (3-10), an installation fixing plate (3-11), a connecting shaft III (3-12), a bevel gear IV (3-13), a half gear III (3-14), a connecting shaft IV (3-15), a unidirectional rotation ratchet gear (3-16), an output belt wheel (3-17), an installation frame II (3-18), a pulling rotating shaft (3-19), a receiving belt wheel (3-20), a pulling gear II (3-21), a transmission belt (3-22), a discharge control plate (3-23), a spring I (3-24), a sliding square head connecting bolt (3-25), a spring II (3-26) and a connecting rack (3-27), wherein the secondary crushing box (3-1) is fixedly arranged on the feeding port II (3-1) and the secondary crushing box (3-2), a reciprocating rotating shaft (3-3) is rotatably arranged on a secondary crushing box (3-1), a bevel gear III (3-4) is fixedly arranged on the reciprocating rotating shaft (3-3), an extrusion pushing gear (3-5) is fixedly arranged on the reciprocating rotating shaft (3-3), a pushing toothed plate (3-6) is slidably arranged on a sliding limiting plate (3-7), the sliding limiting plate (3-7) is fixedly arranged inside the secondary crushing box (3-1), a crushing extrusion plate (3-8) is rotatably arranged on the pushing toothed plate (3-6), a reset half spring (3-9) is fixedly arranged on the crushing extrusion plate (3-8) and the pushing toothed plate (3-6), a position limiting plate (3-10) is fixedly arranged on the pushing toothed plate (3-6), a mounting fixing plate (3-11) is fixedly arranged on the secondary crushing box (3-1), a connecting shaft III (3-12) is rotatably arranged on a mounting fixing plate (3-11), a connecting shaft IV (3-13) is fixedly arranged on the connecting shaft III (3-12), a connecting shaft III (3-12) is fixedly arranged on a connecting shaft (3-12), a bevel gear III) is fixedly arranged on a connecting shaft (3-12), a connecting shaft (3-12) is fixedly arranged on a connecting plate (3-12), the unidirectional rotation ratchet gear (3-16) is installed on a fourth connecting shaft (3-15), the output belt wheel (3-17) is installed and fixed on the fourth connecting shaft (3-15), a second mounting frame (3-18) is installed and fixed on a secondary crushing box (3-1), a pulling rotating shaft (3-19) is installed and rotatably installed on the second mounting frame (3-18), a receiving belt wheel (3-20) is installed and fixed on the pulling rotating shaft (3-19), a pulling gear wheel (3-21) is installed and fixed on the pulling rotating shaft (3-19), a transmission belt (3-22) is installed on the receiving belt wheel (3-20) and the output belt wheel (3-17), a discharging control plate (3-23) is installed inside the secondary crushing box (3-1) in a sliding mode, a first spring (3-24) is installed and fixed on the discharging control plate (3-23), a sliding square head connecting bolt (3-25) is installed inside the discharging control plate (3-23) in a sliding mode, a second spring (3-26) is sleeved on the sliding square head connecting bolt (3-25), a connecting bolt (3-27) is installed and a rack (3-27) is installed inside the secondary crushing box (3-1), the connecting rack (3-27) is meshed with the second pulling gear (3-21);

the extrusion shaft (1-4) of the feeding primary crushing device (1) is provided with a matched motor, the number of the connecting shaft I (1-7), the gear I (1-8), the bevel gear I (1-9), the connecting shaft II (1-10), the bevel gear II (1-11), the rotating disc (1-12), the pushing column (1-13), the connecting pushing rod (1-14) and the extrusion plate (1-15) is two, and the pushing rotating shaft (2-2) is connected with the extrusion shaft (1-4) through a transmission device;

the secondary crushing device is characterized in that a reciprocating rotating shaft (3-3) of the secondary crushing device (3) is provided with a matched motor, a bevel gear III (3-4), a mounting fixing plate (3-11), a connecting shaft III (3-12), a bevel gear IV (3-13), a half gear III (3-14), a connecting shaft IV (3-15), a one-way rotating ratchet gear (3-16), an output belt wheel (3-17), a mounting rack II (3-18), a pulling rotating shaft (3-19), a receiving belt wheel (3-20), a pulling gear II (3-21), a transmission belt (3-22), a discharging control plate (3-23), a sliding square head connecting bolt (3-25), a spring II (3-26) and connecting racks (3-27) are respectively two, and the number of the spring I (3-24) is four.

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