CN115945271A - Solid waste treatment device for manufacturing lighting lamp - Google Patents

Abstract

The invention discloses a solid waste treatment device for manufacturing an illuminating lamp, which comprises a base, wherein a transmission system is arranged on the base, a fine extrusion crushing mechanism is fixedly arranged on the base, an iron separating mechanism is arranged in the fine extrusion crushing mechanism, a vibrating mechanism and a discharging barrel are arranged at the lower part of the fine extrusion crushing mechanism, a supporting rod is fixedly arranged on the base, a dustproof cover and a rotary coarse crushing mechanism are arranged on the supporting rod, a supporting top plate is arranged at the upper end of the supporting rod, a transmission system II is arranged below the supporting top plate, a dust removing mechanism is arranged on the upper wall of the supporting top plate, a feeding compression mechanism is arranged on the lower wall of the supporting top plate, and a feeding mechanism is arranged on the side wall of the feeding compression mechanism.

Description

Solid waste treatment device for manufacturing lighting lamp

Technical Field

The invention belongs to the technical field of waste treatment, and particularly relates to a solid waste treatment device for manufacturing an illuminating lamp.

Background

With the continuous improvement of living standards of people, places using lighting lamps in production and life are more and more, the quantity demand and the type demand of the lamps are higher, so that solid wastes of various types and styles, such as defective lamps, lamp shades and the like are inevitably generated in the process of producing a large quantity of lamps, the solid wastes are generally divided into harmful wastes and general wastes according to the hazard conditions, the solid wastes are required to be subjected to resource harmless treatment or reduction treatment in order to control the pollution of the solid wastes to the environment and the hazard to human health, the solid wastes generated in the process of producing the lighting lamps can be subjected to crushing treatment, and the crushed solid wastes are subjected to resource classified recycling.

Disclosure of Invention

Aiming at the situation and overcoming the defects of the prior art, the invention provides a solid waste treatment device for manufacturing an illuminating lamp, which can realize the crushing feeding of solid wastes with different types and sizes and control the quantity of one-time crushing feeding of the solid wastes through the arranged feeding compression mechanism, and simultaneously realize the fine crushing operation through the separate arrangement of the rotary coarse crushing mechanism and the extrusion fine crushing mechanism, the full-closed operation in the solid waste treatment process avoids the splashing of the crushed materials, the dust generated in the solid waste treatment process can be harmlessly treated under the action of the dust removal mechanism, and the arranged iron absorber can finish the sorting and recovery of the metal and non-metal crushed materials.

The technical scheme adopted by the invention is as follows: the invention provides a solid waste treatment device for manufacturing lighting lamps, which comprises a base, wherein a transmission system is arranged on the base, an extrusion fine crushing mechanism is fixedly arranged on the base, an iron separating mechanism is fixedly arranged in the extrusion fine crushing mechanism, a vibrating mechanism is fixedly arranged at the lower part of the extrusion fine crushing mechanism, a discharge barrel is fixedly arranged on the lower wall of the extrusion fine crushing mechanism, three support rods are fixedly arranged on the base, a dustproof cover is fixedly arranged on each support rod, a rotary coarse crushing mechanism is rotatably arranged on each support rod, a support top plate is fixedly arranged at the upper end of each support rod, a transmission system II is arranged below each support top plate, a dust removal mechanism is fixedly arranged on the upper wall of each support top plate, a feeding compression mechanism is fixedly arranged on the lower wall of each support top plate, and a feeding mechanism is fixedly arranged on the side wall of each feeding compression mechanism.

Further, rotatory coarse crushing mechanism includes broken section of thick bamboo, the fixed broken sword one that is provided with on the inner wall of broken section of thick bamboo, it is equipped with centrifugal material mouth to run through on the lateral lower wall of broken section of thick bamboo, the fixed location platform that is equipped with on the lateral wall of broken section of thick bamboo, the location bench is equipped with antifriction bearing one, antifriction bearing one with the bracing piece rotates to be connected and sets up, the fixed ring gear that is equipped with on the lateral wall of broken section of thick bamboo, the fixed iron adsorber that is equipped with on the lateral wall of broken section of thick bamboo, the iron adsorber is the ring form setting, the iron adsorber internal fixation is provided with the permanent magnet ring, the fixed rotatory broken awl that is equipped with on the lower wall of broken section of thick bamboo, rotatory broken awl is the cavity setting, evenly run through on the lower wall of rotatory broken awl and be equipped with the round hole, be provided with antifriction bearing two on the upper wall of rotatory broken awl, the cooperation is provided with rotatory broken axle on the antifriction bearing two, rotatory broken axle is the cavity setting, the other end of rotatory broken axle is provided with antifriction bearing three, antifriction bearing three is fixed to be equipped with on the supporting roof, the outer wall of rotatory broken axle is equipped with bevel gear one, the fixed on the outer wall of rotatory broken axle, the broken sword two is equipped with the dust absorption on the rotatory broken axle.

Preferably, the dust removing mechanism comprises a dust exhaust fan, a dust exhaust cover and a collecting box, the dust exhaust fan is fixedly arranged at the upper end of the rotary crushing shaft, the dust exhaust cover is fixedly arranged on the supporting top plate, the collecting box is fixedly arranged on the supporting top plate, an air pipe is arranged on the upper wall of the dust exhaust cover in a penetrating mode, the other end of the air pipe penetrates through the upper wall of the collecting box, the other end of the air pipe is located at the bottom of the collecting box, the upper wall of the collecting box is arranged in an annular opening shape, filtering gauze is fixedly arranged on the upper wall of the collecting box, a water inlet hole and a water outlet hole are formed in the side wall of the collecting box, water is filled in the collecting box, the rotary crushing shaft rotates to drive the dust exhaust fan to rotate, negative pressure is generated inside the dust exhaust cover under the rotating action of the dust exhaust fan, dust generated in the rotary coarse crushing mechanism and the extrusion fine crushing mechanism is exhausted into the collecting box through the dust exhaust cover and the air pipe, water and the filtering gauze are filtered in the collecting box through double filtering box, and the water and the filtering gauze can be periodically replaced to realize filtering and cleaning.

