阅读说明：本技术 一种医疗垃圾处理设备 (Medical waste treatment equipment ) 是由 林淑平 王廷勇 于 2019-10-24 设计创作，主要内容包括：本发明涉及一种环保领域,更具体的说是一种医疗垃圾处理设备,在环保领域,医疗垃圾的可燃物含量高,采用焚烧法方便快捷,传统焚烧法处理的医疗无法自动化的完成清渣与运渣,清理内壁不便,可能会因为氧气不足、底层堆积造成无法充分燃烧,本发明解决了上述问题,入料口开启,将医疗垃圾从入料口投入焚烧室内点燃垃圾,风扇旋转给焚烧室内充足的空气,击锤敲动防止塑料残渣粘连在焚烧室内壁,搅拌叶翻动底层的垃圾翻起,使燃烧更充分,焚烧完毕后,电机反转将残渣卸下,经传送皮带传送出设备。(The invention relates to the field of environmental protection, in particular to medical waste treatment equipment, which is used for solving the problems that the combustible content of medical waste is high, an incineration method is convenient and quick, the medical treatment treated by the traditional incineration method cannot automatically complete slag removal and slag transportation, the inner wall of the incineration chamber is inconvenient to clean, and the medical waste cannot be fully combusted due to insufficient oxygen and accumulation of a bottom layer.)

1. The utility model provides a medical waste treatment equipment, is including burning assembly (1), giving the wind and unloading sediment assembly (2), the assembly of slagging tap (3) and hammer stirring assembly (4), its characterized in that: incineration assembly (1) with give the wind and unload sediment assembly (2) and be connected, the assembly of slagging tap (3) is connected with incineration assembly (1), drive hammer stirring assembly (4) and burn assembly (1) and be connected, give the wind and unload sediment assembly (2) and be connected with the assembly of slagging tap (3).

2. The medical waste disposal device of claim 1, wherein: the incineration assembly (1) comprises handles (1-1), threaded rods I (1-2), feeding covers (1-3), incineration upper covers (1-4), threaded lugs (1-5), feeding inclined openings (1-6), an incineration chamber (1-7), screen chutes (1-8), rocker chutes (1-9), air inlets (1-10), hinge shafts (1-11), discharge plates (1-12), middle connecting column chutes (1-13) and grooves (1-14), wherein the two handles (1-1) are respectively connected with the two threaded rods I (1-2), the two threaded rods I (1-2) are respectively in threaded connection with the two feeding covers (1-3) and the two threaded lugs (1-5), the two feeding covers (1-3) are both hinged with the incineration upper covers (1-4), two threaded lugs (1-5) are respectively connected with two inclined feeding openings (1-6), the two inclined feeding openings (1-6) are respectively connected with an incineration chamber (1-7), an incineration upper cover (1-4) is connected with the incineration chamber (1-7), two screen chutes (1-8) and two middle column connecting chutes (1-13) are respectively positioned on two side walls of the incineration chamber (1-7), a rocker chute (1-9) is positioned on the incineration upper cover (1-4), an air inlet (1-10) is positioned on one side wall of the incineration chamber (1-7), a hinge shaft (1-11) is rotatably connected with the incineration chamber (1-7), two discharging plates (1-12) are respectively hinged with the hinge shaft (1-11), and the incineration upper cover (1-4), The incineration chambers (1-7) are made of heat insulating materials, and the two grooves (1-14) are positioned on the two side walls of the incineration chambers (1-7).

