CN111266166A

CN111266166A - Be used for old and useless communication equipment circuit board processing apparatus

Info

Publication number: CN111266166A
Application number: CN202010079330.XA
Authority: CN
Inventors: 伞金华
Original assignee: 伞金华
Priority date: 2020-02-04
Filing date: 2020-02-04
Publication date: 2020-06-12

Abstract

In order to solve the technical problem, the invention relates to a signal equipment circuit board processing device, in particular to a processing device for a waste communication equipment circuit board, which comprises a mounting base plate, a cutting device mounting column, a power transmission device, a cutting device, a crushing device mounting column and a crushing device, wherein the power transmission device provides power for cutting and adapts to different circuit boards, the cutting device cuts a large circuit board into circuit board small blocks and adapts to different circuit boards, and the crushing device has the functions of crushing the small circuit board into fine fragments and the like, and is characterized in that: the cutting device mounting column is fixedly arranged on the mounting base plate, the power transmission device is fixedly arranged on the cutting device, the cutting device is fixedly arranged on the cutting device mounting column, the crushing device mounting column is fixedly arranged on the mounting base plate, and the crushing device is fixedly arranged on the crushing device mounting column.

Description

Be used for old and useless communication equipment circuit board processing apparatus

Technical Field

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

Background

At present, communication can not be separated from any aspect, as if any industry is closely related to the communication, with the development of science and technology and the popularization of manual communication equipment, some old equipment in families faces elimination or update, and due to the fact that the quantity of the old equipment is large, the old equipment becomes a problem in subsequent treatment, and circuit boards in the eliminated equipment have high recycling value, so that the circuit board treatment device for the waste communication equipment is invented.

Disclosure of Invention

The invention relates to a processing device for a circuit board of communication equipment, in particular to a processing device for a circuit board of waste communication equipment, which has the functions of providing power during cutting through a power transmission device and adapting to different circuit boards, cutting a large circuit board into small circuit board blocks by a cutting device and adapting to different circuit boards, and crushing the small circuit board blocks into fine fragments by a crushing device.

As a further optimization of the technical scheme, the power transmission device for the waste communication equipment circuit board processing device comprises a motor, an output gear, a tensioning cylinder mounting seat, a tensioning cylinder, a sliding square plate, a connecting rod, a spring, a tensioning wheel mounting seat, a tensioning wheel, a transmission belt, a rotating shaft, an output belt wheel, a first transmission gear, a receiving gear and a transmission shaft, wherein the output gear is fixedly mounted on the motor, the tensioning cylinder is fixedly mounted on the tensioning cylinder mounting seat, the sliding square plate is slidably mounted inside the tensioning cylinder, the connecting rod is fixedly mounted on the sliding square plate, the spring is slidably mounted inside the tensioning cylinder, the tensioning wheel mounting seat is fixedly mounted on the connecting rod, the tensioning wheel is rotatably mounted on the tensioning wheel mounting seat, the transmission belt is mounted on the tensioning wheel and the output belt wheel, the output belt wheel is fixedly mounted on the rotating shaft, the transmission belt, the output belt wheel is fixedly arranged on the transmission shaft, the first transmission gear is fixedly arranged on the transmission shaft, the receiving gear is fixedly arranged on the rotating shaft, and the receiving gear is meshed with the output gear.

As a further optimization of the technical scheme, the cutting device for the waste communication equipment circuit board processing device comprises a cutting box, a feeding hole, a discharging hole, a fourth rotating shaft, a receiving belt wheel, a sliding square block, a second spring, a cutting column, a cutting knife, a second cutting column, a cutting groove, a threaded shaft at the top end of an adjusting part, a rotating disc, a self-locking column, a limiting hole, a limiting square column, a mounting seat, a pressing rod, a pushing disc, a cylindrical cavity, a second spring, a threaded cylinder, a limiting plate, a fixed cylinder, a third spring, a sliding circular plate, a connecting square column, a second motor, a second output belt wheel, a second transmission belt, a driving shaft, a second receiving belt wheel, a transmitting gear, a driven shaft, a second receiving gear, a transmission plate gear, a double-sided tooth plate, a driving cutting plate, a cutting hole, a transmission column, a driven cutting plate, a driven cutting hole and a fixed supporting, the tensioning cylinder mounting seat is fixedly mounted on the cutting box, the rotating shaft is rotatably mounted on the cutting box, the transmission shaft is rotatably mounted on the cutting box, the feeding port is arranged on the cutting box, the discharging port is arranged on the cutting box, the rotating shaft four is rotatably mounted inside the cutting box, the transmission belt is mounted on the receiving belt wheel, the receiving belt wheel is fixedly mounted on the rotating shaft four, the sliding square block is slidably mounted inside the cutting box, the sliding square block and the rotating shaft four are in clearance fit, the spring two is fixedly mounted on the sliding square block and the cutting box, the cutting column is fixedly mounted on the rotating shaft four, the cutting knife is fixedly mounted on the cutting column, the cutting column two is fixedly mounted on the rotating shaft four, the cutting groove is arranged on the cutting column two, the adjusting top threaded shaft is rotatably mounted on the cutting box, the rotating disc is fixedly mounted on the adjusting top threaded shaft, the limiting hole is arranged on the self-locking column, the limiting square column is installed and fixed on the pushing disc, the installation seat is installed and fixed on the limiting square column, the pressing rod is rotatably installed on the installation seat, the pressing rod is rotatably installed inside the cutting box, the pushing disc is slidably installed inside the cylindrical cavity, the cylindrical cavity is arranged inside the cutting box, the spring II is slidably installed inside the cylindrical cavity, the threaded cylinder is installed and fixed on the limiting plate, the threaded cylinder is in threaded fit with the threaded shaft at the top end of the adjusting part, the limiting plate is slidably installed inside the cutting box, the fixed cylinder is installed and fixed on the limiting plate, the spring III is slidably installed inside the fixed cylinder, the sliding circular plate is slidably installed inside the fixed cylinder, the connecting square column is installed and fixed on the sliding circular plate and the cutting box, the motor II is installed and fixed on the motor II, the output belt pulley II is installed and fixed, the driving shaft rotates and installs on fixed support plate, receive two installations of band pulley and fix on the driving shaft, it fixes on the driving shaft to spread the gear installation, the driven shaft rotates and installs on fixed support plate, it fixes on the driven shaft to receive two installations of gear, driving plate gear installation is fixed on the driven shaft, two-sided tooth dental lamina installation is fixed on initiative cutting board, initiative cutting board slidable mounting is inside the cutting incasement portion, the cutting hole sets up on initiative cutting board, the transmission post rotates and installs inside the cutting incasement portion, driven cutting board slidable mounting is inside the cutting incasement portion, driven cutting hole sets up at driven cutting board line, the fixed support plate installation is fixed on the cutting case.

