CN109648013B

CN109648013B - Reinforcing bar cutting device for building

Info

Publication number: CN109648013B
Application number: CN201811635879.1A
Authority: CN
Inventors: 隋玉霞
Original assignee: Guangxi Shenglong Iron and Steel Materials Research Institute
Current assignee: Guangxi Shenglong Iron and Steel Materials Research Institute
Priority date: 2018-12-29
Filing date: 2018-12-29
Publication date: 2020-11-06
Anticipated expiration: 2038-12-29
Also published as: CN109648013A

Abstract

The invention relates to a construction engineering machine, in particular to a steel bar cutting device for a building, which is provided with a push rod and can prevent a steel bar from being separated under the action of external force when the steel bar is cut off; the bottom frame assembly is arranged, and the use position of the device can be adjusted; the vibration balancing device is arranged, so that mechanical vibration can be effectively reduced, and the vibration reduction device comprises a material stirring assembly, a first transmission belt wheel, an input belt wheel, a second transmission belt, a transportation assembly body, a vibration balancing device, a chassis assembly, an aggregate assembly body and a cutting assembly body, wherein a middle end fixing rod can be conveniently and fixedly connected to the middle end of a transportation outer frame, the input belt wheel can be conveniently and fixedly connected to the front end of a crank rod, and the first transmission belt can be conveniently connected between the input belt wheel and a cam; the upper end of the auxiliary connecting rod can be conveniently and fixedly connected to the middle-end slider, the lower end of the auxiliary connecting rod can be conveniently connected to the middle-end runner through the hinge columns in a clearance fit mode, and the transportation frame can be conveniently and fixedly connected to the upper end of the fixed frame body.

Description

Reinforcing bar cutting device for building

Technical Field

The invention relates to a construction engineering machine, in particular to a reinforcing steel bar cutting device for a building.

Background

For example, patent No. CN201620151240.6 is a cutting device for reinforcing bar for building, which comprises a base, a power system and a cutting system, wherein the cutting system comprises a fixed knife and a push knife, the push knife is slidably mounted in a sliding groove of the push knife rest, the push knife rest and the fixed knife are fixedly mounted on the base, the push knife is connected with the power system, the sliding groove of the push knife rest is perpendicular to a blade of the fixed knife, a stopper can prevent the reinforcing bar from rotating due to the shearing force, and the shearing force can be utilized to the maximum extent, thereby avoiding wasting work, but the invention has the disadvantage that there is no way to prevent the reinforcing bar from separating from the reinforcing bar under the action of external force when the reinforcing

Disclosure of Invention

The invention aims to provide a steel bar cutting device for a building, which is provided with a push rod and can prevent a steel bar from being separated under the action of external force when the steel bar is cut off; the bottom frame assembly is arranged, and the use position of the device can be adjusted; the vibration balance device is arranged, so that mechanical vibration can be effectively reduced.

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

a reinforcing steel bar cutting device for buildings comprises a material stirring assembly, a first transmission belt, a transmission belt wheel, an input belt wheel, a second transmission belt, a transportation assembly, a vibration balance device, a chassis assembly, an aggregate assembly and a cutting assembly, wherein the material stirring assembly comprises a material stirring outer frame, a stirring rod, a closing rod, a stirring rod, a stirring wheel connecting rod, a cam, a sliding rod, a fixed rod and a reset assembly, the inner end of the material stirring outer frame is hollowed, the middle end of the stirring rod is hinged to the left end of the inner wall of the material stirring outer frame, the left end of the closing rod is hinged to the material stirring outer frame, the lower end of the stirring rod is hinged to the middle end of the closing rod, the middle end of the stirring wheel rod is rotatably connected to the right end of the inner wall of the material stirring outer frame, the right end of the stirring wheel connecting rod is hinged to the stirring wheel rod, the left end of the stirring wheel connecting rod, the fixed rod is fixedly connected to the left end of the outer wall of the material shifting outer frame, the lower end of the reset assembly is hinged to the upper end of the sliding rod, and the upper end of the reset assembly is hinged to the upper end of the shifting rod; the reset assembly comprises a lower side hinged rod, a hinged sleeve spring, an inner end sleeved rod, an upper side hinged rod and an outer frame, the lower side hinged rod is fixedly connected with the inner end sleeved rod, the inner end sleeved rod is connected with the outer frame in a sliding mode, the hinged sleeve spring is sleeved on the inner end sleeved rod, the upper side hinged rod is fixedly connected with the inner end sleeved rod, the upper side hinged rod is connected with the outer frame in a sliding mode, the lower end of the lower side hinged rod is hinged to the upper end of the sliding rod, and the right end of the upper side hinged rod is hinged to the upper;

the vibration balancing device comprises a fixed outer frame, an auxiliary balancing assembly I, an auxiliary balancing assembly II, a middle end runner, a middle end connecting rod I, a middle end connecting rod II and an auxiliary connecting rod, wherein the fixed outer frame comprises a fixed outer frame body, a lower side fixing rod, an upper side fixing rod, a middle end slider, a middle end rectangular sliding rod and a rectangular hollowed-out groove, the lower side fixing rod is fixedly connected with the fixed outer frame body, the middle end slider is respectively connected with the lower side fixing rod and the upper side fixing rod in a sliding mode, the middle end rectangular sliding rod is arranged at the inner end of the rectangular hollowed-out groove, and the middle end rectangular sliding rod is connected with the middle end slider in; the auxiliary balance assembly comprises a fan-shaped toothed bar, a sliding shaft, a lower rectangular hollowed groove, a lower rectangular sliding bar, two lower end casing springs, a lower rectangular slider, an upper rectangular hollowed groove, an upper rectangular sliding bar, two upper casing springs and a rack slider, the sliding shaft is in clearance fit connection with the fan-shaped toothed bar, the lower rectangular hollowed groove is arranged on the fixed outer frame body, the lower rectangular sliding bar is arranged in the lower rectangular hollowed groove, the two lower end casing springs are both sleeved on the lower rectangular sliding bar, the lower rectangular slider is in sliding connection with the lower rectangular sliding bar, the fan-shaped toothed bar is hinged with the lower rectangular slider, the upper rectangular hollowed groove is arranged on the fixed outer frame body, the upper rectangular sliding bar is arranged in the upper rectangular hollowed groove, the two upper casing springs are both sleeved on the upper rectangular sliding bar, the rack slider is in sliding connection with the upper rectangular sliding bar, the rack slider is in meshing transmission with the fan-shaped toothed bar, the two auxiliary balance assemblies are arranged on the fixed outer frame body, the middle end of the middle-end rotating wheel is rotatably connected to the fixed outer frame body, one end of the middle-end connecting rod I is hinged to the middle-end rotating wheel, the other end of the middle-end connecting rod I is hinged to the lower rectangular slider at the left end, one end of the middle-end connecting rod II is hinged to the middle-end rotating wheel, the other end of the middle-end connecting rod II is hinged to the lower rectangular slider at the right end, the upper end of the auxiliary connecting rod is fixedly connected to the middle-end slider, the lower end of the auxiliary connecting rod is in clearance fit connection with the middle-end rotating wheel through a hinge column, and the transportation outer frame is fixedly connected to the upper end of the fixed;