Preferably, the feeding compression mechanism comprises a guide cylinder and a compression cylinder, the guide cylinder is fixedly arranged on the lower wall of the supporting top plate, a fixed feeding hole is formed in the side wall of the guide cylinder, four rolling bearings are fixedly arranged on the side wall of the guide cylinder, the four rolling bearings are symmetrically arranged about the guide cylinder, a compression driven shaft is fixedly arranged on the four rolling bearings, a compression bevel gear is fixedly arranged on the compression driven shaft, compression cams are fixedly arranged on the compression driven shaft, two groups of the compression cams are arranged, the structures of the two groups of the compression cams are the same, five rolling bearings are fixedly arranged on the compression driven shaft, the five rolling bearings are symmetrically arranged about the central axis of the guide cylinder, a feeding rod is arranged on the five rolling bearings in a matching manner, a feeding door is rotatably connected onto the feeding rod, and a compression fixing plate is fixedly arranged on the inner wall of the guide cylinder, the compression fixing plate is symmetrically arranged around the central axis of the guide cylinder, a compression spring is fixedly arranged on the lower wall of the compression fixing plate, the other end of the compression spring is fixedly arranged on the compression cylinder, the compression spring is always in a stretching state, the compression cylinder is slidably arranged in the guide cylinder, the compression cylinder is arranged in an open cylinder shape, a movable feeding hole is arranged on the outer wall of the compression cylinder, a through hole is arranged on the upper wall of the compression cylinder, a feeding rod penetrates through the through hole on the compression cylinder, a feeding rotating shaft penetrates through the side wall of the compression cylinder and is connected with the feeding door in a rotating manner, the compression cam is driven to rotate along with the rotation of a compression driven shaft, the compression cylinder slides downwards under the action of the compression cam, and the feeding door rotates under the action of the feeding rod, the lower open-end of a compression section of thick bamboo is closed, the irregular solid waste of various shapes of lower wall extrusion of feed door makes it get into smoothly and carries out the breakage in the rotatory coarse crushing mechanism, fixed feed port and activity feed port intercommunication this moment, pending solid waste enters into a compression section of thick bamboo through fixed feed port and activity feed port in, along with the rotation of compression cam, a compression section of thick bamboo upwards slides under compression spring's pulling force effect, the feed door rotates under the effect of feed rod and opens, solid waste in a compression section of thick bamboo gets into rotatory coarse crushing mechanism under the action of gravity, material loading compression mechanism circulation reciprocating motion.

Further, the feeding mechanism comprises a temporary storage box, a conveying fixing plate, a conveying supporting plate and a conveying belt, the temporary storage box is fixedly arranged on the guide cylinder, the temporary storage box is communicated with the fixed feeding hole, a feeding hole is formed in the side wall of the temporary storage box in a penetrating mode, the conveying fixing plate is fixedly arranged on the guide cylinder, a first conveying roller and a second conveying roller are fixedly arranged on the conveying fixing plate, the conveying supporting plate is fixedly arranged on the base, a feeding conveying shaft is rotatably arranged on the transmission supporting plate, a third conveying roller is fixedly arranged at one end of the feeding conveying shaft, a feeding bevel gear is fixedly arranged at the other end of the feeding conveying shaft, and the first conveying roller, the second conveying roller and the third conveying roller pass through the conveying belt and are in power connection.

Wherein, the broken mechanism of extrusion is including the broken seat of extrusion and telescopic link, the fixed setting of lower wall of telescopic link is in on the base, the fixed setting of upper wall of telescopic link is in on the lower wall of the broken seat of extrusion, be equipped with stabilizing spring on the telescopic link, the broken seat of extrusion is opening cask form setting, it is equipped with the iron material hole to run through on the lateral wall of the broken seat of extrusion, the fixed elastic washer that is equipped with on the upper wall of the broken seat of extrusion, the fixed thrust bearing that is equipped with on the elastic washer, thrust bearing's upper wall with the iron adsorber cooperation sets up, the fixed iron material pipe that is provided with on the lateral wall of the broken seat of extrusion, the iron material pipe with the iron material hole link up the setting, the below of iron material pipe is provided with the iron workbin, the iron workbin is fixed to be set up on the base, it is equipped with the discharge opening to run through on the lower wall of the broken seat of extrusion, the discharge opening with the play feed cylinder link up, be provided with the discharge box under the discharge barrel, the discharge box is fixed to be set up on the base.

The iron separating mechanism comprises an iron collecting box and an iron scraper, wherein the side wall of the iron collecting box is fixedly arranged on the inner wall of the extrusion crushing seat, the side wall of the iron collecting box is communicated with the iron material hole, a sliding hole is formed in the upper side wall of the iron collecting box, a baffle is fixedly arranged on the lower wall of the iron scraper, a guide pin is fixedly arranged on the lower wall of the iron scraper, the guide pin is slidably arranged in the sliding hole, a compression spring is arranged on the guide pin in a penetrating mode, and the compression spring is always in a compression state.

Further, the first transmission system comprises a first transmission motor, a first transmission shaft and a transmission fixing rod, the first transmission motor is fixedly arranged on the base, a second bevel gear is arranged on the transmission shaft of the first transmission motor, the first transmission shaft is rotatably arranged on the transmission fixing rod, the bottom surface of the transmission fixing rod is fixedly arranged on the base, a third bevel gear is fixedly arranged on the first transmission shaft, the third bevel gear is in power connection with the second bevel gear, a fourth bevel gear is fixedly arranged at one end of the first transmission shaft, the fourth bevel gear is in power connection with the feeding bevel gear, and the other end of the first transmission shaft is connected with the vibration mechanism.

Further, the vibration mechanism includes vibration cam and vibration support frame, the vibration cam is fixed to be set up transmission shaft one is last, the vibration cam is about the axis symmetry setting of the broken seat of extrusion, the vibration support frame includes the vibration dead lever, the vibration dead lever about the axis symmetry setting of vibration cam, the upper end of vibration dead lever with one rotation of transmission shaft is connected the setting, the lower extreme of vibration dead lever is fixed and is provided with fixed horizontal pole, fixed horizontal pole is fixed to be set up on the telescopic link.

