CN111300572A - Treatment facility of old and useless timber for building - Google Patents

Abstract

The invention relates to the field of buildings, in particular to a treatment device for waste wood for buildings. The transmission ratio output by the power source combination body can be adjusted according to actual conditions; the contact between the cutting edge and the wood can be controlled, so that the wood can be crushed; the working amplitude of the cutting edge can be adjusted according to the actual condition; can rotate by driving the unloading round roller, and then is convenient to the collection of broken timber. Including loading the assembly, cut off the assembly, the power supply assembly, belt A, belt B, awl tooth A, awl tooth B, awl tooth axle A, inner bearing rod is moving down being driven in the effect of the ligneous gravity of broken completion, and then be connected the driven pole that presses down of drive through the cooperation of inner checkpost and inner draw-in groove one, and then the awl tooth slider is being connected the bull stick through articulated connecting rod along inboard and is moving, and with the transmission awl tooth meshing transmission, when bent axle one rotates simultaneously, through belt B, awl tooth axle A drive awl tooth A and rotate.

Description

Treatment facility of old and useless timber for building

Technical Field

The invention relates to the field of buildings, in particular to a treatment device for waste wood for buildings.

Background

The treatment equipment of the waste wood for the building is a common equipment in the field of the building, but the function of the common treatment equipment of the waste wood for the building is single.

Disclosure of Invention

The invention aims to provide a treatment device of waste wood for construction, which can adjust the transmission ratio output by a power source assembly according to the actual situation; the contact between the cutting edge and the wood can be controlled, so that the wood can be crushed; the working amplitude of the cutting edge can be adjusted according to the actual condition; can rotate by driving the unloading round roller, and then is convenient to the collection of broken timber.

The purpose of the invention is realized by the following technical scheme: the utility model provides a waste wood's for building treatment facility, is including loading the assembly, cutting off assembly, power supply assembly, belt A, belt B, awl tooth A, awl tooth B, awl tooth axle A, its characterized in that: the bevel gear A is in meshing transmission with the bevel gear B, the bevel gear shaft A is fixedly connected with the bevel gear B, the loading assembly is connected with the cutting assembly, and the power source assembly is connected with the loading assembly.

As a further optimization of the technical scheme, the invention relates to a treatment device of waste wood for buildings, wherein a loading assembly comprises a loading frame, a first support, a first sloping platform, a second support, a first rotating shaft, a third support, a first transmission bevel gear, a first worm, an unloading round roller, a rectangular groove, an inner end bearing rod, a passive pressing rod, a first inner end spring, an inner end clamp, a second inner end spring, a first inner end clamping groove, an arc-shaped matching rod, a hinged connecting rod, a middle end cylindrical block, a bevel gear sliding block, a limiting rod, a first push spring, a third inner end spring and a first inner side connecting rotating rod, the first support is fixedly connected with the loading frame, the first sloping platform is fixedly connected with the loading frame, the second support is fixedly connected with the loading frame, the first rotating shaft is rotatably connected with the loading frame, the first worm is fixedly connected with the first rotating shaft, the third support is fixedly connected with the loading frame, the first transmission bevel gear is rotatably connected with the third support, the unloading round roller is rotatably connected with one bracket, the rectangular groove is arranged on the unloading round roller, the inner end bearing rod is slidably connected with the rectangular groove, the driven pressing rod is slidably connected with the unloading round roller, the inner end spring I is connected with the driven pressing rod in a sleeved mode, the inner end spring I is arranged between the driven pressing rod and the unloading round roller, the inner end clamping groove I is arranged on the driven pressing rod and is in matched connection with the inner end clamp, the inner end clamp is slidably connected with the inner end bearing rod, the inner end spring II is arranged between the two inner end clamps, the driven pressing rod is connected with the arc-shaped matching rod in a matched mode, the arc-shaped matching rod is slidably connected with the middle end cylindrical block, the inner end spring III is arranged between the arc-shaped matching rod and the middle end cylindrical block, the hinged connecting rod is hinged with the driven pressing rod and the conical tooth sliding block, the conical tooth sliding block is connected with the inner side connecting rotating rod I in, the middle-end cylindrical block is connected with the unloading round roller in a matched mode, the limiting rod is connected with the inner side connecting rotating rod in a matched mode, the middle-end cylindrical block is fixedly connected with the inner side connecting rotating rod, the bevel gear A is fixedly connected with the worm I, and the bevel gear shaft A is rotatably connected with the support II.