As a further optimization of the technical scheme, the crushing device for the waste communication equipment circuit board processing device comprises a motor four, an output gear four, a crushing box, a rotating shaft four, a receiving gear four, a mounting frame, a rotating crushing knife, a fixed crushing knife, a rotating column, a mounting bolt, a screening plate, a spring six and a bevel block, wherein the motor four is fixedly installed on the crushing box, the output gear four is fixedly installed on the motor four, the crushing box is fixedly installed on a cutting box, the rotating shaft four is rotatably installed on the mounting frame, the receiving gear four is fixedly installed on the rotating shaft four, the mounting frame is fixedly installed inside the crushing box, the rotating crushing knife is fixedly installed on the rotating shaft four, the fixed crushing knife is fixedly installed inside the crushing box, the rotating column is fixedly installed on the rotating shaft four, the mounting bolt is fixedly installed inside the crushing box, the screening plate is slidably installed on the mounting bolt, six suit of springs are on the installation bolt, and the inclined plane piece is installed and is fixed on the screening board.

As a further optimization of the technical scheme, the cutting device for the waste communication equipment circuit board processing device has two rotating shafts and two receiving belt wheels, the sliding square blocks and the springs have four numbers, the adjusting top threaded shaft, the rotating disc, the self-locking column, the limiting hole, the limiting square column, the mounting seat, the pressing rod, the pushing disc, the cylindrical cavity, the spring II, the threaded cylinder and the limiting plate have one number, the fixing cylinder, the spring III, the sliding circular plate and the connecting square column have four numbers, and the driven shaft, the receiving gear II and the transmission plate gear have two numbers.

The waste communication equipment circuit board processing device has the beneficial effects that:

the invention relates to a processing device for a circuit board of communication equipment, in particular to a processing device for a circuit board of waste communication equipment, which realizes the functions of providing power during cutting through a power transmission device and adapting to different circuit boards, wherein a large circuit board is cut into small circuit board blocks by a cutting device and can adapt to different circuit boards, and a small circuit board cut into small circuit boards is crushed into small fragments by a crushing 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 structural schematic diagram of the power transmission device of the present invention.

Fig. 5 is a schematic structural diagram of a power transmission device according to the present invention.

Fig. 6 is a first schematic structural diagram of the cutting device of the present invention.

Fig. 7 is a second schematic structural diagram of the cutting device of the present invention.

Fig. 8 is a third schematic structural diagram of the cutting device of the present invention.

Fig. 9 is a fourth schematic structural diagram of the cutting device of the present invention.

Fig. 10 is a fifth structural schematic view of the cutting device of the present invention.

Fig. 11 is a sixth schematic structural view of the cutting device of the present invention.

Fig. 12 is a seventh structural schematic view of the cutting device of the present invention.

Fig. 13 is an eighth schematic structural view of the cutting device of the present invention.

Fig. 14 is a schematic structural diagram nine of the cutting device of the present invention.

Fig. 15 is a first structural schematic diagram of the crushing device of the invention.

Fig. 16 is a schematic structural diagram of a crushing device of the invention.

Fig. 17 is a third structural schematic diagram of the crushing device of the invention.