the cutting assembly comprises a fixed outer frame, a first rotating rod, a fourth driving belt, a second rotating rod, a rectangular rotating frame, four pressing plates, a pressing plate arc-shaped groove, four pressing plate sleeve springs, a first pushing rod, a middle rotating rod, a lower pushing rod, four inner pushing rods, a cutting plate, a turnover driving rod, a second arc-shaped groove, a first bevel gear, a second bevel gear, a connecting shaft and a fixed platform, wherein the fixed outer frame comprises a fixed outer frame body, an upper rectangular groove, an upper trapezoidal sliding groove, a cutting plate sliding frame, a left rectangular sliding groove, a right rectangular sliding groove, a lower trapezoidal sliding groove, a first hinged terminal, a second hinged terminal and a third hinged terminal, the upper rectangular groove is formed in the upper end surface of the fixed outer frame body, the upper trapezoidal sliding groove is formed in the front side of the upper end surface of the fixed outer frame body, the cutting plate sliding frame is fixedly connected to the upper end of the fixed outer frame body, and the left rectangular sliding, the lower trapezoidal sliding groove is arranged on the lower side of the upper end surface of the fixed outer frame body, a first hinged terminal, a second hinged terminal and a third hinged terminal are fixedly connected to the fixed outer frame body, a first rotating rod is rotatably connected to the third hinged terminal, a second rotating rod is rotatably connected to the second hinged terminal, a rectangular rotating frame is rotatably connected to the fixed outer frame, four driving belts are connected to the rear end of the rectangular rotating frame and the rear end of the first rotating rod in an interference fit manner, four pressing plates are slidably connected to the rectangular rotating frame, an arc-shaped groove of each pressing plate is arranged at the middle end of each pressing plate, four pressing plate sleeve springs are respectively sleeved on the four pressing plates, the front end of a first pushing rod is slidably connected to the upper trapezoidal sliding groove, the rear end of the first pushing rod is hinged to the upper end of the middle rotating rod, the middle end of the middle rotating rod is rotatably connected to the upper rectangular groove, the rear end of a lower pushing rod is hinged to the lower end of the middle, the four inner push rods are respectively hinged with the four pressing plates, the left end and the right end of the cutting plate are respectively connected in a left-end rectangular chute and a right-end rectangular chute in a sliding mode, the lower end of a turnover driving rod is rotatably connected to a first hinge terminal, a first bevel gear is connected with the turnover driving rod in a sliding mode, a second arc groove is formed in the turnover driving rod and is hinged with the cutting plate in a sliding mode, the second bevel gear is fixedly connected with a second rotating rod, the second bevel gear is in meshing transmission with the first bevel gear, a connecting shaft is connected between the second rotating rod and the first rotating rod, a fixed table is fixedly connected to the lower end of a fixed outer frame body and is fixedly connected to the upper end of an outer frame of the bottom frame, and a second transmission belt is connected to;

a drive belt interference fit connects between dialling the material assembly body and transporting the assembly body, and driving pulley fixed connection is in transporting the assembly body, and two connections of drive belt are at the transportation assembly body and cut off between the assembly body, and transportation assembly body and vibration balancing unit fixed connection, vibration balancing unit and chassis assembly fixed connection, aggregate assembly and chassis assembly fixed connection cut off assembly and chassis assembly fixed connection.

As a further optimization of the technical scheme, the invention relates to a reinforcing steel bar cutting device for buildings, wherein a transportation assembly body comprises a transportation sliding rod, a transportation outer frame, a meshing rotating gear, a crank rod, a motor input straight tooth, an input motor, a material stirring rod, a first oscillating rod connecting rod, an auxiliary connecting rod, a second oscillating rod connecting rod, an auxiliary sliding rod and a middle-end fixing rod, the transportation sliding rod is fixedly connected to the upper end of the transportation outer frame, the meshing rotating gear is fixedly connected to the front end of the crank rod, the crank rod is rotatably connected to the transportation outer frame, the motor input straight tooth is in meshing transmission with the meshing rotating gear, the motor input straight tooth is fixedly connected to an output shaft of the input motor, the input motor is fixedly connected to the inner wall of the transportation outer frame, the material stirring rod is hinged to the first oscillating rod, the left end of the first oscillating rod is hinged to the, the swing rod connecting rod I is hinged to the middle-end fixing rod, one end of the auxiliary connecting rod is hinged to the middle end of the middle-end fixing rod, the other end of the auxiliary connecting rod is hinged to the swing rod II, the middle end of the swing rod II is hinged to the right end of the kick-out lever, the swing rod II is hinged to the swing rod connecting rod II, the right end of the swing rod connecting rod II is hinged to the auxiliary sliding rod, the middle-end fixing rod is fixedly connected to the middle end of the transportation frame, the input belt wheel is fixedly connected to the front end of the crank rod, and the transmission belt I is connected between.

As a further optimization of the technical scheme, the invention relates to a reinforcing steel bar cutting device for buildings, which comprises a manual rotating rod, a connecting bearing, an auxiliary rotating rod, a locking screw, a driving rotating rod, a driving belt III, a hinge plate I, a belt wheel II, a threaded rod, a sliding fixing rod, a threaded rod hinge plate, a threaded sleeve and a chassis outer frame, wherein the manual rotating rod is in interference fit connection with the connecting bearing, the connecting bearing is in interference fit connection with the auxiliary rotating rod, the locking screw is connected on the auxiliary rotating rod through threads, the driving rotating rod is rotatably connected on the auxiliary rotating rod, the belt wheel I is fixedly connected with the driving rotating rod, the driving rotating rod is rotatably connected with the hinge plate, the hinge plate I is fixedly connected with the chassis outer frame, the sliding fixing rod and the threaded rod hinge plate are fixedly connected with the chassis outer frame, the left end and the right end of the threaded, the second belt wheel is fixedly connected with the threaded rod, the third driving belt is connected with the first belt wheel and the second belt wheel in a matched mode, the threaded sleeve is in threaded connection with the threaded rod, the threaded sleeve is fixedly connected with the sliding fixing rod, and the fixed outer frame body of the vibration balancing device is fixedly connected with the outer frame of the chassis.