As a further optimization of the technical scheme, the invention relates to a treatment device of waste wood for buildings, wherein a cutting-off assembly comprises a cutting-off outer frame, a pressing roller I, a pressing rectangular rod I, a middle rotating rod I, a belt I, a middle rotating rod II, a pressing roller II, a pressing rectangular rod II, a belt wheel I, a belt II, a crankshaft I, an auxiliary rod, a hinged rotating rod, a cutting edge, a driving hinged rod, a matching clamping groove, a rectangular sliding block, a matching clamp, a clamp push spring, a collecting outer frame, a connecting outer frame, an inner end sliding column I, an inner end push spring A, an inner end push spring B, an inner end sliding column II, an inner end push spring C, an inner end push spring D and an outlet, the middle rotating rod I is rotatably connected with the cutting-off outer frame, the pressing roller I is fixedly connected with the middle rotating rod I, the middle rotating rod II is rotatably connected with the cutting-off outer frame, the pressing roller II is rotatably connected with the middle rotating rod II, the inner end sliding, the first pressing rectangular rod is connected with the first inner end sliding column in a sliding mode, the first inner end pushing spring A and the second inner end pushing spring B are arranged between the first pressing rectangular rod and the first inner end sliding column, the second inner end sliding column is connected with the second pressing rectangular rod in a sliding mode, the first inner end pushing spring C and the second inner end pushing spring D are arranged between the second inner end sliding column and the second pressing rectangular rod, the first belt is connected between the first middle end rotating rod and the second middle end rotating rod, the second belt is arranged between the first belt wheel and the second middle end rotating rod, the first crankshaft is connected with the cutting outer frame in a rotating mode, the first belt wheel is fixedly connected with the first crankshaft, the auxiliary rod is fixedly connected with the cutting outer frame, the hinge rotating rod is connected with the auxiliary rod in a rotating mode, the cutting blade is connected with the hinge rotating rod in a sliding mode, the driving hinge rod is connected with the first crankshaft in a rotating mode, the matching clamping groove is arranged on the driving hinge rod and is, the cutting edge is connected with the shape slider in a rotating mode, the outer frame is connected with the collection outer frame in a fixed connection mode, the outlet is formed in the connection outer frame, the outlet is communicated with the collection outer frame, the connection outer frame is fixedly connected with the loading frame, and the belt A is arranged between the bevel gear shaft A and the crankshaft I.

As a further optimization of the technical scheme, the invention relates to a treatment device of waste wood for buildings, wherein a power source assembly comprises a base plate, an input motor, input straight teeth, transmission straight teeth, a prismatic connecting rod A, a sleeve I, a connecting rod pushing spring A, a driving disk I, a conical roller I, a transmission ball rod, a middle-end rectangular frame, a transmission ball II, a conical roller II, an output shaft A, a driving disk II, a connecting rod pushing spring B, a rectangular boss I, a prismatic connecting rod B, an inner side pushing spring I, an inner side pushing spring II and a rectangular boss II, wherein the input motor is fixedly connected with the base plate, the input straight teeth are fixedly connected with the input motor, the transmission straight teeth are in meshing transmission with the input straight teeth, the sleeve I is rotatably connected with the base plate, the transmission straight teeth are fixedly connected with the sleeve I, the prismatic connecting rod A is fixedly connected with the sleeve, the connecting rod pushing spring A is connected with the prismatic connecting rod A in a sleeved mode, the first driving disk is connected with the prismatic connecting rod A in a sliding mode, the second rectangular boss is fixedly connected with the first conical roller, the second rectangular boss is connected with the first driving disk in a matched mode, the first conical roller is connected with the bottom plate in a rotating mode, the first driving ball is fixedly connected with the first driving ball rod, the second driving ball rod is arranged between the first inner side push rod and the second inner side push rod, the second driving ball rod is fixedly connected with the second driving ball, the second driving ball is connected with the second conical roller in a matched mode, the second conical roller is connected with the bottom plate in a rotating mode, the first rectangular boss is fixedly connected with the second conical roller, the second driving disk is connected with the first rectangular boss in a matched mode, the second driving disk is connected with the prismatic connecting rod B in a sliding mode, the connecting rod pushing, the output shaft A is fixedly connected with the prismatic connecting rod B, the bottom plate is fixedly connected with the cutting outer frame, and the belt B is arranged between the output shaft A and the first crankshaft.

As a further optimization of the technical scheme, the lowest point of the motion track of the crankshaft is higher than the axial position of the auxiliary rod.

The treatment equipment for the waste wood for the building has the beneficial effects that:

the invention relates to a treatment device for waste wood for buildings, which drives an inner end bearing rod to move downwards under the action of gravity of crushed wood, further drives a driven pressing rod to move downwards through the matching connection of an inner end clamp and an inner end clamping groove I, further drives a bevel gear sliding block to move along an inner side connecting rotating rod I through a hinged connecting rod, and is in meshing transmission with a transmission bevel gear I.

Drawings

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

FIG. 1 is a first general structural diagram of the present invention;

FIG. 2 is a second overall structural schematic of the present invention;

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

FIG. 4 is a first schematic view of the loading assembly of the present invention;

FIG. 5 is a second schematic structural view of the loading assembly of the present invention;

FIG. 6 is a third schematic view of the loading assembly of the present invention;

FIG. 7 is a fourth schematic structural view of the loading assembly of the present invention;

FIG. 8 is a fifth structural schematic view of the loading assembly of the present invention;

FIG. 9 is a first schematic view of the cutting assembly of the present invention;

FIG. 10 is a first schematic view of the power source assembly of the present invention;

FIG. 11 is a schematic structural diagram of a power source assembly according to the present invention;

fig. 12 is a second schematic structural diagram of the cutting assembly of the present invention.