In the figure: installing a base plate 1; a cutting device mounting post 2; a power transmission device 3; a motor 3-1; an output gear 3-2; 3-3 of a tensioning cylinder mounting seat; 3-4 parts of a tensioning cylinder; 3-5 of a sliding square plate; 3-6 of a connecting rod; 3-7 of a spring; 3-8 parts of a tensioning wheel mounting seat; 3-9 of a tension wheel; 3-10 parts of a transmission belt; 3-11 parts of a rotating shaft; an output pulley 3-12; a first transmission gear 3-13; receiving gears 3-14; 3-15 parts of a transmission shaft; a cutting device 4; 4-1 of a cutting box; a feed port 4-2; 4-3 of a discharge port; rotating the shaft four 4-4; receiving belt wheels 4-5; 4-6 of sliding blocks; 4-7 parts of a second spring; 4-8 of a cutting column; 4-9 parts of a cutting knife; cutting the second column by 4-10; cutting grooves 4-11; adjusting a top end threaded shaft 4-12; 4-13 of a rotating disc; 4-14 of self-locking column; 4-15 parts of limiting holes; 4-16 parts of limiting square column; 4-17 of a mounting seat; 4-18 of a press-up rod; pushing the disc 4-19; 4-20 parts of cylindrical cavity; 4-21 parts of a second spring; 4-22 parts of a thread cylinder; the limiting plates 4-23; 4-24 parts of a fixed cylinder; 4-25 parts of a spring; sliding circular plates 4-26; connecting square columns 4-27; 4-28 of a second motor; a second output belt wheel 4-29; 4-30 parts of a second transmission belt; 4-31 parts of a driving shaft; receiving belt wheels II 4-32; the outgoing gears 4-33; driven shafts 4-34; receiving a second gear 4-35; drive plate gears 4-36; 4-37 parts of double-sided tooth plates; active cutting of the plates 4-38; cutting holes 4-39; 4-40 parts of a transmission column; 4-41 parts of driven cutting board; 4-42 of driven cutting holes; fixed support plates 4-43; a crushing device mounting post 5; a crushing device 6; motor four 6-1; output gear four 6-2; 6-3 of a crushing box; rotating the shaft four by 6-4; receiving a gear four 6-5; mounting frames 6-6; rotating the crushing knife 6-7; fixing 6-8 parts of a crushing knife; 6-9 of a rotating column; 6-10 of mounting bolts; 6-11 parts of screening plate; six springs 6-12; and (6) bevel blocks 6-13.

Detailed Description

The first embodiment is as follows:

in order to solve the technical problems, the invention relates to a processing device for a communication equipment circuit board, in particular to a processing device for a waste communication equipment circuit board, which comprises a mounting base plate 1, a cutting device mounting column 2, a power transmission device 3, a cutting device 4, a crushing device mounting column 5 and a crushing device 6, wherein the power transmission device provides power for cutting and is suitable for different circuit boards, the cutting device cuts a large circuit board into circuit board small blocks and can be suitable for different circuit boards, and the crushing device crushes the circuit boards cut into small blocks into fine fragments, and the like, and is characterized in that: the cutting device mounting column 2 is fixedly installed on the mounting base plate 1, the power transmission device 3 is fixedly installed on the cutting device 4, the cutting device 4 is fixedly installed on the cutting device mounting column 2, the crushing device mounting column 5 is fixedly installed on the mounting base plate 1, and the crushing device 6 is fixedly installed on the crushing device mounting column 5.

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, 16, and 17, and the embodiment further describes the embodiment, where the power transmission device 3 includes a motor 3-1, an output gear 3-2, a tensioning tube mounting seat 3-3, a tensioning tube 3-4, a sliding square plate 3-5, a connecting rod 3-6, a spring 3-7, a tensioning wheel mounting seat 3-8, a tensioning wheel 3-9, a transmission belt 3-10, a rotation shaft 3-11, an output pulley 3-12, a transmission gear one 3-13, a receiving gear 3-14, and a transmission shaft 3-15, and then the motor 3-1 of the power transmission device 3 drives the output gear 3-2 to rotate, the output gear 3-2 drives the receiving gear 3-14 to rotate, the receiving gear 3-14 drives the rotating shaft 3-11 to rotate, the rotating shaft 3-11 drives the output belt wheel 3-12 and the transmission gear one 3-13 to rotate, the transmission gear one 3-13 drives the transmission shaft 3-15 to rotate through the other transmission gear one 3-13, the transmission shaft 3-15 drives the output belt wheel 3-12 to rotate, the rotation directions of the two output belt wheels 3-12 are opposite, the output belt wheel 3-12 drives the receiving belt wheel 4-5 of the cutting device 4 to rotate through the transmission belt 3-10, the output gear 3-2 is fixedly arranged on the motor 3-1, the tensioning cylinder 3-4 is fixedly arranged on the tensioning cylinder mounting seat 3-3, the sliding square plate 3-5 is slidably arranged inside the tensioning cylinder 3-4, the connecting rod 3-6 is fixedly arranged on the sliding square plate 3-5, the spring 3-7 is slidably mounted inside the tensioning barrel 3-4, a tensioning wheel mounting seat 3-8 is fixedly mounted on a connecting rod 3-6, a tensioning wheel 3-9 is rotatably mounted on the tensioning wheel mounting seat 3-8, a transmission belt 3-10 is mounted on the tensioning wheel 3-9 and an output belt wheel 3-12, the output belt wheel 3-12 is fixedly mounted on a rotating shaft 3-11, the transmission belt 3-10 is mounted on the tensioning wheel 3-9 and the output belt wheel 3-12, the output belt wheel 3-12 is fixedly mounted on a transmission shaft 3-15, a transmission gear I3-13 is fixedly mounted on the transmission shaft 3-15, a receiving gear 3-14 is fixedly mounted on the rotating shaft 3-11, and the receiving gear 3-14 is meshed with the output gear 3-2.