As a further optimization of the technical scheme, the reinforcing steel bar cutting device for the building comprises an aggregate outer frame, a first sliding plate, a first spring, a second sliding plate, a second spring, a third sliding plate and a bottom plate, wherein the first sliding plate, the second sliding plate and the third sliding plate are all in sliding connection with the aggregate outer frame, the inner end of the aggregate outer frame is hollow, the first spring is arranged between the first sliding plate and the inner wall of the aggregate outer frame, the second spring is arranged between the second sliding plate and the inner wall of the aggregate outer frame, the third spring is arranged between the third sliding plate and the inner wall of the aggregate outer frame, the aggregate outer frame is fixedly connected to the bottom plate, and the bottom plate is fixedly connected to.

The reinforcing steel bar cutting device for the building has the beneficial effects that:

according to the reinforcing steel bar cutting device for the building, the middle-end fixing rod can be conveniently and fixedly connected to the middle end of the transportation outer frame, the input belt wheel can be conveniently and fixedly connected to the front end of the crank rod, and the first transmission belt can be conveniently connected between the input belt wheel and the cam; the upper end of the auxiliary connecting rod can be conveniently and fixedly connected to the middle-end slider, the lower end of the auxiliary connecting rod can be conveniently and clearance-fittingly connected to the middle-end runner through the hinge post, and the transportation outer frame can be conveniently and fixedly connected to the upper end of the fixed outer frame body; the threaded sleeve can be conveniently in threaded connection with the threaded rod, the threaded sleeve can be conveniently and fixedly connected with the sliding fixed rod, and the fixed outer frame body can be conveniently and fixedly connected with the underframe outer frame; the aggregate outer frame can be conveniently and fixedly connected to the bottom plate, and the bottom plate can be conveniently and fixedly connected to the right end of the chassis outer frame; the fixed station can make things convenient for fixed connection at the lower extreme of fixed frame body, and the fixed station can make things convenient for fixed connection in the upper end of chassis frame, and drive belt two can conveniently be connected on the front end of rectangle commentaries on classics frame and the output shaft of input motor.

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 a construction reinforcing bar cutting device according to the present invention;

FIG. 2 is a schematic view of a material pulling assembly of the construction reinforcement cutting device according to the present invention;

FIG. 3 is a schematic structural diagram of a second material pulling assembly of the construction reinforcement cutting device of the present invention;

FIG. 4 is a schematic structural view of a transportation assembly of the construction rebar cutting apparatus of the present invention;

FIG. 5 is a schematic structural diagram of a vibration balancing device of a reinforcing bar cutting device for construction according to the present invention;

FIG. 6 is a schematic structural view of a vibration balancing device of a reinforcing bar cutting device for construction according to the present invention;

FIG. 7 is a third schematic structural view of a vibration balancing device of the reinforcing bar cutting device for construction of the present invention;

FIG. 8 is a schematic view of the construction of the underframe assembly of the construction rebar cutting apparatus of the present invention;

FIG. 9 is a schematic view of the aggregate assembly of the construction reinforcing bar cutting device of the present invention;

FIG. 10 is a first schematic view of a cutting assembly of the reinforcing bar cutting device for construction according to the present invention;

FIG. 11 is a schematic view of a cutting assembly of the reinforcing bar cutting apparatus for construction of the present invention;

FIG. 12 is a third schematic view of the construction of the cutting assembly of the construction rebar cutting device of the present invention;

FIG. 13 is a fourth schematic view showing the construction of the cutting assembly of the construction reinforcing bar cutting apparatus of the present invention;

FIG. 14 is a fifth schematic view of the construction of the cutting assembly of the construction rebar cutting device of the present invention;

fig. 15 is a sixth schematic view of a cutting assembly of the reinforcing bar cutting device for construction according to the present invention.

In the figure: a kick-out assembly 1; 1-1 of a material poking outer frame; 1-2 of a deflector rod; a closing lever 1-3; 1-4 of a poking wheel rod; a thumb wheel connecting rod 1-5; 1-6 of a cam; 1-7 slide bars; 1-8 parts of a fixed rod; a reduction assembly 1-9; a lower side hinge rod 1-9-1; 1-9-2 of hinged sleeve spring; 1-9-3 of inner end loop bar; upper side hinge rods 1-9-4; 1-9-5 of an outer frame; a first transmission belt 2; a driving pulley 3; an input pulley 4; a second transmission belt 5; transporting the assembly 6; transporting the slide bar 6-1; transporting the outer frame 6-2; meshing rotating teeth 6-3; 6-4 parts of a crank rod; the motor inputs straight teeth 6-5; inputting a motor 6-6; 6-7 parts of a material poking rod; 6-8 parts of a first swing rod; 6-9 parts of a first swing rod connecting rod; 6-10 parts of an auxiliary connecting rod; 6-11 parts of a second swing rod; 6-12 parts of a swing rod connecting rod II; 6-13 parts of auxiliary slide bar; middle end fixing rods 6-14; a vibration balance device 7; fixing the outer frame 7-1; fixing the outer frame body 7-1-1; the lower side is fixed with a rod 7-1-2; an upper side fixing rod 7-1-3; 7-1-4 of a middle slider; a middle rectangular slide bar 7-1-5; rectangular hollow grooves 7-1-6; 7-2 of auxiliary balance assembly; a sector rack bar 7-2-1; a sliding shaft 7-2-2; a rectangular hollow-out groove 7-2-3 at the lower side; a rectangular sliding rod 7-2-4 at the lower side; a lower end is sleeved with a spring 7-2-5; a lower rectangular slider 7-2-6; an upper rectangular hollow groove 7-2-7; 7-2-8 of an upper rectangular slide bar; upper spring 7-2-9; 7-2-10 of a rack slider; 7-3 of an auxiliary balance assembly II; 7-4 of a middle-end rotating wheel; 7-5 of a middle connecting rod I; 7-6 of a middle connecting rod II; an auxiliary link 7-7; a chassis assembly 8; a manual rotating rod 8-1; connecting the bearing 8-2; an auxiliary rotating rod 8-3; 8-4 parts of a locking screw; driving a rotating rod 8-5; 8-6 parts of a transmission belt III; a first hinge plate 8-7; 8-8 of a first belt wheel; 8-9 of a second belt wheel; 8-10 parts of threaded rod; sliding the fixed rod 8-11; the threaded rod is hinged with plates 8-12; 8-13 parts of a threaded sleeve; 8-14 parts of chassis outer frame; an aggregate assembly 9; 9-1 of an aggregate outer frame; 9-2 of a first sliding plate; 9-3 parts of a first spring; 9-4 parts of a second sliding plate; 9-5 parts of a second spring; 9-6 parts of a spring; 9-7 parts of a sliding plate III; a bottom plate 9-8; cutting the assembly 10; fixing the outer frame 10-1; fixing the outer frame body 10-1-1; an upper rectangular groove 10-1-2; an upper trapezoidal chute 10-1-3; cutting board sliding frame 10-1-4; a left-end rectangular chute 10-1-5; a right rectangular chute 10-1-6; lower trapezoidal chutes 10-1-7; a first hinge terminal 10-1-8; a second hinged terminal 10-1-9; a third hinged terminal 10-1-10; 10-2 of a first rotating rod; driving belt IV 10-3; 10-4 of a second rotating rod; 10-5 of a rectangular rotating frame; 10-6 of a pressing plate; 10-7 of arc-shaped grooves of the pressing plate; 10-8 parts of a pressure plate sleeve spring; 10-9 parts of a first push rod; 10-10 of a middle rotating rod; a lower push rod 10-11; inner end push rods 10-12; cutting the plates 10-13; epicyclic drive shafts 10-14; 10-15 parts of arc-shaped groove II; 10-16 parts of a first bevel gear; 10-17 parts of a second bevel gear; connecting shafts 10-18; 10-19 of a fixed table;