3. The medical waste disposal device of claim 1, wherein: the air supply and slag discharge assembly (2) comprises a motor I (2-1), a motor I shaft (2-2), a coupler I (2-3), a friction block I (2-4), a lifting gear shaft I (2-5), a gear I (2-6), a lifting gear I (2-7), a gear II (2-8), a gear II shaft (2-9), a lifting chain wheel I (2-10), a lifting chain (2-11), a lifting chain wheel II (2-12), a lifting gear shaft II (2-13), a lifting gear II (2-14), a rack (2-15), a lifting sliding plate (2-16), a purification sieve box I (2-17), a purification sieve box II (2-18), a filtering hole (2-19), a blowing chain wheel I (2-20), The air blowing device comprises a blowing chain (2-21), a blowing chain wheel II (2-22), a fan blade shaft (2-23), an air inlet fan (2-24) and a stripper plate limiting column (2-25), wherein a motor I (2-1) is connected with a motor I shaft (2-2), the motor I shaft (2-2) is in contact with a friction block I (2-4), the friction block I (2-4) is connected with a coupler I (2-3), the coupler I (2-3) is connected with a lifting gear shaft I (2-5), the lifting gear shaft I (2-5) is connected with a gear I (2-6), the lifting gear shaft I (2-5) is connected with a lifting gear I (2-7), the gear I (2-6) is in meshed connection with a gear II (2-8), the gear II (2-8) is connected with a gear II shaft (2-9), the second gear shaft (2-9) is connected with a lifting chain wheel I (2-10), the lifting chain wheel I (2-10), a lifting chain (2-11) and a lifting chain wheel II (2-12) are connected with a chain wheel chain, the lifting chain wheel II (2-12) is connected with a lifting gear shaft II (2-13), the lifting gear shaft II (2-13) is connected with a lifting gear II (2-14), the lifting gear I (2-7) and the lifting gear II (2-14) are respectively meshed and connected with two racks (2-15), the two racks (2-15) are respectively connected with two lifting sliding plates (2-16), the two lifting sliding plates (2-16) are respectively connected with two discharging plate limiting columns (2-25), and the two lifting sliding plates (2-16) are both connected with the incineration chamber (1-7) in a sliding manner, two purification sieve boxes I (2-17) are respectively magnetically linked with two purification sieve boxes II (2-18), the two purification sieve boxes I (2-17) and the two purification sieve boxes II (2-18) are respectively in sliding connection with two screen chutes (1-8), filtering holes (2-19) are positioned on the purification sieve boxes I (2-17) and the purification sieve boxes II (2-18), an air blowing chain wheel I (2-20) is connected with a motor I shaft (2-2), the air blowing chain wheel I (2-20), an air blowing chain (2-21) and an air blowing chain wheel II (2-22) are connected by a chain wheel chain, the air blowing chain wheel II (2-22) is connected with a fan blade shaft (2-23), the fan blade shaft (2-23) is connected with an air inlet fan (2-24), a lifting gear shaft I (2-5) and a lifting gear shaft I (2-5), The gear II shaft (2-9), the lifting gear shaft II (2-13) and the fan blade shaft (2-23) are rotationally connected with the incineration chamber (1-7).

4. The medical waste disposal device of claim 1, wherein: the slag discharging assembly (3) comprises a conveying chain wheel I (3-1), a conveying chain I (3-2), a conveying chain wheel II (3-3), a conveying shaft I (3-4), a conveying chain wheel III (3-5), a conveying chain II (3-6), a conveying chain wheel IV (3-7), a conveying shaft II (3-8), a conveying chain wheel V (3-9), a conveying chain III (3-10), a conveying chain wheel VI (3-11), a conveying shaft III (3-12), a conveying roller (3-13), a conveying belt (3-14) and a discharging inclined plate (3-15), wherein the conveying chain wheel I (3-1) is connected with a motor I shaft (2-2), the conveying chain wheel I (3-1), the conveying chain wheel I (3-2) and the conveying chain wheel II (3-3) are connected by a chain wheel chain, the conveying chain wheel II (3-3) is connected with the conveying shaft I (3-4), the conveying shaft I (3-4) is connected with the conveying chain wheel III (3-5) and the conveying chain wheel V (3-9), the conveying chain wheel III (3-5), the conveying chain II (3-6) and the conveying chain wheel IV (3-7) are connected by a chain wheel and a chain, the conveying chain wheel IV (3-7) is connected with the conveying shaft II (3-8), the conveying chain wheel V (3-9), the conveying chain wheel III (3-10) and the conveying chain wheel VI (3-11) are connected by a chain wheel and a chain, the conveying chain wheel VI (3-11) is connected with the conveying shaft III (3-12), the conveying shaft I (3-4), the conveying shaft II (3-8) and the conveying shaft III (3-12) are respectively connected with the three conveying rollers (3-13), the three conveying rollers (3-13) are connected with the conveying belts (3-14) by belts, and the discharging inclined plates (3-15) are connected with the incineration chambers (1-7).