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, 12, 13, 14, 15, 16, 17, and the present embodiment further describes the first embodiment, in which the cutting device 4 includes a cutting box 4-1, a feed inlet 4-2, a discharge outlet 4-3, a rotation shaft four 4-4, a receiving belt wheel 4-5, a sliding block 4-6, a spring two 4-7, a cutting column 4-8, a cutting knife 4-9, a cutting column two 4-10, a cutting groove 4-11, an adjusting top threaded shaft 4-12, a rotating disc 4-13, a self-locking column 4-14, a limiting hole 4-15, a limiting square column 4-16, a mounting seat 4-17, a pressing rod 4-18, a pushing disc 4-19, a cylindrical cavity 4-20, 4-21 parts of a second spring, 4-22 parts of a threaded cylinder, 4-23 parts of a limiting plate, 4-24 parts of a fixed cylinder, 4-25 parts of a third spring, 4-26 parts of a sliding circular plate, 4-27 parts of a connecting square column, 4-28 parts of a second motor, 4-29 parts of an output belt wheel, 4-30 parts of a transmission belt, 4-31 parts of a driving shaft, 4-32 parts of a receiving belt wheel, 4-33 parts of a transmission gear, 4-34 parts of a driven shaft, 4-35 parts of a receiving gear, 4-36 parts of a transmission plate gear, 4-37 parts of a double-sided tooth plate, 4-38 parts of a driving cutting plate, 4-39 parts of a cutting hole, 4-40 parts of a transmission column, 4-41 parts of a driven cutting plate, 4-42 parts of a driven cutting hole and 4-43 parts of a fixed supporting plate, wherein the rotating disc 4-13, the top end threaded shaft 4-12 is adjusted to change the position of the limit plate 4-23 through the threaded barrel 4-22, so that the distance between the limit plates 4-23 is changed, then the second spring 4-21 pushes the push disc 4-19 downwards, the push disc 4-19 pushes the limit square column 4-16 to move, the limit square column 4-16 is matched with the limit hole 4-15 to prevent the rotating disc 4-13 from reversely rotating, so that the position of the limit plate 4-23 is fixed, when the adjustment top end threaded shaft 4-12 needs to reversely rotate, the pressing and lifting rod 4-18 is pressed downwards to adjust the position of the limit square column 4-16 and the limit hole 4-15, then the adjustment top end threaded shaft 4-12 can freely rotate to change the position of the limit plate 4-23, the receiving belt wheel 4-5 drives the rotating shaft four 4-4 to rotate, the rotating shaft IV 4-4 drives the cutting column 4-8 and the cutting column II 4-10 to rotate in opposite directions, the cutting column 4-8 drives the cutting knife 4-9 to rotate and the cutting groove 4-11 cuts the circuit board between the limiting plates 4-23 into strips and pushes the strips forwards, when an excessively hard part is met, the rotating shaft IV 4-4 drives the cutting column 4-8 and the cutting column II 4-10 to move towards two sides, meanwhile, in order to keep the tensioning of the transmission belt 3-10, a spring 3-7 in a tensioning cylinder 3-4 changes the compression amount of the spring so as to change the position of a sliding square plate 3-5 in the tensioning cylinder 3-4, so that the position of a tensioning wheel 3-9 on a tensioning wheel mounting seat 3-8 is changed to keep the tensioning of the transmission belt 3-10, and then a motor II 4-28 drives an output belt wheel II 4-29 to rotate, the second output belt wheel 4-29 drives the second receiving belt wheel 4-32 to rotate through the second transmission belt 4-30, the second receiving belt wheel 4-32 drives the driving shaft 4-31 to rotate, the driving shaft 4-31 drives the outgoing gear 4-33 to rotate, the outgoing gear 4-33 drives the driven shaft 4-34 to rotate, the driven shaft 4-34 drives the transmission half gear 4-36 to rotate, the two transmission half gears 4-36 enable the double-sided tooth plates 4-37 to move in a reciprocating manner, the double-sided tooth plates 4-37 drive the driving cutting plate 4-38 to move in a reciprocating manner, then the driving cutting plate 4-38 drives the driven cutting plate 4-41 to move in a reverse reciprocating manner through the transmission column 4-40, the motor 3-1 is fixedly arranged on the cutting box 4-1, and the tensioning cylinder mounting seat 3-3 is fixedly arranged on the cutting box 4-1, a rotating shaft 3-11 is rotatably arranged on a cutting box 4-1, a transmission shaft 3-15 is rotatably arranged on the cutting box 4-1, a feeding port 4-2 is arranged on the cutting box 4-1, a discharging port 4-3 is arranged on the cutting box 4-1, a rotating shaft four 4-4 is rotatably arranged in the cutting box 4-1, a transmission belt 3-10 is arranged on a receiving belt wheel 4-5, a receiving belt wheel 4-5 is fixedly arranged on the rotating shaft four 4-4, a sliding block 4-6 is slidably arranged in the cutting box 4-1, the sliding block 4-6 is in clearance fit with the rotating shaft four 4-4, a spring two 4-7 is fixedly arranged on the sliding block 4-6 and the cutting box 4-1, a cutting column 4-8 is fixedly arranged on the rotating shaft four 4-4, a cutting knife 4-9 is fixedly arranged on a cutting column 4-8, a cutting column two 4-10 is fixedly arranged on a rotating shaft four 4-4, a cutting groove 4-11 is arranged on the cutting column two 4-10, an adjusting top end threaded shaft 4-12 is rotatably arranged on a cutting box 4-1, a rotating disc 4-13 is fixedly arranged on an adjusting top end threaded shaft 4-12, a self-locking column 4-14 is fixedly arranged on an adjusting top end threaded shaft 4-12, a limiting hole 4-15 is arranged on a self-locking column 4-14, a limiting square column 4-16 is fixedly arranged on a pushing disc 4-19, a mounting seat 4-17 is fixedly arranged on a limiting square column 4-16, a pressing-up rod 4-18 is rotatably arranged on a mounting seat 4-17, the pressing-up rod 4-18 is rotatably arranged inside the cutting box 4-1, the pushing disc 4-19 is slidably mounted inside the cylindrical cavity 4-20, the cylindrical cavity 4-20 is arranged inside the cutting box 4-1, the spring II 4-21 is slidably mounted inside the cylindrical cavity 4-20, the threaded cylinder 4-22 is fixedly mounted on the limit plate 4-23, the threaded cylinder 4-22 is in threaded fit with the threaded shaft 4-12 at the top end of the adjustment, the limit plate 4-23 is slidably mounted inside the cutting box 4-1, the fixed cylinder 4-24 is fixedly mounted on the limit plate 4-23, the spring III 4-25 is slidably mounted inside the fixed cylinder 4-24, the sliding disc 4-26 is slidably mounted inside the fixed cylinder 4-24, the connecting square column 4-27 is fixedly mounted on the sliding disc 4-26 and the cutting box 4-1, and the motor II 4-28 is fixedly mounted on the cutting box 4-1, the output belt wheel II 4-29 is fixedly arranged on the motor II 4-28, the transmission belt II 4-30 is arranged on the output belt wheel II 4-29 and the receiving belt wheel II 4-32, the driving shaft 4-31 is rotatably arranged on the fixed support plate 4-43, the receiving belt wheel II 4-32 is fixedly arranged on the driving shaft 4-31, the delivery gear 4-33 is fixedly arranged on the driving shaft 4-31, the driven shaft 4-34 is rotatably arranged on the fixed support plate 4-43, the receiving gear II 4-35 is fixedly arranged on the driven shaft 4-34, the transmission plate gear 4-36 is fixedly arranged on the driven shaft 4-34, the double-sided tooth plate 4-37 is fixedly arranged on the driving cutting plate 4-38, the driving cutting plate 4-38 is slidably arranged in the cutting box 4-1, the cutting holes 4-39 are arranged on the driving cutting plate 4-38, the transmission columns 4-40 are rotatably arranged inside the cutting box 4-1, the driven cutting plate 4-41 is slidably arranged inside the cutting box 4-1, the driven cutting holes 4-42 are arranged on the driven cutting plate 4-41 rows, and the fixed support plate 4-43 is fixedly arranged on the cutting box 4-1.