Further, the transmission system II comprises a transmission motor II, a transmission shaft on the transmission motor II is fixedly provided with a bevel gear V, the bevel gear V is provided with a bevel gear VI in a power connection manner, the bevel gear VI is fixedly provided with a transmission shaft II, the transmission shaft II is rotatably arranged on the supporting rod, the other end of the transmission shaft II is fixedly provided with a bevel gear VII, the bevel gear VII is in a power connection manner with the gear ring, the bevel gear VII is provided with a bevel gear VIII in a power connection manner, the bevel gear VIII is fixedly provided with a transmission shaft III in a power connection manner, the transmission shaft III is rotatably arranged on the supporting rod, the other end of the transmission shaft III is fixedly provided with a bevel gear nine, the bevel gear nine is provided with a bevel gear Ten in a power connection manner, the bevel gear Ten is fixedly provided with a transmission shaft IV, the transmission shaft IV is rotatably connected with a connecting plate, the connecting plate is fixedly arranged on the supporting top plate, the other end of the transmission shaft IV is fixedly provided with a driven bevel gear, the driven bevel gear is in a power connection manner with the bevel gear I, and the compression bevel gear is in a power connection manner.

By adopting the structure, the invention has the following beneficial effects:

(1) The feeding door that sets up on the material loading compressing mechanism through the reciprocal quantity that opens, close in circulation, control solid waste gets into rotatory coarse crushing mechanism, can avoid the too much equipment damage problem that leads to of feeding, and the feeding door pushes down the in-process moreover and can promote solid waste and get into rotatory coarse crushing mechanism fast, not only can improve the treatment effeciency of wastes material, can also guarantee the effective broken handle of various anomalous solid waste.

(2) Through the temporary storage box, the compression cylinder and the dust cover, a multistage closed feeding mode is realized, no broken object splashes outside the equipment in the process of treating the solid waste of the lamp, and the safety in the whole treatment process is ensured.

(3) The dust removal mechanism who sets up can inhale the dust that produces among the waste treatment process to the collection box, discharges after the filtration of the water in the collection box and filtration gauze, guarantees cleanly.

(4) Solid waste is through the preliminary breakage of rotatory coarse cracking mechanism, and the solid waste crushing treatment of all kinds of differences is the even crushed aggregates of size and then gets into the smart broken mechanism of extrusion, carries out smart broken handle, guarantees the even easy processing of solid waste size after handling.

(5) The iron adsorber can be adsorbed the iron object letter sorting in the coarse crushing back solid waste, then through the separation collection of the iron separating mechanism who sets up, can sort the iron object and collect before the smart breakage, can play the effect that the fine crushing mechanism of protection extrusion, can be with iron object classification again.

(6) The vibrating mechanism who sets up can promote the crushing efficiency when smart breakage, can also promote crushing effect for solid waste's broken speed is faster, and the crushed aggregates after the breakage is more even, and promotes crushed aggregates exhaust speed, guarantees continuous broken operation.

Drawings

FIG. 1 is a schematic view of the overall structure of a solid waste treatment apparatus for manufacturing a lighting fixture according to the present invention;

FIG. 2 is an enlarged view of a portion A in FIG. 1 of a solid waste treatment apparatus for manufacturing a lighting fixture according to the present invention;

FIG. 3 is an enlarged view of a portion B in FIG. 1 of a solid waste treatment apparatus for manufacturing a lighting fixture according to the present invention;

FIG. 4 is an enlarged view of a portion C in FIG. 1 of a solid waste treatment apparatus for manufacturing a lighting fixture according to the present invention;

FIG. 5 is an enlarged view of a portion D in FIG. 1 of a solid waste treatment apparatus for manufacturing a lighting fixture according to the present invention;

FIG. 6 is an enlarged view of a portion E of FIG. 1 of the solid waste treatment apparatus for manufacturing a lighting fixture according to the present invention;

FIG. 7 is an enlarged view of a portion F in FIG. 1 of a solid waste treatment apparatus for manufacturing a lighting fixture according to the present invention;

FIG. 8 is a schematic structural diagram of a first view angle of an iron separating mechanism of a solid waste treatment device for manufacturing a lighting fixture, provided by the invention;

fig. 9 is a schematic structural diagram of a second view angle of an iron separating mechanism of a solid waste treatment device for manufacturing a lighting fixture.

Wherein, 1, a base, 2, a transmission system, 3, an extrusion fine crushing mechanism, 4, an iron separating mechanism, 5, a vibrating mechanism, 6, a discharging barrel, 7, a supporting rod, 8, a rotary coarse crushing mechanism, 9, a supporting top plate, 10, a transmission system II, 11, a dust removing mechanism, 12, a feeding compression mechanism, 13, a feeding mechanism, 14, a crushing barrel, 15, a crushing cutter I, 16, a centrifugal material opening, 17, a positioning platform, 18, a rolling bearing I, 19, a gear ring, 20, an iron absorber, 21, a permanent magnet ring, 22, a rotary crushing cone, 23, a rolling bearing II, 24, a rotary crushing shaft, 25, a rolling bearing III, 26, a bevel gear I, 27, a crushing cutter II, 28, a dust suction opening, 29, a dust exhaust fan, 30, a dust exhaust cover, 31, a collecting box, 32, an air pipe, 33, a filtering gauze, 34, a water inlet hole, 35, a drain hole, 36 and a guide barrel, 37, a compression cylinder, 38, a fixed feeding hole, 39, a rolling bearing four, 40, a compression driven shaft, 41, a compression bevel gear, 42, a compression cam, 43, a rolling bearing five, 44, a feeding rod, 45, a feeding door, 46, a compression fixing plate, 47, a compression spring, 48, a movable feeding hole, 49, a feeding rotating shaft, 50, a temporary storage box, 51, a transmission fixing plate, 52, a transmission supporting plate, 53, a transmission belt, 54, a feeding hole, 55, a transmission roller one, 56, a transmission roller two, 57, a feeding transmission shaft, 58, a transmission roller three, 59, a feeding bevel gear, 60, an extrusion crushing seat, 61, a telescopic rod, 62, a stabilizing spring, 63, an iron material hole, 64, an elastic gasket, 65, a thrust bearing, 66, an iron material pipe, 67, an iron material box, 68, a discharging hole, 69, a discharging box, 70, an iron collecting box, 71, an iron scraper, 72, a sliding hole, 73. the device comprises a baffle plate 74, a guide pin 75, a compression spring 76, a first transmission motor 77, a first transmission shaft 78, a transmission fixing rod 79, a second bevel gear 80, a third bevel gear 81, a fourth bevel gear 82, a vibrating cam 83, a vibrating support frame 84, a vibrating fixing rod 85, a fixing cross rod 86, a second transmission motor 87, a fifth bevel gear 88, a sixth bevel gear 89, a second transmission shaft 90, a seventh bevel gear 91, an eighth bevel gear 92, a third transmission shaft 93, a ninth bevel gear 94, a tenth bevel gear 95, a fourth transmission shaft 96, a connecting plate 97, a driven bevel gear 98 and a dustproof cover.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments; all other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

In the description of the present invention, it is to be understood that the terms "upper", "lower", "front", "rear", "left", "right", "top", "bottom", "inner", "outer", and the like, indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings, and are only for convenience in describing the present invention and simplifying the description, but do not indicate or imply that the device or element referred to must have a particular orientation, be constructed in a particular orientation, and be operated, and thus should not be construed as limiting the present invention.