In the figure: a loading assembly 1; a loading frame 1-1; 1-2 of a bracket I; 1-3 of a sloping platform I; 1-4 parts of a second bracket; 1-5 of a first rotating shaft; 1-6 parts of a bracket III; 1-7 of a transmission bevel gear I; 1-8 parts of a worm I; unloading the round roller 1-9; 1-10 rectangular grooves; inner end bearing rods 1-11; passively pressing the rods 1-12; the inner end springs are 1-13; inner end clips 1-14; a second inner end spring 1-15; a first clamping groove at the inner end is 1-16; 1-17 of arc-shaped matching rods; articulation links 1-18; middle-end cylindrical blocks 1-19; 1-20 parts of a bevel gear sliding block; 1-21 parts of a limiting rod; push spring 1-22; inner end springs three 1-23; the inner side is connected with a rotating rod 1-24; cutting off the assembly 2; cutting off the outer frame 2-1; 2-2 parts of a pressing roller; pressing a first rectangular rod 2-3; a middle end rotating rod I2-4; 2-5 parts of a first belt; 2-6 of a middle end rotating rod II; 2-7 parts of a second press-fit roller; pressing the rectangular rod II 2-8; 2-9 of a belt wheel I; 2-10 parts of a second belt; 2-11 parts of a crankshaft I; 2-12 of auxiliary rod; hinged rotating rods 2-13; 2-14 parts of cutting edge; driving the hinge rod 2-15; 2-16 of a matching clamping groove; 2-17 of a rectangular sliding block; 2-18 of a matching clip; 2-19 parts of a clip push spring; collecting the outer frame 2-20; connecting the outer frames 2-21; 2-22 of inner end sliding column; the inner end of the push spring A2-23; the inner end pushing spring B2-24; 2-25 of inner end sliding columns; the inner end pushing spring C2-26; the inner end pushing spring D2-27; outlets 2-28; a power source assembly 3; a bottom plate 3-1; inputting a motor 3-2; inputting straight teeth 3-3; 3-4 of transmission straight teeth; a prismatic connecting rod A3-5; 3-6 parts of a first sleeve; the connecting rod pushing spring A3-7; a first driving disc 3-8; 3-9 parts of a conical roller I; 3-10 of a transmission ball body; 3-11 parts of a transmission sphere rod; 3-12 of a middle rectangular frame; 3-13 parts of a second transmission ball body; conical rollers II 3-14; an output shaft A3-15; driving discs II 3-16; a connecting rod pushing spring B3-17; 3-18 parts of a rectangular boss I; prismatic connecting rods B3-19; 3-20 parts of an inner side push spring I; 3-21 of an inner push rod; a second inner push rod 3-22; a second inner push spring 3-23; 3-24 parts of a rectangular boss II; belt a 4; belt B5; bevel teeth a 6; bevel teeth B7; bevel axis A8.

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 welding; fixing by means of thread fixing and the like, and using different fixing modes by combining 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, and the sliding groove or the guide rail is generally in a step shape, so that the sliding block is prevented from falling off in the sliding groove or the guide rail; the hinge is formed by a hinge; the pin shaft, the short shaft and other connecting parts are movably connected; the required sealing positions are sealed by sealing rings or O-shaped rings.

The first embodiment is as follows:

the present embodiment is described below with reference to fig. 1 to 12, and a waste wood treatment facility for construction includes a loading assembly 1, a cutting assembly 2, a power source assembly 3, a belt a4, a belt B5, a bevel gear a6, a bevel gear B7, and a bevel gear shaft A8, and is characterized in that: the bevel gear A6 is in meshing transmission with the bevel gear B7, the bevel gear shaft A8 is fixedly connected with the bevel gear B7, the loading assembly 1 is connected with the cutting assembly 2, and the power source assembly 3 is connected with the loading assembly 1.

The second embodiment is as follows:

the first embodiment is further described with reference to fig. 1-12, and the loading assembly 1 includes a loading frame 1-1, a first bracket 1-2, a first ramp 1-3, a second bracket 1-4, a first rotating shaft 1-5, a third bracket 1-6, a first transmission bevel gear 1-7, a first worm 1-8, a round unloading roller 1-9, a rectangular groove 1-10, an inner end bearing rod 1-11, a passive pushing rod 1-12, a first inner end spring 1-13, an inner end clip 1-14, a second inner end spring 1-15, a first inner end clamping groove 1-16, an arc-shaped matching rod 1-17, a hinged connecting rod 1-18, a middle end cylindrical block 1-19, a bevel gear slider 1-20, a limiting rod 1-21, a first push spring 1-22, a second push spring 1-22, The inner end of the spring three 1-23, the inner side of the spring three 1-23 is connected with the rotating rod one 1-24, the support frame one 1-2 is fixedly connected with the loading frame 1-1, the ramp platform one 1-3 is fixedly connected with the loading frame 1-1, the support frame two 1-4 is fixedly connected with the loading frame 1-1, the rotating shaft one 1-5 is rotatably connected with the loading frame 1-1, the worm one 1-8 is fixedly connected with the rotating shaft one 1-5, the support frame three 1-6 is fixedly connected with the loading frame 1-1, the transmission conical tooth one 1-7 is rotatably connected with the support frame three 1-6, the worm one 1-8 is engaged with the transmission conical tooth one 1-7 for transmission, the unloading round roller 1-9 is rotatably connected with the support frame one 1-2, the rectangular groove 1-10 is arranged on the unloading round roller 1-9, the inner end bearing rod 1-11 is slidably connected with the, the passive push rod 1-12 is connected with the unloading round roller 1-9 in a sliding way, the inner end spring 1-13 is connected with the passive push rod 1-12 in a sleeved way, the inner end spring 1-13 is arranged between the passive push rod 1-12 and the unloading round roller 1-9, the inner end clamping groove 1-16 is arranged on the passive push rod 1-12, the inner end clamping groove 1-16 is connected with the inner end clamp 1-14 in a matching way, the inner end clamp 1-14 is connected with the inner end bearing rod 1-11 in a sliding way, the inner end spring two 1-15 is arranged between the two inner end clamps 1-14, the passive push rod 1-12 is connected with the arc matching rod 1-17 in a matching way, the arc matching rod 1-17 is connected with the middle end cylindrical block 1-19 in a sliding way, the inner end spring three 1-23 is arranged between the arc matching rod 1-17 and the middle end cylindrical block 1-, the hinged connecting rods 1-18 are hinged with the driven pressing rods 1-12 and the bevel gear sliding blocks 1-20, the bevel gear sliding blocks 1-20 are in sliding connection with the inner side connecting rotating rods 1-24, the push springs 1-22 are in sleeved connection with the inner side connecting rotating rods 1-24, the middle end cylindrical blocks 1-19 are in matched connection with the unloading circular rollers 1-9, the limiting rods 1-21 are in matched connection with the inner side connecting rotating rods 1-24, the middle end cylindrical blocks 1-19 are fixedly connected with the inner side connecting rotating rods 1-24, the bevel gears A6 are fixedly connected with the worm rods 1-8, and the bevel gear shafts A8 are in rotary connection with the supports II 1-4;

the cut wood falls into the inner end bearing rod 1-11, the inner end bearing rod 1-11 is driven to move downwards under the action of the gravity of the broken wood, further drives the passive push rod 1-12 to move downwards through the matching connection of the inner end clips 1-14 and the inner end clamping grooves 1-16, and further drives the bevel gear sliding blocks 1-20 to move along the inner connecting rotating rods 1-24 through the hinged connecting rods 1-18, and is engaged with the transmission bevel gear I1-7 for transmission, and simultaneously drives the bevel gear A6 to rotate through a belt B5, the bevel gear B7 and a bevel gear shaft A8 when the crankshafts I2-11 rotate, thereby driving the first rotating shaft 1-5 and the first worm 1-8 to rotate, further driving the first transmission bevel gear 1-7 to rotate, thereby driving the unloading round rollers 1-9 to rotate, and further facilitating the collection of the broken wood. .

The third concrete implementation mode:

the first embodiment is further described with reference to fig. 1-12, and the cutting assembly 2 includes a cutting outer frame 2-1, a pressing roller I2-2, a pressing rectangular rod I2-3, a middle rotating rod I2-4, a belt I2-5, a middle rotating rod II 2-6, a pressing roller II 2-7, a pressing rectangular rod II 2-8, a belt wheel I2-9, a belt II 2-10, a crankshaft I2-11, an auxiliary rod 2-12, a hinged rotating rod 2-13, a cutting edge 2-14, a driving hinged rod 2-15, a matching slot 2-16, a rectangular slider 2-17, a matching clip 2-18, a clip pushing spring 2-19, a collecting outer frame 2-20, and a connecting outer frame 2-21, An inner end sliding column I2-22, an inner end pushing spring A2-23, an inner end pushing spring B2-24, an inner end sliding column II 2-25, an inner end pushing spring C2-26, an inner end pushing spring D2-27 and an outlet 2-28, a middle end rotating rod I2-4 is rotatably connected with a cutting outer frame 2-1, a pressing roller I2-2 is fixedly connected with the middle end rotating rod I2-4, a middle end rotating rod II 2-6 is rotatably connected with the cutting outer frame 2-1, a pressing roller II 2-7 is rotatably connected with a middle end rotating rod II 2-6, an inner end sliding column I2-22 is fixedly connected with the pressing roller I2-2, a pressing rectangular rod I2-3 is slidably connected with the inner end sliding column I2-22, an inner end pushing spring A2-23 and an inner end pushing spring B2-24 are arranged between the pressing rectangular rod I2-3 and the sliding column I2-22, an inner end sliding column II 2-25 is connected with a pressing rectangular rod II 2-8 in a sliding mode, an inner end pushing spring C2-26 and an inner end pushing spring D2-27 are arranged between an inner end sliding column II 2-25 and a pressing rectangular rod II 2-8, a belt I2-5 is connected between a middle end rotating rod I2-4 and a middle end rotating rod II 2-6, a belt II 2-10 is arranged between a belt wheel I2-9 and a middle end rotating rod II 2-6, a crankshaft I2-11 is connected with a cutting outer frame 2-1 in a rotating mode, a belt wheel I2-9 is fixedly connected with a crankshaft I2-11, an auxiliary rod 2-12 is fixedly connected with the cutting outer frame 2-1, a hinge rotating rod 2-13 is connected with an auxiliary rod 2-12 in a rotating mode, a cutting blade 2-14 is connected with a hinge rotating rod 2-13 in a sliding mode, a driving hinge rod 2-15 is connected with the crankshaft I2-11, the matching clamping grooves 2-16 are arranged on the driving hinged rods 2-15, the matching clamps 2-18 are in sliding connection with the shape sliding blocks 2-17, the clamp push springs 2-19 are arranged between the two matching clamps 2-18, the matching clamps 2-18 are in matching connection with the matching clamping grooves 2-16, the cutting edges 2-14 are in rotating connection with the shape sliding blocks 2-17, the connecting outer frames 2-21 are fixedly connected with the collecting outer frames 2-20, the outlets 2-28 are arranged on the connecting outer frames 2-21, the outlets 2-28 are communicated with the collecting outer frames 2-20, the connecting outer frames 2-21 are fixedly connected with the loading frame 1-1, and the belt A4 is arranged between the bevel gear shaft A8 and the first crankshaft 2-11.

The fourth concrete implementation mode:

the embodiment is described below with reference to fig. 1 to 12, and the embodiment further describes the first embodiment, where the power source assembly 3 includes a bottom plate 3-1, an input motor 3-2, an input straight tooth 3-3, a transmission straight tooth 3-4, a prismatic connecting rod A3-5, a first sleeve 3-6, a connecting rod pushing spring A3-7, a first driving disk 3-8, a first tapered roller 3-9, a first transmission sphere 3-10, a transmission sphere rod 3-11, a middle rectangular frame 3-12, a second transmission sphere 3-13, a second tapered roller 3-14, an output shaft A3-15, a second driving disk 3-16, a connecting rod pushing spring B3-17, a first rectangular boss 3-18, a prismatic connecting rod B3-19, a first inner side pushing spring 3-20, a first inner side pushing rod 3-21, a second inner side pushing spring B3-21, An inner push rod II 3-22, an inner push spring II 3-23 and a rectangular boss II 3-24, wherein an input motor 3-2 is fixedly connected with a bottom plate 3-1, an input straight tooth 3-3 is fixedly connected with the input motor 3-2, a transmission straight tooth 3-4 is in meshing transmission with the input straight tooth 3-3, a sleeve I3-6 is in rotating connection with the bottom plate 3-1, the transmission straight tooth 3-4 is fixedly connected with the sleeve I3-6, a prismatic connecting rod A3-5 is fixedly connected with the sleeve I3-6, a connecting rod push spring A3-7 is in sleeved connection with a prismatic connecting rod A3-5, a driving disk I3-8 is in sliding connection with the prismatic connecting rod A3-5, the rectangular boss II 3-24 is fixedly connected with a conical roller I3-9, the rectangular boss II 3-24 is in matching connection with the driving disk I3-8, the conical roller I3-9 is rotatably connected with the bottom plate 3-1, the transmission ball I3-10 is in fit connection with the conical roller I3-9, the transmission ball I3-10 is fixedly connected with the transmission ball rod 3-11, the transmission ball rod 3-11 is arranged between the inner push rod I3-21 and the inner push rod II 3-22, the transmission ball rod 3-11 is fixedly connected with the transmission ball II 3-13, the transmission ball II 3-13 is in fit connection with the conical roller II 3-14, the conical roller II 3-14 is rotatably connected with the bottom plate 3-1, the rectangular boss I3-18 is fixedly connected with the conical roller II 3-14, the driving disc II 3-16 is in fit connection with the rectangular boss I3-18, and the driving disc II 3-16 is in slide connection with the prismatic connecting rod B3-19, the connecting rod push spring B3-17 is connected with the prismatic connecting rod B3-19 in a sleeved mode, the prismatic connecting rod B3-19 is connected with the bottom plate 3-1 in a rotating mode, the output shaft A3-15 is fixedly connected with the prismatic connecting rod B3-19, the bottom plate 3-1 is fixedly connected with the cutting outer frame 2-1, and the belt B5 is arranged between the output shaft A3-15 and the crankshaft I2-11.