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 way, a spring retainer ring groove is arranged on the shaft or the shaft hole, and the elastic retainer ring is clamped in the spring retainer ring groove to realize the axial fixation of the bearing, so that the rotation is realized; 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.

The first embodiment is as follows:

the embodiment is described below with reference to fig. 1-15, a building reinforcing steel bar cutting device, which comprises a material stirring assembly 1, a first transmission belt 2, a transmission belt wheel 3, an input belt wheel 4, a second transmission belt 5, a transport assembly 6, a vibration balancing device 7, a chassis assembly 8, a material collecting assembly 9 and a cutting assembly 10, wherein the material stirring assembly 1 comprises a material stirring outer frame 1-1, a stirring rod 1-2, a closing rod 1-3, a stirring rod 1-4, a stirring wheel connecting rod 1-5, a cam 1-6, a sliding rod 1-7, a fixing rod 1-8 and a resetting assembly 1-9, the inner end of the material stirring outer frame 1-1 is hollowed, the middle end of the stirring rod 1-2 is hinged to the left end of the inner wall of the material stirring outer frame 1-1, the left end of the closing rod 1-3 is hinged to the material stirring outer frame 1-1, the lower end of a shifting rod 1-2 is hinged to the middle end of a closing rod 1-3, the middle end of a shifting wheel rod 1-4 is rotatably connected to the right end of the inner wall of a material shifting outer frame 1-1, the right end of a shifting wheel connecting rod 1-5 is hinged to the shifting wheel rod 1-4, the left end of the shifting wheel connecting rod 1-5 is hinged to the upper end of the shifting rod 1-2, a cam 1-6 is rotatably connected to the left end of the outer wall of the material shifting outer frame 1-1, a sliding rod 1-7 is slidably connected to a fixing rod 1-8, the fixing rod 1-8 is fixedly connected to the left end of the outer wall of the material shifting outer frame 1-1, the lower end of a reset assembly 1-9 is hinged to the upper end of the sliding rod 1-7, and the upper end of; the reset assembly 1-9 comprises a lower side hinged rod 1-9-1, a hinged sleeve spring 1-9-2, an inner end sleeved rod 1-9-3, an upper side hinged rod 1-9-4 and an outer frame 1-9-5, the lower side hinged rod 1-9-1 is fixedly connected with the inner end sleeved rod 1-9-3, the inner end sleeved rod 1-9-3 is slidably connected with the outer frame 1-9-5, the hinged sleeve spring 1-9-2 is sleeved on the inner end sleeved rod 1-9-3, the upper side hinged rod 1-9-4 is fixedly connected with the inner end sleeved rod 1-9-3, the upper side hinged rod 1-9-4 is slidably connected with the outer frame 1-9-5, the lower end of the lower side hinged rod 1-9-1 is hinged to the upper end of a sliding rod 1-7, the right end of the upper hinged rod 1-9-4 is hinged with the upper end of the deflector rod 1-2;

the vibration balancing device 7 comprises a fixed outer frame 7-1, an auxiliary balancing assembly I7-2, an auxiliary balancing assembly II 7-3, a middle-end rotating wheel 7-4, a middle-end connecting rod I7-5, a middle-end connecting rod II 7-6 and an auxiliary connecting rod 7-7, wherein the fixed outer frame 7-1 comprises a fixed outer frame body 7-1-1, a lower-side fixed rod 7-1-2, an upper-side fixed rod 7-1-3, a middle-end slider 7-1-4, a middle-end rectangular sliding rod 7-1-5 and a rectangular hollow groove 7-1-6, the lower-side fixed rod 7-1-2 is fixedly connected with the fixed outer frame body 7-1-1, the middle-end slider 7-1-4 is respectively connected with the lower-side fixed rod 7-1-2 and the upper-side fixed rod 7-1-3 in a sliding manner, the middle-end rectangular sliding rod 7-1-5 is arranged at the inner end of the rectangular hollow-out groove 7-1-6, and the middle-end rectangular sliding rod 7-1-5 is connected with the middle-end slider 7-1-4 in a sliding manner; the auxiliary balance assembly I7-2 comprises a fan-shaped toothed bar 7-2-1, a sliding shaft 7-2-2, a lower rectangular hollowed groove 7-2-3, a lower rectangular sliding bar 7-2-4, two lower end sleeve springs 7-2-5, a lower rectangular slider 7-2-6, an upper rectangular hollowed groove 7-2-7, an upper rectangular sliding bar 7-2-8, two upper sleeve springs 7-2-9 and a rack slider 7-2-10, the sliding shaft 7-2-2 is in clearance fit connection with the fan-shaped toothed bar 7-2-1, the lower rectangular hollowed groove 7-2-3 is arranged on a fixed outer frame body 7-1-1, the lower rectangular sliding bar 7-2-4 is arranged in the lower rectangular hollowed groove 7-2-3, two lower end cover springs 7-2-5 are sleeved on a lower side rectangular slide bar 7-2-4, a lower side rectangular slider 7-2-6 is connected with the lower side rectangular slide bar 7-2-4 in a sliding manner, a fan-shaped toothed bar 7-2-1 is connected with a lower side rectangular slider 7-2-6 in a hinged manner, an upper side rectangular hollow groove 7-2-7 is arranged on a fixed outer frame body 7-1-1, an upper side rectangular slide bar 7-2-8 is arranged in the upper side rectangular hollow groove 7-2-7, two upper side cover springs 7-2-9 are sleeved on the upper side rectangular slide bar 7-2-8, a rack slider 7-2-10 is connected with the upper side rectangular slide bar 7-2-8 in a sliding manner, and the rack slider 7-2-10 is in meshed transmission with the fan-shaped toothed bar 7-2-1, two auxiliary balance assembly bodies I7-2 are arranged, the two auxiliary balance assembly bodies I7-2 are both arranged on the fixed outer frame body 7-1-1, the middle end of the middle end rotating wheel 7-4 is rotatably connected on the fixed outer frame body 7-1-1, one end of the middle end connecting rod I7-5 is hinged on the middle end rotating wheel 7-4, the other end of the middle end connecting rod I7-5 is hinged on the lower side rectangular slider 7-2-6 at the left end, one end of the middle end connecting rod II 7-6 is hinged on the middle end rotating wheel 7-4, the other end of the middle end connecting rod II 7-6 is hinged on the lower side rectangular slider 7-2-6 at the right end, the upper end of the auxiliary connecting rod 7-7 is fixedly connected on the middle end slider 7-1-4, the lower end of the auxiliary connecting rod 7-7 is connected to the middle-end rotating wheel 7-4 through a hinge column in a clearance fit manner, and the transportation outer frame 6-2 is fixedly connected to the upper end of the fixed outer frame body 7-1-1;