As shown in fig. 1, 2, 3, 4, 5, 6 and 7, the solid waste treatment device for manufacturing the lighting lamp provided by the invention comprises a base 1, a transmission system 2 is arranged on the base 1, a fine extrusion crushing mechanism 3 is fixedly arranged on the base 1, an iron separating mechanism 4 is fixedly arranged in the fine extrusion crushing mechanism 3, a vibrating mechanism 5 is fixedly arranged at the lower part of the fine extrusion crushing mechanism 3, a discharge barrel 6 is fixedly arranged on the lower wall of the fine extrusion crushing mechanism 3, support rods 7 are fixedly arranged on the base 1, the number of the support rods 7 is three, a dust cover 98 is fixedly arranged on the support rods 7, a rotary coarse crushing mechanism 8 is rotatably arranged on the support rods 7, a support top plate 9 is fixedly arranged at the upper end of the support rods 7, a transmission system two 10 is arranged below the support top plate 9, a dust removing mechanism 11 is fixedly arranged on the upper wall of the lower wall of the support top plate 9, a feeding compression mechanism 12 is fixedly arranged on the support top plate 9, and a feeding mechanism 13 is fixedly arranged on the side wall of the feeding compression mechanism 12.

As shown in fig. 1 and fig. 2, the feeding compression mechanism 12 includes a guide cylinder 36 and a compression cylinder 37, the guide cylinder 36 is fixedly disposed on the lower wall of the supporting top plate 9, a fixed feeding hole 38 is disposed on the sidewall of the guide cylinder 36, four rolling bearings 39 are fixedly disposed on the sidewall of the guide cylinder 36, the four rolling bearings 39 are symmetrically disposed with respect to the guide cylinder 36, a compression driven shaft 40 is fixedly disposed on the four rolling bearings 39, a compression bevel gear 41 is fixedly disposed on the compression driven shaft 40, a compression cam 42 is fixedly disposed on the compression driven shaft 40, two groups of compression cams 42 are disposed, the two groups of compression cams 42 have the same structure, five rolling bearings 43 are fixedly disposed on the compression driven shaft 40, the five rolling bearings 43 are symmetrically disposed with respect to the central axis of the guide cylinder 36, a feeding rod 44 is disposed on the five rolling bearings 43 in a matching manner, a feeding gate 45 is rotatably connected to the feeding rod 44, a compression fixing plate 46 is fixedly disposed on the inner wall of the guide cylinder 36, the compression fixing plate 46 is symmetrically arranged about the central axis of the guide cylinder 36, a compression spring 47 is fixedly arranged on the lower wall of the compression fixing plate 46, the other end of the compression spring 47 is fixedly arranged on the compression cylinder 37, the compression spring 47 is always in a stretching state, the compression cylinder 37 is slidably arranged in the guide cylinder 36, the compression cylinder 37 is in an open cylinder shape, a movable feeding hole 48 is arranged on the outer wall of the compression cylinder 37, a through hole is arranged on the upper wall of the compression cylinder 37, a feeding rod 44 penetrates through the through hole on the compression cylinder 37, a feeding rotating shaft 49 penetrates through the side wall of the compression cylinder 37, the feeding rotating shaft 49 is rotatably connected with the feeding door 45, the compression cam 42 is driven to rotate along with the rotation of the compression driven shaft 40, the compression cylinder 37 slides downwards under the action of the compression cam 42, the feeding door 45 rotates under the action of the feeding rod 44 to close the lower opening of the compression cylinder 37, the lower wall of the feeding door 45 extrudes irregular solid wastes of various shapes, so that the irregular solid wastes smoothly enter the rotary rough crushing mechanism 8 to be crushed, at the moment, the fixed feeding hole 38 is communicated with the movable feeding hole 48, the solid wastes to be treated enter the compression cylinder 37 through the fixed feeding hole 38 and the movable feeding hole 48, along with the rotation of the compression cam 42, the compression cylinder 37 slides upwards under the pulling force of the compression spring 47, the feeding door 45 rotates and opens under the action of the feeding rod 44, the solid wastes in the compression cylinder 37 enter the rotary rough crushing mechanism 8 under the action of gravity, and the feeding compression mechanism 12 circularly reciprocates.

As shown in fig. 1 and 4, the dust removing mechanism 11 includes a dust exhaust fan 29, a dust exhaust cover 30 and a collecting box 31, the dust exhaust fan 29 is fixedly disposed at the upper end of the rotary crushing shaft 24, the dust exhaust cover 30 is fixedly disposed on the supporting top plate 9, the collecting box 31 is fixedly disposed on the supporting top plate 9, an air pipe 32 is disposed through the upper wall of the dust exhaust cover 30, the other end of the air pipe 32 is disposed through the upper wall of the collecting box 31, the other end of the air pipe 32 is disposed at the bottom of the collecting box 31, the upper wall of the collecting box 31 is disposed in an annular opening shape, a filtering gauze 33 is fixedly disposed on the upper wall of the collecting box 31, a water inlet 34 and a water outlet 35 are disposed on the side wall of the collecting box 31, water is filled in the collecting box 31, the rotary crushing shaft 24 rotates to drive the dust exhaust fan 29 to rotate, negative pressure is generated inside the dust exhaust cover 30 under the rotation of the dust exhaust fan 29, dust generated in the rotary rough crushing mechanism 8 and the extruding fine crushing mechanism 3 is exhausted out of the collecting box 31 through the dust exhaust cover 30 and the air pipe 32, and the collecting box 31 is filtered through double filtering gauze, and the filtering gauze 33, and the filtering gauze is periodically filtered and the collected dust collected in the collecting box 31 is filtered and filtered.