The fifth concrete implementation mode:

the first embodiment is further explained by referring to fig. 1-12, and the lowest point of the motion track of the crankshaft 2-11 is higher than the axial position of the auxiliary rod 2-12.

The invention relates to a treatment device of waste wood for construction, which has the working principle that: when the input motor is used, the input motor 3-2 is started, the transmission straight teeth 3-4 are driven to move by the input straight teeth 3-3, the driving disc I3-8 is driven to rotate by the sleeve I3-6, the tapered rollers I3-9 are driven to rotate by the matching connection of the driving disc I3-8 and the rectangular boss II 3-24, the transmission ball I3-10, the transmission ball rod 3-11 and the transmission ball II 3-13 are driven to simultaneously rotate, the tapered rollers II 3-14 are driven to rotate, the prismatic connecting rods B3-19 are driven to rotate by the matching connection of the rectangular boss I3-18 and the driving disc II 3-16, the output shafts A3-15 are driven to rotate, and the connecting rod pushing springs A3-7 and B3-17 respectively act on the driving disc I3-8 and the driving disc II 3-16, thereby increasing the transmission stability between the first driving disc 3-8 and the first conical roller 3-9 and the second driving disc 3-16 and the second conical roller 3-14; the transmission ratio output by the power source assembly 3 can be adjusted according to actual conditions, the middle-end rectangular frame 3-12 is manually rotated, the position of the rotation axis of the transmission ball rod 3-11 is changed through the action of the inner side push spring I3-20, the inner side push rod I3-21, the inner side push rod II 3-22 and the inner side push spring II 3-23 on the transmission ball rod 3-11, so that the transmission positions of the transmission ball I3-10 and the transmission ball II 3-13 on the conical roller I3-9 and the conical roller II 3-14 are changed respectively, the transmission ratio output by the output shaft A3-15 is changed, and the adjustment of the transmission ratio of the output shaft A3-15 is realized; the output shaft A3-15 rotates to drive the crankshaft I2-11 to rotate through the belt A4, the rectangular sliding block 2-17 is driven to move through the drive hinge rod 2-15, the cutting edge 2-14 is driven to slide back and forth along the vertical direction of the inner end of the hinge rotating rod 2-13, meanwhile, the cutting edge 2-14 is contacted with wood, the wood is crushed, the working range of the cutting edge 2-14 can be adjusted according to actual conditions, the working efficiency of the device is convenient to change, the rectangular sliding block 2-17 is manually rotated, the using position of the rectangular sliding block 2-17 on the drive hinge rod 2-15 is changed through the matching connection of the matching clamp 2-18 and the matching clamping groove 2-16, and further the connecting position of the cutting edge 2-14 and the rectangular sliding block 2-17 is changed, when the crankshaft I2-11 rotates, the belt I2-5 and the belt II 2-10 respectively drive the middle rotating rod I2-4 and the middle rotating rod II 2-6 to rotate, further respectively drive the pressing roller I2-2 and the pressing roller II 2-7 to rotate, and further transport the wood through the pressing roller I2-2 and the pressing roller II 2-7; the cut wood falls into the inner end bearing rod 1-11, the inner end bearing rod 1-11 is driven to move downwards under the action of the gravity of the broken wood, further drives the passive push rod 1-12 to move downwards through the matching connection of the inner end clips 1-14 and the inner end clamping grooves 1-16, and further drives the bevel gear sliding blocks 1-20 to move along the inner connecting rotating rods 1-24 through the hinged connecting rods 1-18, and is engaged with the transmission bevel gear I1-7 for transmission, and simultaneously drives the bevel gear A6 to rotate through a belt B5, the bevel gear B7 and a bevel gear shaft A8 when the crankshafts I2-11 rotate, thereby driving the first rotating shaft 1-5 and the first worm 1-8 to rotate, further driving the first transmission bevel gear 1-7 to rotate, thereby driving the unloading round rollers 1-9 to rotate, and further facilitating the collection of the broken wood.

Of course, the above description is not intended to limit the present invention, and the present invention is not limited to the above examples, and variations can be made by those skilled in the art within the spirit and scope of the present invention; modifying; and the addition or the replacement also belongs to the protection scope of the invention.

Claims (5)

1. The utility model provides a waste wood's for building treatment facility, is including loading assembly (1), cutting off assembly (2), power supply assembly (3), belt A (4), belt B (5), awl tooth A (6), awl tooth B (7), awl tooth axle A (8), its characterized in that: the bevel gear A (6) is in meshing transmission with the bevel gear B (7), the bevel gear shaft A (8) is fixedly connected with the bevel gear B (7), the loading assembly (1) is connected with the cutting assembly (2), and the power source assembly (3) is connected with the loading assembly (1).