the upper end of the auxiliary connecting rod 7-7 can be conveniently and fixedly connected to the middle-end slider 7-1-4, the lower end of the auxiliary connecting rod 7-7 can be conveniently and clearance-fittingly connected to the middle-end rotating wheel 7-4 through a hinge column, and the transportation outer frame 6-2 can be conveniently and fixedly connected to the upper end of the fixed outer frame body 7-1-1;

the cutting-off assembly 10 comprises a fixed outer frame 10-1, a first rotating rod 10-2, a fourth transmission belt 10-3, a second rotating rod 10-4, a rectangular rotating frame 10-5, four pressing plates 10-6, pressing plate arc-shaped grooves 10-7, four pressing plate sleeve springs 10-8, a first push rod 10-9, a middle rotating rod 10-10, a lower push rod 10-11, four inner end push rods 10-12, a cutting plate 10-13, a revolving driving rod 10-14, arc-shaped grooves two 10-15, a first conical tooth 10-16, a second conical tooth 10-17, a connecting shaft 10-18 and a fixed table 10-19, wherein the fixed outer frame 10-1 comprises a fixed outer frame body 10-1-1, an upper rectangular groove 10-1-2, an upper trapezoidal sliding groove 10-1-3, a lower sliding, 10-1-4 parts of a cutting board sliding frame, 10-1-5 parts of a left end rectangular sliding groove, 10-1-6 parts of a right end rectangular sliding groove, 10-1-7 parts of a lower side trapezoidal sliding groove, 10-1-8 parts of a hinge terminal, 10-1-9 parts of a hinge terminal and 10-1-10 parts of a hinge terminal, 10-1-2 parts of an upper side rectangular groove are arranged on the upper end surface of a fixed outer frame body 10-1-1, 10-1-3 parts of an upper side trapezoidal sliding groove are arranged on the front side of the upper end surface of the fixed outer frame body 10-1-1, the cutting board sliding frame 10-1-4 is fixedly connected to the upper end of the fixed outer frame body 10-1-1, and the left end rectangular sliding groove 10-1-5 part and the right end rectangular sliding groove 10-1-6 parts are arranged on the cutting board sliding frame 10-, the lower trapezoidal sliding groove 10-1-7 is arranged at the lower side of the upper end face of the fixed outer frame body 10-1-1, the first hinged terminal 10-1-8, the second hinged terminal 10-1-9 and the third hinged terminal 10-1-10 are fixedly connected to the fixed outer frame body 10-1-1, the first rotating rod 10-2 is rotatably connected to the third hinged terminal 10-1-10, the second rotating rod 10-4 is rotatably connected to the second hinged terminal 10-1-9, the rectangular rotating frame 10-5 is rotatably connected with the fixed outer frame 10-1, the fourth driving belt 10-3 is in interference fit connection with the rear end of the rectangular rotating frame 10-5 and the rear end of the first rotating rod 10-2, the four pressing plates 10-6 are slidably connected with the rectangular rotating frame 10-5, the arc-shaped groove 10-7 is arranged at the middle end of the pressing plate 10-6, four pressing plate sleeve springs 10-8 are respectively sleeved on four pressing plates 10-6, the front ends of push rods one 10-9 are slidably connected in upper trapezoidal chutes 10-1-3, the rear ends of push rods one 10-9 are hinged at the upper ends of middle rotating rods 10-10, the middle ends of the middle rotating rods 10-10 are rotatably connected in upper rectangular chutes 10-1-2, the rear ends of lower push rods 10-11 are hinged at the lower ends of the middle rotating rods 10-10, the front ends of lower push rods 10-11 are slidably connected in lower trapezoidal chutes 10-1-7, four inner push rods 10-12 are respectively hinged with the four pressing plates 10-6, the left and right ends of cutting plates 10-13 are respectively slidably connected in left rectangular chutes 10-1-5 and right rectangular chutes 10-1-6, the lower end of a turnover driving rod 10-14 is rotatably connected to a first hinge terminal 10-1-8, a first bevel gear 10-16 is slidably connected with the turnover driving rod 10-14, a second arc-shaped groove 10-15 is arranged on the turnover driving rod 10-14, the arc-shaped groove II 10-15 is hinged with the cutting plate in a sliding mode, the bevel gear II 10-17 is fixedly connected with the rotating rod II 10-4, the bevel gear II 10-17 is in meshing transmission with the bevel gear I10-16, the connecting shaft 10-18 is connected between the rotating rod II 10-4 and the rotating rod I10-2, the fixing table 10-19 is fixedly connected to the lower end of the fixing outer frame body 10-1-1, the fixing table 10-19 is fixedly connected to the upper end of the bottom frame outer frame 8-14, and the driving belt II 5 is connected to the front end of the rectangular rotating frame 10-5 and the output shaft of the input motor 6-6;

the fixed station 10-19 can be conveniently and fixedly connected to the lower end of the fixed outer frame body 10-1-1, the fixed station 10-19 can be conveniently and fixedly connected to the upper end of the underframe outer frame 8-14, and the transmission belt II 5 can be conveniently connected to the front end of the rectangular rotating frame 10-5 and the output shaft of the input motor 6-6;

the interference fit of a drive belt 2 is connected and is dialled between material assembly 1 and

transportation assembly body

6, and 3 fixed connection of drive belt wheel are in transportation assembly body 6, and two 5 connections of drive belt are at transportation assembly body 6 and cut off between the assembly 10, and transportation assembly body 6 and vibration balancing unit 7 fixed connection, vibration balancing unit 7 and chassis assembly 8 fixed connection, aggregate assembly 9 and chassis assembly 8 fixed connection cut off assembly 10 and chassis assembly 8 fixed connection.