As shown in fig. 1, the rotary rough crushing mechanism 8 includes a crushing cylinder 14, a first crushing cutter 15 is fixedly disposed on an inner wall of the crushing cylinder 14, a centrifugal material port 16 is arranged on a side lower wall of the crushing cylinder 14 in a penetrating manner, a positioning table 17 is fixedly disposed on an outer side wall of the crushing cylinder 14, a first rolling bearing 18 is disposed on the positioning table 17, the first rolling bearing 18 is rotatably connected with a support rod 7, a gear ring 19 is fixedly disposed on an outer side wall of the crushing cylinder 14, an iron absorber 20 is fixedly disposed on the outer side wall of the crushing cylinder 14, the iron absorber 20 is in a circular ring shape, a permanent magnet ring 21 is fixedly disposed in the iron absorber 20, a rotary crushing cone 22 is fixedly disposed on a lower wall of the crushing cylinder 14, the rotary crushing cone 22 is a hollow cavity, a circular hole is uniformly arranged on a lower wall of the rotary crushing cone 22 in a penetrating manner, a second rolling bearing 23 is disposed on an upper wall of the rotary crushing cone 22, a rotary crushing shaft 24 is cooperatively disposed on the second rolling bearing 23, the rotary crushing shaft 24 is disposed in a hollow manner, a third rolling bearing 25 is disposed on an outer wall of the rotary crushing shaft 24, a dust suction hole is uniformly disposed on an outer wall of the rotary crushing shaft 24, and a rotary crushing shaft 24 is disposed on an outer wall of the rotary crushing shaft 24, and a dust suction hole 28 is disposed on a rotary crushing shaft.

As shown in fig. 1, 2 and 6, the feeding mechanism 13 includes a temporary storage box 50, a transmission fixing plate 51, a transmission supporting plate 52 and a transmission belt 53, the temporary storage box 50 is fixedly disposed on the guide cylinder 36, the temporary storage box 50 is disposed to penetrate through the fixed feeding hole 38, a feeding hole 54 is disposed on a side wall of the temporary storage box 50, the transmission fixing plate 51 is fixedly disposed on the guide cylinder 36, a first transmission roller 55 and a second transmission roller 56 are fixedly disposed on the transmission fixing plate 51, the transmission supporting plate 52 is fixedly disposed on the base 1, a feeding transmission shaft 57 is rotatably disposed on the transmission supporting plate, a third transmission roller 58 is fixedly disposed at one end of the feeding transmission shaft 57, a feeding bevel gear 59 is fixedly disposed at the other end of the feeding transmission shaft 57, and the first transmission roller 55, the second transmission roller 56 and the third transmission roller 58 are dynamically connected through the transmission belt 53.

As shown in fig. 1 and 6, the transmission system 2 includes a first transmission motor 76, a first transmission shaft 77 and a transmission fixing rod 78, the first transmission motor 76 is fixedly disposed on the base 1, a second bevel gear 79 is disposed on a transmission shaft of the first transmission motor 76, the first transmission shaft 77 is rotatably disposed on the transmission fixing rod 78, a bottom surface of the transmission fixing rod 78 is fixedly disposed on the base 1, a third bevel gear 80 is fixedly disposed on the first transmission shaft 77, the third bevel gear 80 is in power connection with the second bevel gear 79, a fourth bevel gear 81 is fixedly disposed at one end of the first transmission shaft 77, the fourth bevel gear 81 is in power connection with the feeding bevel gear 59, and a vibrating mechanism 5 is disposed at the other end of the first transmission shaft 77.

As shown in fig. 1 and 7, the second transmission system 10 includes a second transmission motor 86, a fifth bevel gear 87 is fixedly disposed on a transmission shaft of the second transmission motor 86, a sixth bevel gear 88 is disposed on the fifth bevel gear 87 in a power connection manner, a second transmission shaft 89 is fixedly disposed on the sixth bevel gear 88, the second transmission shaft 89 is rotatably disposed on the support rod 7, a seventh bevel gear 90 is fixedly disposed at the other end of the second transmission shaft 89, the seventh bevel gear 90 is in a power connection manner with the gear ring 19, a seventh bevel gear eight 91 is disposed on the seventh bevel gear 90 in a power connection manner, a third transmission shaft 92 is fixedly disposed on the eighth bevel gear 91, the third transmission shaft 92 is rotatably disposed on the support rod 7, a ninth bevel gear 93 is fixedly disposed at the other end of the third transmission shaft 92, a tenth bevel gear 94 is disposed on the ninth bevel gear 93 in a power connection manner, a fourth transmission shaft 95 is fixedly disposed on the tenth bevel gear 94, a fourth transmission shaft 95 is rotatably connected with a connecting plate 96, the connecting plate 96 is fixedly disposed on the support top plate 9, a second transmission shaft 95 is fixedly disposed at the other end of the fourth transmission shaft 95, a driven bevel gear 97 is in a power connection manner with the first bevel gear 26, and a first bevel gear 26 is in a power connection manner with the compression bevel gear 41.

As shown in fig. 1, fig. 3 and fig. 5, the fine crushing mechanism 3 includes an extruding crushing seat 60 and an expansion link 61, a lower wall of the expansion link 61 is fixedly disposed on the base 1, an upper wall of the expansion link 61 is fixedly disposed on a lower wall of the extruding crushing seat 60, a stabilizing spring 62 is disposed on the expansion link 61, the extruding crushing seat 60 is disposed in an open barrel shape, an iron material hole 63 is formed in a side wall of the extruding crushing seat 60 in a penetrating manner, an elastic washer 64 is fixedly disposed on the upper wall of the extruding crushing seat 60, a thrust bearing 65 is fixedly disposed on the elastic washer 64, the upper wall of the thrust bearing 65 is disposed in a matching manner with the iron absorber 20, an iron material pipe 66 is fixedly disposed on an outer side wall of the extruding crushing seat 60, the iron material pipe 66 is disposed in a penetrating manner with the iron material hole 63, an iron material box 67 is disposed below the iron material pipe 66, the iron material box 67 is fixedly disposed on the base 1, a discharging hole 68 is disposed in a penetrating manner on the lower wall of the extruding crushing seat 60, the discharging hole 68 is disposed in a penetrating manner with the discharging cylinder 6, and a discharging box 69 is fixedly disposed on the base 1.