The fourth 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, 15, 16, 17, and the embodiment further describes that the crushing device 6 includes a motor four 6-1, an output gear four 6-2, a crushing box 6-3, a rotating shaft four 6-4, a receiving gear four 6-5, a mounting frame 6-6, a rotating crushing knife 6-7, a fixed crushing knife 6-8, a rotating column 6-9, a mounting bolt 6-10, a screening plate 6-11, a spring six 6-12, a bevel block 6-13, a driving cutting plate 4-38 and a driven cutting plate 4-41, which cut the stripped circuit board into segments and then fall into the crushing box 6-3 of the crushing device 6, and then the motor four 6-1 drives the output gear four 6-2 to rotate, the output gear IV 6-2 drives the receiving gear IV 6-5 to rotate, the receiving gear IV 6-5 drives the rotating shaft IV 6-4 to rotate, the rotating shaft IV 6-4 drives the rotating crushing cutter 6-7 to rotate, the rotating crushing cutter 6-7 and the fixed crushing cutter 6-8 perform secondary crushing on the circuit block, then the rotating column 6-9 downwards presses the screening plate 6-11 through the inclined plane block 6-13 and compresses the spring VI 6-12 to ensure that the screening plate 6-11 downwards moves to a moving distance and then quickly rebounds under the action of the spring VI 6-12, the circuit block at the upper end of the screening plate 6-11 is bounced to crush the circuit block with qualified size again and is downwards discharged through the screening plate 6-11, and the motor IV 6-1 is installed and fixed on the crushing box 6-3, an output gear IV 6-2 is fixedly arranged on a motor IV 6-1, a crushing box 6-3 is fixedly arranged on a cutting box 4-1, a rotating shaft IV 6-4 is rotatably arranged on an installation frame 6-6, a receiving gear IV 6-5 is fixedly arranged on the rotating shaft IV 6-4, the installation frame 6-6 is fixedly arranged inside the crushing box 6-3, a rotating crushing knife 6-7 is fixedly arranged on the rotating shaft IV 6-4, a fixed crushing knife 6-8 is fixedly arranged inside the crushing box 6-3, a rotating column 6-9 is fixedly arranged on the rotating shaft IV 6-4, an installation bolt 6-10 is fixedly arranged inside the crushing box 6-3, a screening plate 6-11 is slidably arranged on an installation bolt 6-10, and a spring VI 6-12 is sleeved on the installation bolt 6-10, the inclined plane blocks 6-13 are fixedly arranged on the screening plates 6-11.