5. The medical waste disposal device of claim 1, wherein: the hammer stirring assembly (4) comprises a motor II (4-1), a worm I (4-2), a worm wheel I (4-3), a worm wheel shaft (4-4), a turning blade (4-5), a clutch sliding plate (4-6), a motor III (4-7), a motor III shaft (4-8), a friction block II (4-9), a coupling II (4-10), a threaded rod II (4-11), a threaded rod II support (4-12), a sliding plate sliding groove (4-13), a support pillar sliding rail (4-14), a support pillar (4-15), a clutch inclined block (4-16), a clutch inclined block sliding groove (4-17), a conical friction cylinder (4-18), a worm II (4-19), a worm wheel II (4-20), a worm wheel II shaft (4-21), A worm gear II shaft support (4-22), a half gear (4-23), a gear rack (4-24), a rocking block (4-25), a middle connecting column (4-26), a hammer rack (4-27), an inclined hammer head (4-28), a flat hammer head (4-29), a hammer head limiting frame (4-30) and a worm support (4-31), wherein a motor II (4-1) is connected with an incineration upper cover (1-4), a motor II (4-1) is connected with a worm I (4-2), the worm I (4-2) is meshed with the worm gear I (4-3), the worm I (4-2) is rotationally connected with a clutch sliding plate (4-6), the clutch sliding plate (4-6) is slidably connected with a sliding plate (4-13), the sliding plate (4-13) is positioned on the incineration upper cover (1-4), the motor III (4-7) is connected with the incineration upper cover (1-4), the motor III (4-7) is connected with the motor III shaft (4-8), the motor III shaft (4-8) is contacted with the friction block II (4-9), the friction block II (4-9) is connected with the coupling II (4-10), the coupling II (4-10) is connected with the threaded rod II (4-11), the threaded rod II (4-11) is rotationally connected with the threaded rod II support (4-12), the threaded rod II support (4-12) is connected with the incineration upper cover (1-4), the threaded rod II (4-11) is in threaded connection with the clutch sliding plate (4-6), the ejection column sliding rail (4-14) is positioned in the clutch sliding plate (4-6), the ejection column (4-15) is in sliding connection with the ejection column sliding rail (4-14), the jack posts (4-15) are connected with clutch sloping blocks (4-16), the clutch sloping blocks (4-16) are rotationally connected with clutch sloping block chutes (4-17), the clutch sloping block chutes (4-17) are positioned in a worm I (4-2), a conical friction cylinder (4-18) is connected with a worm II (4-19), the worm I (4-2) and the worm II (4-19) are respectively rotationally connected with two worm supports (4-31), the two worm supports (4-31) are both connected with the incineration upper cover (1-4), the worm I (4-2) and the worm II (4-19) are respectively meshed with two worm wheels I (4-3), the two worm wheels I (4-3) are respectively connected with two worm wheel shafts (4-4), the two worm wheel shafts (4-4) are both rotationally connected with the incineration upper cover (1-4), two worm wheel shafts (4-4) are respectively connected with two turning blades (4-5), a worm II (4-19) is meshed with a worm wheel II (4-20), the worm wheel II (4-20) is connected with a worm wheel II shaft (4-21), the worm wheel II shaft (4-21) is rotatably connected with a worm wheel II shaft bracket (4-22), the worm wheel II shaft bracket (4-22) is connected with an incineration upper cover (1-4), the worm wheel II shaft (4-21) is connected with a half gear (4-23), the half gear (4-23) is meshed with a rack (4-24), the rack (4-24) is connected with a rocking block (4-25), the rocking block (4-25) is slidably connected with a rocking block chute (1-9), the rocking block (4-25) is connected with a middle connecting column (4-26), the middle connecting column (4-26) is connected with the hammer frame (4-27), the middle connecting column (4-26) is connected with the middle connecting column sliding groove (1-13) in a sliding mode, the hammer frame (4-27) is connected with the hammer head limiting frame (4-30), the hammer head limiting frames (4-30) are distributed at equal intervals, the inclined hammer heads (4-28) and the flat hammer heads (4-29) are connected with the hammer frame (4-27) in a rotating mode, the inclined hammer heads (4-28) and the flat hammer heads (4-29) are located between gaps of the two hammer head limiting frames (4-30), and the purifying screen box I (2-17) and the purifying screen box II (2-18) are sleeved on the hammer head limiting frames (4-30) and are not in contact with the purifying screen box I (2-17) and the purifying screen box II (2-18).

Technical Field

The invention relates to the field of environmental protection, in particular to medical waste treatment equipment.

Background

In the field of environmental protection, the medical waste has high combustible content, the incineration method is convenient and quick, the medical treatment processed by the traditional incineration method cannot automatically complete slag removal and slag transportation, the cleaning of the inner wall is inconvenient, and the medical waste cannot be fully combusted due to insufficient oxygen and accumulation of a bottom layer, so that the problems are solved.