As shown in fig. 1, 3, 8 and 9, the iron separating mechanism 4 includes an iron collecting box 70 and an iron scraper 71, a side wall of the iron collecting box 70 is fixedly disposed on an inner wall of the crushing base 60, a side wall of the iron collecting box 70 is communicated with the iron material hole 63, a sliding hole 72 is disposed on an upper side wall of the iron collecting box 70, a baffle 73 is fixedly disposed on a lower wall of the iron scraper 71, a guide pin 74 is fixedly disposed on a lower wall of the iron scraper 71, the guide pin 74 is slidably disposed in the sliding hole 72, a compression spring 75 is disposed on the guide pin 74 in a penetrating manner, and the compression spring 75 is always in a compression state.

As shown in fig. 1 and 5, the vibrating mechanism 5 includes a vibrating cam 82 and a vibrating support frame 83, the vibrating cam 82 is fixedly disposed on the first transmission shaft 77, the vibrating cam 82 is symmetrically disposed about a central axis of the crushing seat 60, the vibrating support frame 83 includes a vibrating fixing rod 84, the vibrating fixing rod 84 is symmetrically disposed about a central axis of the vibrating cam 82, an upper end of the vibrating fixing rod 84 is rotatably connected with the first transmission shaft 77, a fixing cross rod 85 is fixedly disposed at a lower end of the vibrating fixing rod 84, and the fixing cross rod 85 is fixedly disposed on the telescopic rod 61.

When the device is used, solid waste to be treated is placed on the conveyor belt 53, the first transmission motor 76 drives the second bevel gear 79 to rotate, the second bevel gear 79 is meshed with the third bevel gear 80 to drive the first transmission shaft 77 to rotate, the first transmission shaft 77 drives the fourth bevel gear 81 to rotate, the fourth bevel gear 81 is meshed with the feeding bevel gear 59 to drive the third transmission roller 58 to rotate, the conveyor belt 53 is driven by the third transmission roller 58 to rotate to convey the solid waste into the temporary storage box 50, the compression cam 42 rotates under the driving of the compression driven shaft 40, the compression cylinder 37 slides downwards under the action of the compression cam 42, the fixed feeding hole 38 is communicated with the movable feeding hole 48, the solid waste to be treated in the temporary storage box 50 enters the compression cylinder 37 through the fixed feeding hole 38 and the movable feeding hole 48, and along with the rotation of the compression cam 42, the compression cylinder 37 slides upwards under the action of the tension of the compression spring 47, the feeding door 45 is opened by rotating under the action of the feeding rod 44, the solid waste in the compression cylinder 37 enters the rotary rough crushing mechanism 8 under the action of gravity, the compression cam 42 rotates again, the compression cylinder 37 slides downwards again, the feeding door 45 rotates again under the action of the feeding rod 44 to close the lower opening of the compression cylinder 37, the lower wall of the feeding door 45 extrudes irregular solid waste in various shapes to enable the irregular solid waste to smoothly enter the rotary rough crushing mechanism 8 for crushing, continuous feeding and compression operations can be completed by repeating the actions circularly, after the solid waste enters the rotary rough crushing mechanism 8, the crushing cylinder 14 drives the first crushing knife 15 to rotate clockwise, the rotary crushing shaft 24 drives the second crushing knife 27 to rotate anticlockwise, the solid waste realizes rough crushing under the dual action of the first crushing knife 15 and the second crushing knife 27, the coarsely crushed solid waste falls into the bottom of the crushing barrel 14, the coarsely crushed solid waste is thrown out of a centrifugal port 16 under the action of centrifugal force along with the rotation of the coarse crushing mechanism 8, at the moment, the iron crushed materials and the non-iron crushed materials in the coarsely crushed solid waste are mixed together, the crushed material mixture is thrown onto the lower wall of an iron absorber 20, iron is absorbed on the iron absorber 20 under the action of the magnetic force of a permanent magnet ring 21 in the iron absorber 20, the non-iron crushed materials fall onto an extrusion crushing seat 60, the iron crushed materials absorbed on the iron absorber 20 are separated by an iron scraper 71 on an iron separating mechanism 4 and fall into an iron collecting box 70 in the rotation process of the iron crushed materials along with the rotation of the iron absorber 20, a guide pin 74 on the iron scraper 71 is arranged in a sliding hole 72 on the iron collecting box 70 in a sliding manner, and under the action of a compression spring 75 on the guide pin 74, so that the iron scraper 71 is always attached to the lower wall of the iron absorber 20, the iron scraper 71 can always effectively scrape the iron crushed aggregates on the iron absorber 20, the iron crushed aggregates falling into the iron collecting box 70 vibrate up and down along with the extrusion crushing seat 60 and fall into the iron bin 67 from the iron material pipe, thereby realizing the separation and collection of the iron crushed aggregates, the non-iron crushed aggregates falling onto the extrusion crushing seat 60 gradually move towards the discharge port along with the vibration of the extrusion crushing seat 60, the non-iron crushed aggregates after coarse crushing are crushed into uniform and smaller crushed aggregates under the extrusion action of the lower wall of the rotary crushing cone 22 and the upper wall of the extrusion crushing seat 60, when the crushed aggregates reach a certain size, the solid waste crushed into smaller crushed aggregates passes through the gap between the lower wall of the rotary crushing cone 22 and the upper wall of the extrusion crushing seat 60, the solid waste is discharged into a discharge port and is discharged into a discharge box 69 through a discharge barrel 6, the solid waste is treated, a vibration mechanism 5 is arranged on the lower portion of an extrusion fine crushing mechanism 3, a vibration cam 82 is driven to rotate under the rotary drive of a transmission shaft 77, when the vibration cam 82 rotates, an extrusion crushing seat 60 is made to vibrate up and down circularly, the fine crushing speed of the solid waste and the discharge speed after crushing are improved, meanwhile, round holes formed in the lower wall of a rotary crushing cone 22 and the rotary crushing shaft 24 are communicated with a dust removal mechanism 11 through a cavity in the rotary crushing shaft 24 and a dust suction port 28, a dust removal fan 29 rotates under the rotation of the rotary crushing shaft 24, negative pressure is generated inside a dust removal cover 30 under the rotation action of the dust removal fan 29, dust generated in a rotary coarse crushing mechanism 8 and the extrusion fine crushing mechanism 3 is discharged into a collection box 31 through the dust removal cover 30 and an air pipe 32, water and filter gauze in the collection box 31 are subjected to double filtration, the dust is filtered in the collection box 31, water and the filter gauze 33 in the collection box 31 are periodically replaced, and the solid waste treatment process can be cleaned.