The fifth concrete implementation mode:

the third embodiment is further described below with reference to fig. 1, 2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13, 14, 15, 16, and 17, wherein the number of the rotating shafts four 4-4 and the receiving pulleys 4-5 of the cutting device 4 is two, the number of the sliding blocks 4-6 and the number of the springs two 4-7 are four, the number of the adjusting top threaded shafts 4-12, the rotating discs 4-13, the self-locking columns 4-14, the limiting holes 4-15, the limiting square columns 4-16, the mounting seats 4-17, the pressing rods 4-18, the pushing discs 4-19, the cylindrical cavities 4-20, the springs two 4-21, the threaded cylinders 4-22, and the limiting plates 4-23 are respectively provided with a plurality of fixing cylinders 4-24, springs three 4-25, and a plurality of fixing cylinders 4-24, The number of the sliding round plates 4-26 and the connecting square columns 4-27 is four, and the number of the driven shafts 4-34, the receiving gears two 4-35 and the transmission plate gears 4-36 is two.

The working principle of the invention is as follows:

a working principle of a waste communication equipment circuit board processing device is that before use, whether the connection condition between the devices meets requirements is checked, the rotating disc 4-13 of a cutting device 4 is rotated, the rotating disc 4-13 drives an adjusting top end threaded shaft 4-12 to rotate, the adjusting top end threaded shaft 4-12 changes the position of a limiting plate 4-23 through a threaded cylinder 4-22, so that the distance between the limiting plate 4-23 is changed, then a spring II 4-21 pushes a pushing disc 4-19 downwards, the pushing disc 4-19 pushes a limiting square column 4-16 to move, the limiting square column 4-16 is matched with a limiting hole 4-15 to prevent the rotating disc 4-13 from reversely rotating, so that the position of the limiting plate 4-23 is fixed, and when the adjusting top end threaded shaft 4-12 needs to reversely rotate, a pressing and lifting rod 4-18 is pressed downwards to press the limiting square column 4-16 and a lifting rod 4-18 to enable the limiting square column 4-16 The position limiting holes 4-15 can then freely rotate to adjust the top end threaded shaft 4-12 to change the position of the position limiting plate 4-23, then the motor 3-1 of the power transmission device 3 drives the output gear 3-2 to rotate, the output gear 3-2 drives the receiving gear 3-14 to rotate, the receiving gear 3-14 drives the rotating shaft 3-11 to rotate, the rotating shaft 3-11 drives the output belt wheel 3-12 and the transmission gear I3-13 to rotate, the transmission gear I3-13 drives the transmission shaft 3-15 to rotate through the other transmission gear I3-13, the transmission shaft 3-15 drives the output belt wheel 3-12 to rotate, the rotating directions of the two output belt wheels 3-12 are opposite, the output belt wheel 3-12 drives the receiving belt wheel 4-5 of the cutting device 4 to rotate through the transmission belt 3-10, the receiving belt wheel 4-5 drives the rotating shaft four 4-4 to rotate, the rotating shaft four 4-4 drives the cutting column 4-8 and the cutting column two 4-10 to rotate in opposite directions, the cutting column 4-8 drives the cutting knife 4-9 to rotate and the cutting groove 4-11 cuts the circuit board between the limiting plates 4-23 into strips and pushes the strips forwards, when an excessively hard part is met, the rotating shaft four 4-4 drives the cutting column 4-8 and the cutting column two 4-10 to move towards two sides, and meanwhile, in order to keep the tensioning of the transmission belt 3-10, the spring 3-7 in the tensioning cylinder 3-4 can change the compression amount of the spring so as to change the position of the sliding square plate 3-5 in the tensioning cylinder 3-4 and further change the position of the tensioning wheel 3-9 on the tensioning wheel mounting seat 3-8 so as to keep the tensioning of the transmission belt 3-10, then the second motor 4-28 drives the second output belt wheel 4-29 to rotate, the second output belt wheel 4-29 drives the second receiving belt wheel 4-32 to rotate through the second transmission belt 4-30, the second receiving belt wheel 4-32 drives the driving shaft 4-31 to rotate, the driving shaft 4-31 drives the outgoing gear 4-33 to rotate, the outgoing gear 4-33 drives the driven shaft 4-34 to rotate, the driven shaft 4-34 drives the transmission half gear 4-36 to rotate, the two transmission half gears 4-36 enable the double-sided tooth plates 4-37 to move in a reciprocating manner, the double-sided tooth plates 4-37 drive the driving cutting plate 4-38 to move in a reciprocating manner, then the driving cutting plate 4-38 drives the driven cutting plate 4-41 to move in a reciprocating manner in a reverse direction through the transmission columns 4-40, and the driving cutting plate 4-38 and the driven cutting plate 4-41 cut the strip circuit board into sections and then fall into the In a crushing box 6-3 of the crushing device 6, a motor IV 6-1 drives an output gear IV 6-2 to rotate, the output gear IV 6-2 drives a receiving gear IV 6-5 to rotate, the receiving gear IV 6-5 drives a rotating shaft IV 6-4 to rotate, the rotating shaft IV 6-4 drives a rotating crushing knife 6-7 to rotate, the rotating crushing knife 6-7 and a fixed crushing knife 6-8 perform secondary crushing on a circuit block, the rotary post 6-9 then presses the screen plate 6-11 downward by the inclined block 6-13 and compresses the spring six 6-12 so that the screen plate 6-11 moves downward to the moved distance and then springs back rapidly by the spring six 6-12 and then springs up the circuit block at the upper end of the screen plate 6-11 to again crush the qualified circuit block and discharge it downward through the screen plate 6-11.