Disclosure of Invention

The purpose of the invention is realized by the following technical scheme:

the utility model provides a medical waste treatment equipment, includes a medical waste treatment equipment, including burning the assembly, giving the wind and unloading the sediment assembly, the assembly of slagging tap and hammer stirring assembly, burning the assembly and giving the wind and unloading the sediment assembly and being connected, the assembly of slagging tap is connected with burning the assembly, hammer stirring assembly is connected with burning the assembly, gives the wind and unloads the sediment assembly and is connected with the assembly of slagging tap

As a further optimization of the technical scheme, the invention relates to a medical waste treatment device, wherein the incineration combination body comprises a handle, a threaded rod I, a feeding cover, an incineration upper cover, threaded lugs, feeding inclined openings, an incineration chamber, a screen runner, a rocker runner, an air inlet, a hinge shaft, a discharge plate, a middle connecting column runner and a groove, the two handles are respectively connected with the two threaded rods I, the two threaded rods I are respectively in threaded connection with the two feeding covers and the two threaded lugs, the two feeding covers are both hinged with the incineration upper cover, the two threaded lugs are respectively connected with the two feeding inclined openings, the two feeding inclined openings are both connected with the incineration chamber, the incineration upper cover is connected with the incineration chamber, the two screen runners and the two middle connecting column runners are respectively positioned on the two side walls of the incineration chamber, the rocker runner is positioned on the incineration upper cover, the air inlet is positioned on one side wall of the incineration chamber, the hinge shaft is rotatably connected with the incineration chamber, the two discharge plates are hinged with the hinge shaft, the incineration upper cover and the incineration chamber are made of heat-insulating materials, and the two grooves are positioned on two side walls of the incineration chamber

As a further optimization of the technical scheme, the air supply and slag discharge assembly comprises a motor I, a motor I shaft, a coupler I, a friction block I, a lifting gear shaft I, a gear I, a lifting gear I, a gear II shaft, a lifting chain wheel I, a lifting chain wheel II, a lifting gear shaft II, a lifting gear II, a rack, a lifting sliding plate, a purification sieve box I, a purification sieve box II, a filter hole, a blast chain wheel I, a blast chain wheel II, a fan blade shaft, an air inlet fan and a discharge plate limiting column, wherein the motor I is connected with the motor I shaft, the motor I shaft is in contact with the friction block I, the friction block I is connected with the coupler I, the coupler I is connected with the lifting gear shaft I, the lifting gear shaft I is connected with the gear I, the lifting gear shaft I is connected with the lifting gear I, the gear I is in mesh connection with the gear II, the gear II is connected with the gear II, the gear II is connected with the lifting sprocket I, the lifting chain and the lifting sprocket II are connected with the sprocket chain, the lifting sprocket II is connected with the lifting gear shaft II, the lifting gear shaft II is connected with the lifting gear II, the lifting gear I and the lifting gear II are respectively connected with two racks in a meshing way, the two racks are respectively connected with two lifting sliding plates, the two lifting sliding plates are respectively connected with two unloading plate limiting columns, the two lifting sliding plates are respectively connected with the incineration chamber in a sliding way, the two purification sieve boxes I are respectively magnetically linked with the two purification sieve boxes II, the two purification sieve boxes I and the two purification sieve boxes II are respectively connected with two sieve chutes in a sliding way, the filter holes are positioned on the purification sieve boxes I and the purification sieve boxes II, the blowing sprocket I is connected with the motor I, the blowing sprocket I, the blowing chain and the blowing chain sprocket, the blowing chain wheel II is connected with a fan blade shaft, the fan blade shaft is connected with an air inlet fan, and the lifting gear shaft I, the gear shaft II, the lifting gear shaft II and the fan blade shaft are rotatably connected with the incineration chamber.

As a further optimization of the technical scheme, the invention relates to medical waste treatment equipment, wherein the slag discharging assembly comprises a conveying chain wheel I, a conveying chain wheel II, a conveying shaft I, a conveying chain wheel III, a conveying chain II, a conveying chain wheel IV, a conveying shaft II, a conveying chain wheel V, a conveying chain III, a conveying chain wheel VI, a conveying shaft III, a conveying roller, a conveying belt and a discharge inclined plate, the conveying chain wheel I is connected with a shaft of a motor I, the conveying chain wheel I and the conveying chain wheel II are connected in a chain mode, the conveying chain wheel II is connected with the conveying shaft I, the conveying shaft I is connected with the conveying chain wheel III and the conveying chain wheel V, the conveying chain wheel III and the conveying chain wheel IV are connected in a chain mode, the conveying chain wheel IV is connected with the conveying shaft II, the conveying chain wheel V, the conveying chain wheel III and the conveying chain wheel VI is connected with the conveying shaft III, conveying axle I, conveying axle II, conveying axle III are connected with three conveying roller respectively, and three conveying roller is connected with the conveyer belt, and ejection of compact swash plate is connected with the incineration chamber.