It is noted that, herein, relational terms such as first and second, and the like may be used solely to distinguish one entity or action from another entity or action without necessarily requiring or implying any actual such relationship or order between such entities or actions. Also, the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, article, or apparatus.

Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.

The present invention and its embodiments have been described above, and the description is not intended to be limiting, and the drawings show only one embodiment of the present invention, and the actual structure is not limited thereto. In summary, those skilled in the art should be able to conceive of the present invention without creative design of the similar structural modes and embodiments without departing from the spirit of the present invention, and all such modifications should fall within the protection scope of the present invention.

Claims (10)

1. The utility model provides a solid waste processing apparatus is used in illumination lamps and lanterns manufacturing which characterized in that: including base (1), be provided with drive system (2) on base (1), the fixed fine crushing mechanism of extrusion (3) that is provided with on base (1), the fine crushing mechanism of extrusion (3) internal fixation is provided with iron separating mechanism (4), the fixed vibrating mechanism (5) that is provided with in lower part of the fine crushing mechanism of extrusion (3), the fixed feed cylinder (6) that is provided with on the lower wall of the fine crushing mechanism of extrusion (3), the fixed bracing piece (7) that is provided with on base (1), bracing piece (7) evenly is equipped with threely, the fixed shield (98) that is provided with on bracing piece (7), it is provided with rotatory coarse crushing mechanism (8) to rotate on bracing piece (7), bracing piece (7) upper end is fixed to be provided with supporting roof (9), be provided with under supporting roof (9) drive system two (10), the fixed dust removal mechanism (11) that is provided with on the upper wall of supporting roof (9), the fixed material loading compressing mechanism (12) that is provided with on the lower wall of supporting roof (9), the fixed feed mechanism (13) that is provided with on the lateral wall of material compressing mechanism (12).

2. The solid waste treatment device for manufacturing the lighting fixture as claimed in claim 1, wherein: the rotary rough crushing mechanism (8) comprises a crushing barrel (14), a first crushing cutter (15) is fixedly arranged on the inner wall of the crushing barrel (14), a centrifugal port (16) is arranged on the side lower wall of the crushing barrel (14) in a penetrating mode, a positioning platform (17) is fixedly arranged on the outer side wall of the crushing barrel (14), a first rolling bearing (18) is arranged on the positioning platform (17), a first rolling bearing (18) is connected with the support rod (7) in a rotating mode, a gear ring (19) is fixedly arranged on the outer side wall of the crushing barrel (14), an absorber (20) is fixedly arranged on the outer side wall of the crushing barrel (14), the absorber (20) is arranged in a ring shape, a permanent magnet ring (21) is fixedly arranged in the iron absorber (20), a rotary crushing cone (22) is fixedly arranged on the lower wall of the crushing barrel (14), the rotary crushing cone (22) is arranged in a hollow cavity, a round hole is uniformly arranged in a penetrating mode on the lower wall of the rotary crushing cone (22), two rotary crushing cones (23) are arranged on the upper wall of the crushing shaft (24), a rotary shaft (24) is arranged in a supporting mode, and a third rolling bearing (25) is arranged on the rotary shaft (24), the outer wall of the rotary crushing shaft (24) is fixedly provided with a bevel gear I (26), the outer wall of the rotary crushing shaft (24) is fixedly provided with a crushing cutter II (27), the rotary crushing shaft (24) is provided with a round hole in a penetrating mode, and the outer wall of the upper end of the rotary crushing shaft (24) is evenly provided with dust suction ports (28).

3. The solid waste treatment device for manufacturing the lighting fixture as claimed in claim 2, wherein: dust removal mechanism (11) are including dust exhaust fan (29), dust exhaust cover (30) and collecting box (31), dust exhaust fan (29) are fixed to be set up the upper end of rotatory broken axle (24), dust exhaust cover (30) are fixed to be set up support on roof (9), collecting box (31) are fixed to be set up support on roof (9), the upper wall of dust exhaust cover (30) link up and are provided with trachea (32), the other end of trachea (32) runs through the upper wall setting of collecting box (31), the other end of trachea (32) is located the bottom of collecting box (31), the upper wall of collecting box (31) is the setting of annular opening form, fixed filter gauze (33) that is provided with on the upper wall of collecting box (31), be equipped with inlet opening (34) and wash port (35) on the lateral wall of collecting box (31), water is equipped with in collecting box (31).

4. The solid waste treatment device for manufacturing the lighting fixture as claimed in claim 3, wherein: the feeding compression mechanism (12) comprises a guide cylinder (36) and a compression cylinder (37), the guide cylinder (36) is fixedly arranged on the lower wall of the supporting top plate (9), a fixed feeding hole (38) is formed in the side wall of the guide cylinder (36), a rolling bearing four (39) is fixedly arranged on the side wall of the guide cylinder (36), the rolling bearing four (39) is symmetrically arranged relative to the guide cylinder (36), a compression driven shaft (40) is fixedly arranged on the rolling bearing four (39), a compression bevel gear (41) is fixedly arranged on the compression driven shaft (40), compression cams (42) are fixedly arranged on the compression driven shaft (40), two groups of the compression cams (42) are arranged, the two groups of the compression cams (42) are identical in structure, a rolling bearing five (43) is fixedly arranged on the compression driven shaft (40), the five rolling bearings (43) are symmetrically arranged relative to the central axis of the guide cylinder (36), a feeding rod (44) is arranged on the rolling bearing five (43) in a matched mode, a feeding rod (44) is rotatably connected with a feeding door (45), a compression spring fixing plate (46) is symmetrically arranged on the inner wall of the guide cylinder (36), and a compression spring fixing plate (46) is symmetrically arranged relative to the compression cylinder fixing plate (46), the other end of compression spring (47) is fixed to be set up on compression section of thick bamboo (37), compression spring (47) are in tensile state always, compression section of thick bamboo (37) slide to be set up in guide cylinder (36), compression section of thick bamboo (37) are the setting of opening tube-shape, be equipped with movable feed port (48) on the outer wall of compression section of thick bamboo (37), be equipped with the through-hole on the upper wall of compression section of thick bamboo (37), feed rod (44) run through-hole setting on compression section of thick bamboo (37), it is equipped with feeding pivot (49) to run through on the lateral wall of compression section of thick bamboo (37), feeding pivot (49) with feed gate (45) rotate to connect the setting.