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 be used for old and useless communication equipment circuit board processing apparatus, includes installation bed plate (1), cutting device erection column (2), power transmission device (3), cutting device (4), breaker erection column (5), breaker (6), its characterized in that: the cutting device mounting column (2) is installed and fixed on the mounting base plate (1), the power transmission device (3) is installed and fixed on the cutting device (4), the cutting device (4) is installed and fixed on the cutting device mounting column (2), the crushing device mounting column (5) is installed and fixed on the mounting base plate (1), and the crushing device (6) is installed and fixed on the crushing device mounting column (5).

2. The waste communication equipment circuit board processing device according to claim 1, wherein the waste communication equipment circuit board processing device comprises: the power transmission device (3) comprises a motor (3-1), an output gear (3-2), a tensioning cylinder mounting seat (3-3), a tensioning cylinder (3-4), a sliding square plate (3-5), a connecting rod (3-6), a spring (3-7), a tensioning wheel mounting seat (3-8), a tensioning wheel (3-9), a transmission belt (3-10), a rotating shaft (3-11), an output belt wheel (3-12), a transmission gear I (3-13), a receiving gear (3-14) and a transmission shaft (3-15), wherein the output gear (3-2) is fixedly arranged on the motor (3-1), the tensioning cylinder (3-4) is fixedly arranged on the tensioning cylinder mounting seat (3-3), the sliding square plate (3-5) is slidably arranged in the tensioning cylinder (3-4), connecting rods (3-6) are fixedly arranged on sliding square plates (3-5), springs (3-7) are slidably arranged in tensioning cylinders (3-4), tensioning wheel mounting seats (3-8) are fixedly arranged on the connecting rods (3-6), tensioning wheels (3-9) are rotatably arranged on the tensioning wheel mounting seats (3-8), transmission belts (3-10) are arranged on the tensioning wheels (3-9) and output belt wheels (3-12), the output belt wheels (3-12) are fixedly arranged on rotating shafts (3-11), the transmission belts (3-10) are arranged on the tensioning wheels (3-9) and the output belt wheels (3-12), the output belt wheels (3-12) are fixedly arranged on transmission shafts (3-15), and transmission gear I (3-13) are fixedly arranged on the transmission shafts (3-15), the receiving gear (3-14) is fixedly arranged on the rotating shaft (3-11), and the receiving gear (3-14) is meshed with the output gear (3-2).