2. The apparatus for treating waste wood for construction according to claim 1, wherein: the loading assembly (1) comprises a loading frame (1-1), a first support (1-2), a first inclined table (1-3), a second support (1-4), a first rotating shaft (1-5), a third support (1-6), a first transmission bevel gear (1-7), a first worm (1-8), an unloading round roller (1-9), a rectangular groove (1-10), an inner end bearing rod (1-11), a passive pressing rod (1-12), a first inner end spring (1-13), an inner end clamp (1-14), a second inner end spring (1-15), a first inner end clamping groove (1-16), an arc-shaped matching rod (1-17), a hinged connecting rod (1-18), a middle end cylindrical block (1-19), a bevel gear sliding block (1-20), a limiting rod (1-21), A first push spring (1-22), a third inner end spring (1-23) and a first inner side connecting rotating rod (1-24), a first support (1-2) is fixedly connected with a loading frame (1-1), a first ramp (1-3) is fixedly connected with the loading frame (1-1), a second support (1-4) is fixedly connected with the loading frame (1-1), a first rotating shaft (1-5) is rotatably connected with the loading frame (1-1), a first worm (1-8) is fixedly connected with the first rotating shaft (1-5), a third support (1-6) is fixedly connected with the loading frame (1-1), a first transmission conical tooth (1-7) is rotatably connected with the third support (1-6), a first worm (1-8) is in meshing transmission with the first transmission conical tooth (1-7), a first unloading circular roller (1-9) is rotatably connected with the first support (1-2), the rectangular grooves (1-10) are arranged on the unloading circular rollers (1-9), the inner end bearing rods (1-11) are connected with the rectangular grooves (1-10) in a sliding mode, the driven pressing rods (1-12) are connected with the unloading circular rollers (1-9) in a sliding mode, the inner end springs (1-13) are connected with the driven pressing rods (1-12) in a sleeved mode, the inner end springs (1-13) are arranged between the driven pressing rods (1-12) and the unloading circular rollers (1-9), the inner end clamping grooves (1-16) are arranged on the driven pressing rods (1-12), the inner end clamping grooves (1-16) are connected with the inner end clips (1-14) in a matched mode, the inner end clips (1-14) are connected with the inner end bearing rods (1-11) in a sliding mode, the inner end springs (1-15) are arranged between the two inner end clips (1-14), the passive push rod (1-12) is connected with the arc-shaped matching rod (1-17) in a matching way, the arc-shaped matching rod (1-17) is connected with the middle-end cylindrical block (1-19) in a sliding way, the inner end spring III (1-23) is arranged between the arc-shaped matching rod (1-17) and the middle-end cylindrical block (1-19), the hinged connecting rod (1-18) is connected with the passive push rod (1-12) and the conical tooth sliding block (1-20) in a hinged way, the conical tooth sliding block (1-20) is connected with the inner side connecting rotating rod I (1-24) in a sliding way, the push spring I (1-22) is connected with the inner side connecting rotating rod I (1-24) in a sleeved way, the middle-end cylindrical block (1-19) is connected with the unloading circular roller (1-9) in a matching way, the limiting rod (1-21) is connected with the inner side connecting rotating rod, the middle-end cylindrical blocks (1-19) are fixedly connected with the inner side connecting rotating rods (1-24), the bevel teeth A (6) are fixedly connected with the worms (1-8), and the bevel gear shafts A (8) are rotatably connected with the supports (1-4).

3. The apparatus for treating waste wood for construction according to claim 1, wherein: the cutting-off assembly (2) comprises a cutting-off outer frame (2-1), a first pressing roller (2-2), a first pressing rectangular rod (2-3), a first middle rotating rod (2-4), a first belt (2-5), a second middle rotating rod (2-6), a second pressing roller (2-7), a second pressing rectangular rod (2-8), a first belt wheel (2-9), a second belt (2-10), a first crankshaft (2-11), an auxiliary rod (2-12), a hinged rotating rod (2-13), a cutting edge (2-14), a driving hinged rod (2-15), a matching clamping groove (2-16), a rectangular sliding block (2-17), a matching clamp (2-18), a clamp push spring (2-19), a collecting outer frame (2-20), a connecting outer frame (2-21), An inner end sliding column I (2-22), an inner end pushing spring A (2-23), an inner end pushing spring B (2-24), an inner end sliding column II (2-25), an inner end pushing spring C (2-26), an inner end pushing spring D (2-27) and an outlet (2-28), a middle end rotating rod I (2-4) is rotatably connected with a cutting outer frame (2-1), a pressing roller I (2-2) is fixedly connected with the middle end rotating rod I (2-4), a middle end rotating rod II (2-6) is rotatably connected with the cutting outer frame (2-1), a pressing roller II (2-7) is rotatably connected with a middle end rotating rod II (2-6), an inner end sliding column I (2-22) is fixedly connected with a pressing roller I (2-2), a pressing rectangular rod I (2-3) is slidably connected with the inner end sliding column I (2-22), an inner end push spring A (2-23) and an inner end push spring B (2-24) are arranged between the first laminating rectangular rod (2-3) and the first laminating rectangular rod (2-22), the second laminating rectangular rod (2-25) is connected with the second laminating rectangular rod (2-8) in a sliding manner, the inner end push spring C (2-26) and the inner end push spring D (2-27) are arranged between the second laminating rectangular rod (2-8) and the second laminating rectangular rod (2-25), a belt I (2-5) is connected between the first middle-end rotating rod (2-4) and the second middle-end rotating rod (2-6), a belt II (2-10) is arranged between the first belt pulley (2-9) and the second middle-end rotating rod (2-6), the first crankshaft (2-11) is rotatably connected with a cutting outer frame (2-1), the first belt pulley (2-9) is fixedly connected with the first crankshaft (2-11), the auxiliary rod (2-12) is fixedly connected with the cutting outer frame (2-1), the hinged rotating rod (2-13) is rotatably connected with the auxiliary rod (2-12), the cutting blade (2-14) is slidably connected with the hinged rotating rod (2-13), the driving hinged rod (2-15) is rotatably connected with the crankshaft I (2-11), the matching clamping groove (2-16) is arranged on the driving hinged rod (2-15), the matching clamp (2-18) is slidably connected with the shape sliding block (2-17), the clamp push spring (2-19) is arranged between the two matching clamps (2-18), the matching clamp (2-18) is connected with the matching clamping groove (2-16) in a matching way, the cutting blade (2-14) is rotatably connected with the shape sliding block (2-17), the connecting outer frame (2-21) is fixedly connected with the collecting outer frame (2-20), the outlets (2-28) are arranged on the connecting outer frames (2-21), the outlets (2-28) are communicated with the collecting outer frames (2-20), the connecting outer frames (2-21) are fixedly connected with the loading frame (1-1), and the belt A (4) is arranged between the bevel gear shaft A (8) and the crankshaft I (2-11).