The second embodiment is as follows:

the first embodiment is further described with reference to fig. 1-15, the transport assembly 6 includes a transport slide bar 6-1, a transport outer frame 6-2, a meshing rotating gear 6-3, a crank rod 6-4, a motor input straight tooth 6-5, an input motor 6-6, a kick-out bar 6-7, a swing rod I6-8, a swing rod connecting rod I6-9, an auxiliary connecting rod 6-10, a swing rod II 6-11, a swing rod connecting rod II 6-12, an auxiliary slide bar 6-13 and a middle end fixing rod 6-14, the transport slide bar 6-1 is fixedly connected to the upper end of the transport outer frame 6-2, the meshing rotating gear 6-3 is fixedly connected to the front end of the crank rod 6-4, the crank rod 6-4 is rotatably connected to the transport outer frame 6-2, the motor input straight teeth 6-5 are in meshing transmission with meshing rotating teeth 6-3, the motor input straight teeth 6-5 are fixedly connected to an output shaft of an input motor 6-6, the input motor 6-6 is fixedly connected to the inner wall of a transportation outer frame 6-2, a material stirring rod 6-7 is in hinged connection with a swing rod I6-8, the left end of the swing rod I6-8 is in hinged connection with a crank rod 6-4, the right end of the swing rod I6-8 is in hinged connection with a swing rod connecting rod I6-9, the swing rod connecting rod I6-9 is in hinged connection with a middle end fixing rod 6-14, one end of an auxiliary connecting rod 6-10 is in hinged connection with the middle end of the middle end fixing rod 6-14, the other end of the auxiliary connecting rod 6-10 is in hinged connection with a swing rod II 6-11, the middle end of the swing rod II 6-11 is in hinged, the swing rod II 6-11 is hinged with the swing rod connecting rod II 6-12, the right end of the swing rod connecting rod II 6-12 is hinged to the auxiliary sliding rod 6-13, the middle end fixing rod 6-14 is fixedly connected to the middle end of the transportation outer frame 6-2, the input belt wheel 4 is fixedly connected to the front end of the crank rod 6-4, and the transmission belt I2 is connected between the input belt wheel 4 and the cam 1-6;

the middle end fixing rod 6-14 can be conveniently and fixedly connected to the middle end of the transporting outer frame 6-2, the input belt wheel 4 can be conveniently and fixedly connected to the front end of the crank rod 6-4, and the transmission belt I2 can be conveniently connected between the input belt wheel 4 and the cam 1-6.

The third concrete implementation mode:

the embodiment is described below with reference to fig. 1-15, and the embodiment further describes the first embodiment, where the base frame assembly 8 includes a manual rotating rod 8-1, a connecting bearing 8-2, an auxiliary rotating rod 8-3, a locking screw 8-4, a driving rotating rod 8-5, a transmission belt three 8-6, a hinge plate one 8-7, a pulley one 8-8, a pulley two 8-9, a threaded rod 8-10, a sliding fixing rod 8-11, a threaded rod hinge plate 8-12, a threaded sleeve 8-13, and a base frame outer frame 8-14, the manual rotating rod 8-1 is connected with the connecting bearing 8-2 in an interference fit manner, the connecting bearing 8-2 is connected with the auxiliary rotating rod 8-3 in an interference fit manner, the locking screw 8-4 is connected with the auxiliary rotating rod 8-3 through a thread, the driving rotating rod 8-5 is rotationally connected to the auxiliary rotating rod 8-3, the belt wheel I8-8 is fixedly connected with the driving rotating rod 8-5, the driving rotating rod 8-5 is rotationally connected with the hinge plate I8-7, the hinge plate I8-7 is fixedly connected with the chassis frame outer frame 8-14, the sliding fixed rod 8-11 and the threaded rod hinge plate 8-12 are fixedly connected with the chassis frame outer frame 8-14, the left end and the right end of the threaded rod 8-10 are respectively rotationally connected with the sliding fixed rod 8-11 and the threaded rod hinge plate 8-12, the belt wheel II 8-9 is fixedly connected with the threaded rod 8-10, the driving belt III 8-6 is connected with the belt wheel I8-8 and the belt wheel II 8-9 in a matching manner, the threaded sleeve 8-13 is in threaded connection with the threaded rod 8-10, and the threaded sleeve 8-13, a fixed outer frame body 7-1-1 of the vibration balancing device 7 is fixedly connected with an underframe outer frame 8-14;

the threaded sleeves 8-13 can be conveniently in threaded connection with the threaded rods 8-10, the threaded sleeves 8-13 can be conveniently and fixedly connected with the sliding fixed rods 8-11, and the fixed outer frame body 7-1-1 can be conveniently and fixedly connected with the underframe outer frame 8-14.

The fourth concrete implementation mode:

the embodiment is described below with reference to fig. 1-15, and the embodiment further describes the first embodiment, the aggregate assembly 9 includes an aggregate outer frame 9-1, a sliding plate one 9-2, a spring one 9-3, a sliding plate two 9-4, a spring two 9-5, a spring three 9-6, a sliding plate three 9-7 and a bottom plate 9-8, the sliding plate one 9-2, the sliding plate two 9-4 and the sliding plate three 9-7 are all connected with the aggregate outer frame 9-1 in a sliding manner, the inner end of the aggregate outer frame 9-1 is hollowed, the spring one 9-3 is arranged between the sliding plate one 9-2 and the inner wall of the aggregate outer frame 9-1, the spring two 9-5 is arranged between the sliding plate two 9-4 and the inner wall of the aggregate outer frame 9-1, the spring three 9-6 is arranged between the sliding plate three 9-7 and the inner wall of the aggregate outer frame 9-1, the aggregate outer frame 9-1 is fixedly connected to the bottom plate 9-8, and the bottom plate 9-8 is fixedly connected to the right end of the chassis outer frame 8-14;

the aggregate outer frame 9-1 can be conveniently and fixedly connected to the bottom plate 9-8, and the bottom plate 9-8 can be conveniently and fixedly connected to the right end of the chassis outer frame 8-14.

The invention relates to a reinforcing steel bar cutting device for buildings, which has the working principle that:

when in use, the input motor 6-6 is started, the motor input straight tooth 6-5 is driven to rotate, the meshing transmission between the motor input straight tooth 6-5 and the meshing rotating tooth 6-3 is utilized to enable the crank rod 6-4 to rotate, the driving belt I2 drives the cam 1-6 to rotate, the cam 1-6 drives the sliding rod 1-7 to slide along the fixed rod 1-8, the reset assembly 1-9 drives the deflector rod 1-2 to rotate around the hinged position of the deflector rod 1-2 and the material stirring outer frame 1-1, the wheel stirring rod 1-4 is driven to rotate through the wheel stirring connecting rod 1-5 connected between the deflector rod 1-2 and the wheel stirring rod 1-4, and the steel bar is extruded between the wheel stirring rod 1-4 and the steel bar to fall into the material stirring outer frame 1-1, the reinforcing steel bar falls onto a conveying sliding rod 6-1 from the lower end of a material stirring outer frame 1-1, a first swing rod 6-8 is driven to swing through a crank rod 6-4, the first swing rod 6-8 is hinged with a first material stirring rod 6-7, the first material stirring rod 6-7 moves along with the swing of the first swing rod 6-8, the reinforcing steel bar is stirred on the material stirring rod 6-7 to move on the conveying sliding rod 6-1 from left to right, the reinforcing steel bar falls into a pressing plate arc-shaped groove 10-7 on a pressing plate 10-6 through an auxiliary sliding rod 6-13, and the pressing plate 10-6 moves downwards and passes through the gravity action of the reinforcing steel bar; the inner end push rod 10-12 pushes the lower side push rod 10-11 to move towards the rear end along the lower side trapezoidal sliding groove 10-1-7, the middle end rotating rod 10-10 connected between the lower side push rod 10-11 and the push rod one 10-9 drives the push rod one 10-9 to slide towards the front side along the upper side trapezoidal sliding groove 10-1-3, so that the push rod one 10-9 is contacted with the reinforcing steel bar and extrudes the reinforcing steel bar, the reinforcing steel bar is fixed in the pressing plate arc-shaped groove 10-7, the rotating rod one 10-2 is driven to rotate through the driving belt four 10-3, the rotating rod two 10-4 is driven to rotate through the connecting shaft 10-18, the conical teeth two 10-17 on the rotating rod two 10-4 are driven to rotate, and the conical teeth two 10-17 and the conical teeth one 10-16 are driven to rotate through the meshing, the rotating rod II 10-4 is driven to rotate, the cutting plate 10-13 moves downwards through the sliding hinge joint between the arc-shaped groove II 10-15 on the rotating rod II 10-4 and the cutting plate 10-13, the cutting of the reinforcing steel bars is completed through the extrusion between the cutting plate 10-13 and the reinforcing steel bars, when the cutting is completed, the rectangular rotating frame 10-5 rotates, the reinforcing steel bars in the pressing plate arc-shaped groove 10-7 on the rectangular rotating frame 10-5 fall into the aggregate outer frame 9-1, and the collection of the reinforcing steel bars is completed.

It is to be understood that the above description is not intended to limit the present invention, and the present invention is not limited to the above examples, and that various changes, modifications, additions and substitutions which are within the spirit and scope of the present invention and which may be made by those skilled in the art are also within the scope of the present invention.

Claims

1. The utility model provides a reinforcing bar cutting device for building, is including dialling material assembly (1), drive belt (2), driving pulley (3), input pulley (4), drive belt two (5), transportation assembly body (6), vibration balancing unit (7), chassis assembly body (8), aggregate assembly body (9) and cut off assembly body (10), its characterized in that: the material shifting assembly (1) comprises a material shifting outer frame (1-1), a shifting rod (1-2), a closing rod (1-3), a shifting wheel rod (1-4), a shifting wheel connecting rod (1-5), a cam (1-6), a sliding rod (1-7), a fixed rod (1-8) and a reset assembly (1-9), wherein the inner end of the material shifting outer frame (1-1) is hollow, the middle end of the shifting rod (1-2) is hinged to the left end of the inner wall of the material shifting outer frame (1-1), the left end of the closing rod (1-3) is hinged to the material shifting outer frame (1-1), the lower end of the shifting rod (1-2) is hinged to the middle end of the closing rod (1-3), the middle end of the shifting wheel rod (1-4) is rotatably connected to the right end of the inner wall of the material shifting outer frame (1-1), the right end of a thumb wheel connecting rod (1-5) is hinged on a thumb wheel rod (1-4), the left end of the thumb wheel connecting rod (1-5) is hinged on the upper end of a thumb wheel (1-2), a cam (1-6) is rotationally connected on the left end of the outer wall of a material poking outer frame (1-1), a sliding rod (1-7) is connected on a fixed rod (1-8) in a sliding way, the cam (1-6) drives the sliding rod (1-7) to slide along the fixed rod (1-8), the fixed rod (1-8) is fixedly connected to the left end of the outer wall of the material shifting outer frame (1-1), the lower end of the reset assembly (1-9) is hinged to the upper end of the sliding rod (1-7), and the upper end of the reset assembly (1-9) is hinged to the upper end of the shifting rod (1-2); the reset assembly (1-9) comprises a lower side hinged rod (1-9-1), a hinged sleeve spring (1-9-2), an inner end sleeved rod (1-9-3), an upper side hinged rod (1-9-4) and an outer frame (1-9-5), the lower side hinged rod (1-9-1) is fixedly connected with the inner end sleeved rod (1-9-3), the inner end sleeved rod (1-9-3) is slidably connected with the outer frame (1-9-5), the hinged sleeve spring (1-9-2) is sleeved on the inner end sleeved rod (1-9-3), the upper side hinged rod (1-9-4) is fixedly connected with the inner end sleeved rod (1-9-3), the upper side hinged rod (1-9-4) is slidably connected with the outer frame (1-9-5), the lower end of the lower side hinged rod (1-9-1) is hinged to the upper end of the sliding rod (1-7), and the right end of the upper side hinged rod (1-9-4) is hinged to the upper end of the deflector rod (1-2);