3. The waste communication equipment circuit board processing device according to claim 1, wherein the waste communication equipment circuit board processing device comprises: the cutting device (4) comprises a cutting box (4-1), a feeding hole (4-2), a discharging hole (4-3), a rotating shaft four (4-4), a receiving belt wheel (4-5), a sliding square block (4-6), a spring two (4-7), a cutting column (4-8), a cutting knife (4-9), a cutting column two (4-10), a cutting groove (4-11), an adjusting top end threaded shaft (4-12), a rotating disc (4-13), a self-locking column (4-14), a limiting hole (4-15), a limiting square column (4-16), a mounting seat (4-17), a pressing rod (4-18), a pushing disc (4-19), a cylindrical cavity (4-20), a spring two (4-21), a threaded barrel (4-22), A limiting plate (4-23), a fixed cylinder (4-24), a spring III (4-25), a sliding circular plate (4-26), a connecting square column (4-27), a motor II (4-28), an output belt wheel II (4-29), a transmission belt II (4-30), a driving shaft (4-31), a receiving belt wheel II (4-32), a transmission gear (4-33), a driven shaft (4-34), a receiving gear II (4-35), a transmission half gear (4-36), a double-sided tooth plate (4-37), a driving cutting plate (4-38), a cutting hole (4-39), a driving column (4-40), a driven cutting plate (4-41), a driven cutting hole (4-42) and a fixed support plate (4-43), wherein the motor (3-1) is installed and fixed on a cutting box (4-1), a tensioning cylinder mounting seat (3-3) is fixedly arranged on a cutting box (4-1), a rotating shaft (3-11) is rotatably arranged on the cutting box (4-1), a transmission shaft (3-15) is rotatably arranged on the cutting box (4-1), a feeding port (4-2) is arranged on the cutting box (4-1), a discharging port (4-3) is arranged on the cutting box (4-1), a rotating shaft four (4-4) is rotatably arranged in the cutting box (4-1), a transmission belt (3-10) is arranged on a receiving belt wheel (4-5), the receiving belt wheel (4-5) is fixedly arranged on a rotating shaft four (4-4), a sliding block (4-6) is slidably arranged in the cutting box (4-1), the sliding block (4-6) is in clearance fit with the rotating shaft four (4-4), a second spring (4-7) is fixedly arranged on the sliding square block (4-6) and the cutting box (4-1), a cutting column (4-8) is fixedly arranged on a fourth rotating shaft (4-4), a cutting knife (4-9) is fixedly arranged on the cutting column (4-8), a second cutting column (4-10) is fixedly arranged on the fourth rotating shaft (4-4), a cutting groove (4-11) is arranged on the second cutting column (4-10), an adjusting top end threaded shaft (4-12) is rotatably arranged on the cutting box (4-1), a rotating disc (4-13) is fixedly arranged on the adjusting top end threaded shaft (4-12), a self-locking column (4-14) is fixedly arranged on the adjusting top end threaded shaft (4-12), a limiting hole (4-15) is arranged on the self-locking column (4-14), the limiting square column (4-16) is fixedly arranged on the pushing disc (4-19), the mounting seat (4-17) is fixedly arranged on the limiting square column (4-16), the pressing rod (4-18) is rotatably arranged on the mounting seat (4-17), the pressing rod (4-18) is rotatably arranged inside the cutting box (4-1), the pushing disc (4-19) is slidably arranged inside the cylindrical cavity (4-20), the cylindrical cavity (4-20) is arranged inside the cutting box (4-1), the spring II (4-21) is slidably arranged inside the cylindrical cavity (4-20), the threaded cylinder (4-22) is fixedly arranged on the limiting plate (4-23), the threaded cylinder (4-22) is in threaded fit with the adjusting top threaded shaft (4-12), the limiting plate (4-23) is slidably arranged inside the cutting box (4-1), the fixed cylinder (4-24) is fixedly arranged on the limiting plate (4-23), the spring III (4-25) is slidably arranged inside the fixed cylinder (4-24), the sliding circular plate (4-26) is slidably arranged inside the fixed cylinder (4-24), the connecting square column (4-27) is fixedly arranged on the sliding circular plate (4-26) and the cutting box (4-1), the motor II (4-28) is fixedly arranged on the cutting box (4-1), the output belt pulley II (4-29) is fixedly arranged on the motor II (4-28), the transmission belt II (4-30) is arranged on the output belt pulley II (4-29) and the receiving belt pulley II (4-32), the driving shaft (4-31) is rotatably arranged on the fixed supporting plate (4-43), the receiving belt pulley II (4-32) is fixedly arranged on the driving shaft (4-31), the outgoing gear (4-33) is fixedly arranged on the driving shaft (4-31), the driven shaft (4-34) is rotatably arranged on the fixed support plate (4-43), the receiving gear II (4-35) is fixedly arranged on the driven shaft (4-34), the transmission half gear (4-36) is fixedly arranged on the driven shaft (4-34), the double-sided tooth plate (4-37) is fixedly arranged on the driving cutting plate (4-38), the driving cutting plate (4-38) is slidably arranged in the cutting box (4-1), the cutting hole (4-39) is arranged on the driving cutting plate (4-38), the transmission column (4-40) is rotatably arranged in the cutting box (4-1), the driven cutting plate (4-41) is slidably arranged in the cutting box (4-1), the driven cutting holes (4-42) are arranged in the rows of the driven cutting plates (4-41), and the fixed supporting plates (4-43) are fixedly arranged on the cutting box (4-1).

4. The waste communication equipment circuit board processing device according to claim 1, wherein the waste communication equipment circuit board processing device comprises: the crushing device (6) comprises a motor four (6-1), an output gear four (6-2), a crushing box (6-3), a rotating shaft four (6-4), a receiving gear four (6-5), an installation frame (6-6), a rotating crushing cutter (6-7), a fixed crushing cutter (6-8), a rotating column (6-9), an installation bolt (6-10), a screening plate (6-11), a spring six (6-12) and an inclined plane block (6-13), wherein the motor four (6-1) is fixedly arranged on the crushing box (6-3), the output gear four (6-2) is fixedly arranged on the motor four (6-1), the crushing box (6-3) is fixedly arranged on the cutting box (4-1), and the rotating shaft four (6-4) is rotatably arranged on the installation frame (6-6), the receiving gear IV (6-5) is fixedly arranged on the rotating shaft IV (6-4), the mounting rack (6-6) is fixedly arranged inside the crushing box (6-3), the rotating crushing cutter (6-7) is fixedly arranged on the rotating shaft IV (6-4), the fixed crushing cutter (6-8) is fixedly arranged inside the crushing box (6-3), the rotating column (6-9) is fixedly arranged on the rotating shaft IV (6-4), the mounting bolt (6-10) is fixedly arranged inside the crushing box (6-3), the screening plate (6-11) is slidably arranged on the mounting bolt (6-10), the spring VI (6-12) is sleeved on the mounting bolt (6-10), and the inclined plane block (6-13) is fixedly arranged on the screening plate (6-11).

5. The waste communication equipment circuit board processing device according to claim 3, wherein the waste communication equipment circuit board processing device comprises: the number of the four rotating shafts (4-4) and the receiving belt wheels (4-5) of the cutting device (4) is two, the number of the sliding square blocks (4-6) and the number of the second springs (4-7) are four, the adjusting top end threaded shaft (4-12), the rotating disc (4-13), the self-locking column (4-14), the limiting hole (4-15), the limiting square column (4-16), the mounting seat (4-17), the pressing rod (4-18), the pushing disc (4-19), the cylindrical cavity (4-20), the second spring (4-21), the threaded cylinder (4-22) and the limiting plate (4-23) are provided with a plurality of pieces, and the number of the fixed cylinder (4-24), the third spring (4-25), the sliding circular plate (4-26) and the connecting square column (4-27) is four, the driven shafts (4-34), the receiving gears II (4-35) and the transmission half gears (4-36) are two in number.