4. The apparatus for treating waste wood for construction according to claim 1, wherein: the power source assembly (3) comprises a bottom plate (3-1), an input motor (3-2), input straight teeth (3-3), transmission straight teeth (3-4), a prismatic connecting rod A (3-5), a sleeve I (3-6), a connecting rod push spring A (3-7), a driving disk I (3-8), a conical roller I (3-9), a transmission ball I (3-10), a transmission ball rod (3-11), a middle-end rectangular frame (3-12), a transmission ball II (3-13), a conical roller II (3-14), an output shaft A (3-15), a driving disk II (3-16), a connecting rod push spring B (3-17), a rectangular boss I (3-18), a prismatic connecting rod B (3-19), an inner side push spring I (3-20), An inner side push rod I (3-21), an inner side push rod II (3-22), an inner side push spring II (3-23) and a rectangular boss II (3-24), wherein an input motor (3-2) is fixedly connected with a bottom plate (3-1), an input straight tooth (3-3) is fixedly connected with the input motor (3-2), a transmission straight tooth (3-4) is in meshing transmission with the input straight tooth (3-3), a sleeve I (3-6) is rotationally connected with the bottom plate (3-1), the transmission straight tooth (3-4) is fixedly connected with a sleeve I (3-6), a prismatic connecting rod A (3-5) is fixedly connected with a sleeve I (3-6), a connecting rod push spring A (3-7) is in sleeved connection with the prismatic connecting rod A (3-5), a driving disk I (3-8) is in sliding connection with the prismatic connecting rod A (3-5), a rectangular boss II (3-24) is fixedly connected with a conical roller I (3-9), the rectangular boss II (3-24) is connected with a driving disc I (3-8) in a matching way, the conical roller I (3-9) is rotationally connected with a bottom plate (3-1), a transmission sphere I (3-10) is connected with the conical roller I (3-9) in a matching way, the transmission sphere I (3-10) is fixedly connected with a transmission sphere rod (3-11), the transmission sphere rod (3-11) is arranged between an inner side push rod I (3-21) and an inner side push rod II (3-22), the transmission sphere rod (3-11) is fixedly connected with a transmission sphere II (3-13), the transmission sphere II (3-13) is connected with a conical roller II (3-14) in a matching way, the conical roller II (3-14) is rotationally connected with the bottom plate (3-1), the rectangular boss I (3-18) is fixedly connected with the conical roller II (3-14), the driving disc II (3-16) is connected with the rectangular boss I (3-18) in a matched mode, the driving disc II (3-16) is connected with the prismatic connecting rod B (3-19) in a sliding mode, the connecting rod pushing spring B (3-17) is connected with the prismatic connecting rod B (3-19) in a sleeved mode, the prismatic connecting rod B (3-19) is rotatably connected with the bottom plate (3-1), the output shaft A (3-15) is fixedly connected with the prismatic connecting rod B (3-19), the bottom plate (3-1) is fixedly connected with the cutting outer frame (2-1), and the belt B (5) is arranged between the output shaft A (3-15) and the crankshaft I (2-11).

5. The apparatus for treating waste wood for construction according to claim 3, wherein: the lowest point of the motion track of the first crankshaft (2-11) is higher than the axial position of the auxiliary rod (2-12).

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