As a further optimization of the technical scheme, the invention relates to a medical waste treatment device, wherein a hammer stirring assembly comprises a motor II, a worm I, a worm wheel shaft, a stirring blade, a clutch sliding plate, a motor III shaft, a friction block II, a coupler II, a threaded rod II support, a sliding plate chute, a top column slide rail, a top column, a clutch inclined block chute, a conical friction cylinder, a worm II, a worm wheel II shaft support, a semi-gear, a rack, a rocking block, a middle connecting column, a hammer frame, an inclined hammer head, a flat hammer head, a hammer head limiting frame and a worm support, the motor II is connected with an incineration upper cover, the motor II is connected with the worm I, the worm is meshed with the worm wheel I, the worm I is rotationally connected with the clutch sliding plate chute, the sliding plate chute is positioned on the incineration upper, the motor III is connected with the incineration upper cover, the motor III is connected with the motor III, the motor III is in shaft contact with the friction block II, the friction block II is connected with the coupler II, the coupler II is connected with the threaded rod II, the threaded rod II is in bracket rotary connection with the threaded rod II, the threaded rod II is in threaded connection with the clutch sliding plate, the ejection column slide rail is positioned in the clutch sliding plate, the ejection column is in sliding connection with the ejection column slide rail, the ejection column is connected with the clutch inclined block, the clutch inclined block is in rotary connection with the clutch inclined block slide groove, the clutch inclined block slide groove is positioned in the worm I, the conical friction cylinder is connected with the worm II, the worm I and the worm II are respectively in rotary connection with the two worm supports, the two worm supports are both connected with the incineration upper cover, the worm I and the worm II are respectively in meshing connection with the two worm wheels I, the two worm wheels I, two worm wheel shafts are rotatably connected with the incineration upper cover, the two worm wheel shafts are respectively connected with two turning blades, a worm II is meshed with a worm wheel II, the worm wheel II is connected with a worm wheel II shaft, the worm wheel II shaft is rotatably connected with a worm wheel II shaft bracket, the worm wheel II shaft bracket is connected with the incineration upper cover, the worm wheel II shaft is connected with a half gear, the half gear is meshed with a rack, the rack is connected with a rocking block, the rocking block is slidably connected with a rocking block chute, the rocking block is connected with a middle connecting column, the middle connecting column is connected with a hammer frame, the middle connecting column is slidably connected with a middle connecting column chute, the hammer frame is connected with a hammer head limiting frame, the hammer head limiting frame is distributed at equal intervals, an inclined hammer head and a flat hammer head are rotatably connected with the hammer frame, the inclined hammer head and the flat hammer head are positioned between two hammer head limiting frame gaps, a purification sieve box I and a purification sieve box II are sleeved on the, And the purification sieve box II is contacted.

The medical waste treatment equipment has the beneficial effects that: the pan feeding mouth is opened, throws medical waste into the burning chamber from the pan feeding mouth and ignites rubbish, and the fan rotates for sufficient air in the burning chamber, and the hammering is beaten and is prevented that the plastics residue adhesion is at the burning chamber inner wall, and the stirring leaf stirs the rubbish of bottom and turns up, makes the burning more abundant, burns the back that finishes, and the motor reversal is lifted off the residue, conveys out equipment through the conveying belt.

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 incineration assembly 1 according to the present invention;

FIG. 3 is a partial cross-sectional view of the incineration assembly 1 according to the invention;

FIG. 4 is a schematic structural view II of the incineration assembly 1 of the present invention;

FIG. 5 is a partial sectional view II of the incineration assembly 1 according to the invention;

FIG. 6 is a first schematic structural view of the air supply and slag discharge assembly 2 of the present invention;

FIG. 7 is a partial cross-sectional view of the air supply and slag discharge assembly 2 of the present invention;

FIG. 8 is a second schematic structural view of the air supply and slag discharge assembly 2 of the present invention;

FIG. 9 is a third schematic structural view of the air supply and slag discharge assembly 2 of the present invention;

FIG. 10 is a first schematic view of the slag tapping assembly 3 according to the present invention;

FIG. 11 is a second schematic structural view of the slag tapping assembly 3 of the present invention;