5. The solid waste treatment device for manufacturing the lighting fixture as claimed in claim 4, wherein: the feeding mechanism (13) comprises a temporary storage box (50), a conveying fixing plate (51), a conveying supporting plate (52) and a conveying belt (53), the temporary storage box (50) is fixedly arranged on the guide cylinder (36), the temporary storage box (50) and the fixed feeding hole (38) are arranged in a penetrating mode, a feeding hole (54) penetrates through the side wall of the temporary storage box (50), the conveying fixing plate (51) is fixedly arranged on the guide cylinder (36), a first conveying roller (55) and a second conveying roller (56) are fixedly arranged on the conveying fixing plate (51), the conveying supporting plate (52) is fixedly arranged on the base (1), a feeding conveying shaft (57) is rotatably arranged on the conveying supporting plate, a third conveying roller (58) is fixedly arranged at one end of the feeding conveying shaft (57), a feeding bevel gear (59) is fixedly arranged at the other end of the feeding conveying shaft (57), and the first conveying roller (55), the second conveying roller (56) and the third conveying roller (58) are connected through the conveying belt (53) in a power mode.

6. The solid waste treatment device for manufacturing the lighting fixture as claimed in claim 5, wherein: the extrusion fine crushing mechanism (3) comprises an extrusion crushing seat (60) and an expansion link (61), the lower wall of the expansion link (61) is fixedly arranged on the base (1), the upper wall of the expansion link (61) is fixedly arranged on the lower wall of the extrusion crushing seat (60), a stabilizing spring (62) is arranged on the expansion link (61), the extrusion crushing seat (60) is arranged in an opening barrel shape, an iron material hole (63) is arranged on the side wall of the extrusion crushing seat (60) in a penetrating manner, an elastic gasket (64) is fixedly arranged on the upper wall of the extrusion crushing seat (60), a thrust bearing (65) is fixedly arranged on the elastic gasket (64), the upper wall of the thrust bearing (65) is matched with an iron absorber (20), an iron material pipe (66) is fixedly arranged on the outer side wall of the extrusion crushing seat (60), the iron material pipe (66) is arranged in a penetrating manner with the iron material hole (63), a material box (67) is arranged below the iron material pipe (66), the material box (67) is fixedly arranged on the base (1), the extrusion crushing seat (60) is arranged on the lower wall of the iron material pipe (68), and a discharge hole (6) is arranged in a penetrating manner, the discharging box (69) is fixedly arranged on the base (1).

7. The solid waste treatment device for manufacturing the lighting fixture as claimed in claim 6, wherein: iron separating mechanism (4) collect box (70) and iron scraper (71) including iron, the fixed setting of lateral wall that box (70) was collected to iron is in on the inner wall of extrusion broken seat (60), the lateral wall that box (70) was collected to iron with iron material hole (63) link up the setting, be provided with slide opening (72) on the last lateral wall of box (70) is collected to iron, the fixed baffle (73) that is equipped with on the lower wall of iron scraper (71), fixed uide pin (74) that is equipped with on the lower wall of iron scraper (71), uide pin (74) slide and set up in slide opening (72), it is provided with pressure spring (75) to run through on uide pin (74), pressure spring (75) are in compression state all the time.

8. The solid waste treatment apparatus for manufacturing a lighting fixture as claimed in claim 7, wherein: the transmission system I (2) comprises a transmission motor I (76), a transmission shaft I (77) and a transmission fixing rod (78), the transmission motor I (76) is fixedly arranged on the base (1), a bevel gear II (79) is arranged on the transmission shaft of the transmission motor I (76), the transmission shaft I (77) is rotatably arranged on the transmission fixing rod (78), the bottom surface of the transmission fixing rod (78) is fixedly arranged on the base (1), a bevel gear III (80) is fixedly arranged on the transmission shaft I (77), the bevel gear III (80) is in power connection with the bevel gear II (79), a bevel gear IV (81) is fixedly arranged at one end of the transmission shaft I (77), the bevel gear IV (81) is in power connection with the feeding bevel gear (59), and the other end of the transmission shaft I (77) is connected with the vibrating mechanism (5).

9. The solid waste treatment device for manufacturing lighting fixtures of claim 8, wherein: vibration mechanism (5) are including vibrating cam (82) and vibration support frame (83), vibrating cam (82) are fixed to be set up on transmission shaft (77), vibrating cam (82) about the axis symmetry of the broken seat of extrusion (60) sets up, vibration support frame (83) are including vibration dead lever (84), vibration dead lever (84) about the axis symmetry of vibrating cam (82) sets up, the upper end of vibration dead lever (84) with the setting is connected in the rotation of transmission shaft (77), the fixed horizontal pole (85) that is provided with of lower extreme of vibration dead lever (84), fixed horizontal pole (85) are fixed to be set up on telescopic link (61).

10. The solid waste treatment device for manufacturing lighting fixtures of claim 9, wherein: the second transmission system (10) comprises a second transmission motor (86), a fifth bevel gear (87) is fixedly arranged on a transmission shaft on the second transmission motor (86), a sixth bevel gear (88) is arranged on the fifth bevel gear (87) in a power connection manner, a second transmission shaft (89) is fixedly arranged on the sixth bevel gear (88), the second transmission shaft (89) is rotatably arranged on the support rod (7), a seventh bevel gear (90) is fixedly arranged at the other end of the second transmission shaft (89), the seventh bevel gear (90) is in a power connection manner with the gear ring (19), an eighth bevel gear (91) is fixedly arranged on the seventh bevel gear (90), a third transmission shaft (92) is fixedly arranged on the eighth bevel gear (91), the third transmission shaft (92) is rotatably arranged on the support rod (7), a ninth bevel gear (93) is fixedly arranged at the other end of the third transmission shaft (92), a tenth bevel gear (94) is fixedly arranged on the ninth bevel gear (93), a fourth transmission shaft (95) is fixedly arranged on the tenth bevel gear (94), a connecting plate (96) is fixedly arranged on the connecting plate (96), and a driven bevel gear (97) is fixedly arranged on the support plate (9), the driven bevel gear (97) is in power connection with the first bevel gear (26), and the first bevel gear (26) is in power connection with the compression bevel gear (41).

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