FIG. 12 is a first schematic structural view of the hammer-stirring assembly 4 of the present invention;

FIG. 13 is a second schematic structural view of the hammer-stirring assembly 4 of the present invention;

fig. 14 is a partial sectional view of the hammer mixing assembly 4 of the present invention;

fig. 15 is a second partial sectional view of the hammer mixing assembly 4 of the present invention;

fig. 16 is a third schematic structural view of the hammer-stirring assembly 4 of the present invention;

fig. 17 is a fourth schematic structural view of the hammer mixing assembly 4 of the present invention;

fig. 18 is a fourth structural schematic view of the hammer-stirring assembly 4 of the present invention.

In the figure: an incineration assembly 1; 1-1 of a handle; 1-2 parts of a threaded rod; 1-3 of a feeding cover; burning the upper cover 1-4; 1-5 of a threaded support lug; feeding inclined openings 1-6; 1-7 of an incineration chamber; 1-8 parts of a screen chute; a rocking block chute 1-9; 1-10 of an air inlet; hinge shafts 1 to 11; 1-12 of a stripper plate; middle column connecting chutes 1-13; grooves 1-14; the air supply and slag discharge assembly 2; a motor I2-1; a shaft 2-2 of the motor I; 2-3 of a coupler I; 2-4 of a friction block; lifting gear shafts I2-5; 2-6 parts of a gear I; lifting gears I2-7; 2-8 parts of a gear II; 2-9 of a gear II shaft; 2-10 parts of a lifting chain wheel; 2-11 parts of lifting chains; lifting chain wheels II 2-12; lifting gear shafts II 2-13; lifting gears II 2-14; 2-15 of racks; 2-16 of a lifting sliding plate; 2-17 parts of a purification sieve box; 2-18 parts of a purification sieve box; 2-19 parts of filter holes; 2-20 parts of a blowing chain wheel; 2-21 parts of a blast chain; blowing chain wheels II 2-22; 2-23 parts of fan blade shaft; 2-24 of an air inlet fan; 2-25 of stripper plate limiting column; a slag tapping assembly 3; a conveying chain wheel I3-1; a conveying chain I3-2; a transmission chain wheel II 3-3; 3-4 parts of a transmission shaft; 3-5 of a conveying chain wheel; a conveying chain II 3-6; a transmission chain wheel IV 3-7; 3-8 parts of a transmission shaft; a conveying chain wheel V3-9; 3-10 parts of a conveying chain; a transmission chain wheel VI 3-11; 3-12 parts of a conveying shaft III; a transfer roller 3-13; conveyor belts 3-14; 3-15 parts of discharge sloping plate; a hammer stirring assembly 4; a motor II 4-1; 4-2 parts of a worm; 4-3 of a worm wheel; 4-4 of a worm gear shaft; turning over the blades for 4-5; 4-6 of a clutch slide plate; 4-7 of a motor III; 4-8 of a motor III shaft; 4-9 parts of a friction block II; 4-10 parts of a coupler II; 4-11 parts of a threaded rod; 4-12 supports of a threaded rod II; 4-13 of sliding plate chutes; 4-14 of a top column slide rail; 4-15 parts of top column; 4-16 of clutch sloping blocks; clutch sloping block chutes 4-17; 4-18 parts of conical friction cylinder; 4-19 of a worm II; 4-20 parts of worm gear II; 4-21 of a worm gear II shaft; 4-22 of a worm gear II shaft support; 4-23 parts of a half gear; 4-24 parts of a rack; 4-25 of a rocker; 4-26 of middle connecting column; 4-27 parts of a hammer frame; 4-28 parts of an oblique hammer head; 4-29 parts of a flat hammer head; 4-30 parts of a hammerhead limiting frame; worm supports 4-31.

Detailed Description

The present invention will be described in further detail with reference to the accompanying drawings.

The fixed connection in the device is realized by fixing in modes of welding, thread fixing and the like, and different fixing modes are used in combination with different use environments; the rotary connection means that the bearing is arranged on the shaft in a drying mode, a spring retainer ring groove is formed in the shaft or the shaft hole, and the elastic retainer ring is clamped in the retainer ring groove to achieve axial fixation of the bearing and achieve rotation; the sliding connection refers to the connection through the sliding of the sliding block in the sliding groove or the guide rail; the hinge joint is a movable connection mode on connecting parts such as a hinge, a pin shaft, a short shaft and the like; the required sealing positions are sealed by sealing rings or O-shaped rings.