the vibration balancing device (7) comprises a fixed outer frame (7-1), an auxiliary balancing assembly I (7-2), an auxiliary balancing assembly II (7-3), a middle end rotating wheel (7-4), a middle end connecting rod I (7-5), a middle end connecting rod II (7-6) and an auxiliary connecting rod (7-7), wherein the fixed outer frame (7-1) comprises a fixed outer frame body (7-1-1), a lower side fixing rod (7-1-2), an upper side fixing rod (7-1-3), a middle end slider (7-1-4), a middle end rectangular sliding rod (7-1-5) and a rectangular hollow groove (7-1-6), and the lower side fixing rod (7-1-2) is fixedly connected with the fixed outer frame body (7-1-1), the middle-end slider (7-1-4) is respectively connected with the lower-side fixed rod (7-1-2) and the upper-side fixed rod (7-1-3) in a sliding manner, the middle-end rectangular sliding rod (7-1-5) is arranged at the inner end of the rectangular hollow groove (7-1-6), and the middle-end rectangular sliding rod (7-1-5) is connected with the middle-end slider (7-1-4) in a sliding manner; the auxiliary balance assembly I (7-2) comprises a fan-shaped toothed bar (7-2-1), a sliding shaft (7-2-2), a lower rectangular hollowed groove (7-2-3), a lower rectangular sliding bar (7-2-4), two lower end sleeve springs (7-2-5), a lower rectangular slider (7-2-6), an upper rectangular hollowed groove (7-2-7), an upper rectangular sliding bar (7-2-8), two upper sleeve springs (7-2-9) and a rack slider (7-2-10), the sliding shaft (7-2-2) is in clearance fit connection with the fan-shaped toothed bar (7-2-1), the lower rectangular hollowed groove (7-2-3) is arranged on a fixed outer frame body (7-1-1), the lower rectangular slide bar (7-2-4) is arranged in the lower rectangular hollow groove (7-2-3), two lower end sleeve springs (7-2-5) are sleeved on the lower rectangular slide bar (7-2-4), the lower rectangular slider (7-2-6) is connected with the lower rectangular slide bar (7-2-4) in a sliding manner, the fan-shaped toothed bar (7-2-1) is hinged with the lower rectangular slider (7-2-6), the upper rectangular hollow groove (7-2-7) is arranged on the fixed outer frame body (7-1-1), the upper rectangular slide bar (7-2-8) is arranged in the upper rectangular hollow groove (7-2-7), and the two upper sleeve springs (7-2-9) are sleeved on the upper rectangular slide bar (7-2-8), a rack slider (7-2-10) is connected with an upper rectangular sliding rod (7-2-8) in a sliding manner, the rack slider (7-2-10) is in meshed transmission with a sector rack rod (7-2-1), two auxiliary balance assemblies I (7-2) are arranged, the two auxiliary balance assemblies I (7-2) are arranged on a fixed outer frame body (7-1-1), the middle end of a middle end rotating wheel (7-4) is rotatably connected on the fixed outer frame body (7-1-1), one end of a middle end connecting rod I (7-5) is hinged on the middle end rotating wheel (7-4), the other end of the middle end connecting rod I (7-5) is hinged on a lower rectangular slider (7-2-6) at the left end, one end of a middle end connecting rod II (7-6) is hinged on the middle end rotating wheel (7-4), the other end of the middle connecting rod II (7-6) is hinged to a lower rectangular slider (7-2-6) at the right end, the upper end of the auxiliary connecting rod (7-7) is fixedly connected to the middle slider (7-1-4), the lower end of the auxiliary connecting rod (7-7) is in clearance fit with the middle runner (7-4) through a hinge column, and the transportation outer frame (6-2) is fixedly connected to the upper end of the fixed outer frame body (7-1-1);

the cutting-off assembly (10) comprises a fixed outer frame (10-1), a first rotating rod (10-2), a fourth transmission belt (10-3), a second rotating rod (10-4), a rectangular rotating frame (10-5), four pressing plates (10-6), a pressing plate arc-shaped groove (10-7), four pressing plate sleeve springs (10-8), a first push rod (10-9), a middle-end rotating rod (10-10), a lower-side push rod (10-11), four inner-end push rods (10-12), a cutting plate (10-13), a turnover driving rod (10-14), a second arc-shaped groove (10-15), a first conical tooth (10-16), a second conical tooth (10-17), a connecting shaft (10-18) and a fixed table (10-19), wherein the fixed outer frame (10-1) comprises a fixed outer frame body (10-1-1), An upper side rectangular groove (10-1-2), an upper side trapezoidal sliding groove (10-1-3), a cutting board sliding frame (10-1-4), a left end rectangular sliding groove (10-1-5), a right end rectangular sliding groove (10-1-6), a lower side trapezoidal sliding groove (10-1-7), a first hinged terminal (10-1-8), a second hinged terminal (10-1-9) and a third hinged terminal (10-1-10), wherein the upper side rectangular groove (10-1-2) is arranged on the upper end face of a fixed outer frame body (10-1-1), the upper side trapezoidal sliding groove (10-1-3) is arranged on the front side of the upper end face of the fixed outer frame body (10-1-1), the cutting board sliding frame (10-1-4) is fixedly connected on the upper end of the fixed outer frame body (10-1-1), the left end rectangular sliding chute (10-1-5) and the right end rectangular sliding chute (10-1-6) are arranged on the cutting board sliding frame (10-1-4), the lower side trapezoidal sliding chute (10-1-7) is arranged at the lower side of the upper end surface of the fixed outer frame body (10-1-1), the first hinged terminal (10-1-8), the second hinged terminal (10-1-9) and the third hinged terminal (10-1-10) are fixedly connected on the fixed outer frame body (10-1-1), the first rotating rod (10-2) is rotatably connected on the third hinged terminal (10-1-10), the second rotating rod (10-4) is rotatably connected on the second hinged terminal (10-1-9), and the rectangular rotating frame (10-5) is rotatably connected with the fixed outer frame (10-1), a fourth driving belt (10-3) is connected with the rear end of the rectangular rotating frame (10-5) and the rear end of the first rotating rod (10-2) in an interference fit manner, four pressing plates (10-6) are all connected with the rectangular rotating frame (10-5) in a sliding manner, an arc-shaped groove (10-7) of each pressing plate is arranged at the middle end of each pressing plate (10-6), four pressing plate sleeve springs (10-8) are respectively sleeved on the four pressing plates (10-6), the front end of a first push rod (10-9) is connected in the upper trapezoidal sliding groove (10-1-3) in a sliding manner, the rear end of the first push rod (10-9) is hinged and connected with the upper end of the middle rotating rod (10-10), the middle end of the middle rotating rod (10-10) is rotatably connected in the upper rectangular groove (10-1-2), the rear end of the lower side (10-11) is hinged and connected with the lower end of the middle rotating rod (10-10, the front end of a lower side push rod (10-11) is connected in a lower side trapezoidal sliding groove (10-1-7) in a sliding manner, four inner end push rods (10-12) are respectively hinged with four pressing plates (10-6), the left end and the right end of a cutting plate (10-13) are respectively connected in a left end rectangular sliding groove (10-1-5) and a right end rectangular sliding groove (10-1-6) in a sliding manner, the lower end of a turnover driving rod (10-14) is rotatably connected on a first hinge terminal (10-1-8), a first conical tooth (10-16) is connected with a turnover driving rod (10-14) in a sliding manner, a second arc-shaped groove (10-15) is arranged on a turnover driving rod (10-14), the second arc-shaped groove (10-15) is hinged with the cutting plate in a sliding manner, and a second conical tooth (10-17) is fixedly connected with a second rotating rod (10-4), a second bevel gear (10-17) is in meshing transmission with a first bevel gear (10-16), a connecting shaft (10-18) is connected between a second rotating rod (10-4) and a first rotating rod (10-2), a fixed table (10-19) is fixedly connected to the lower end of a fixed outer frame body (10-1-1), the fixed table (10-19) is fixedly connected to the upper end of an outer frame (8-14) of the bottom frame assembly (8), and a second transmission belt (5) is connected to the front end of the rectangular rotating frame (10-5) and an output shaft of an input motor (6-6);

drive belt (2) interference fit connects between group material assembly (1) and transportation assembly body (6), driving pulley (3) fixed connection is in transportation assembly body (6), drive belt two (5) are connected between transportation assembly body (6) and cut off assembly body (10), transportation assembly body (6) and vibration balancing unit (7) fixed connection, vibration balancing unit (7) and chassis assembly body (8) fixed connection, aggregate assembly body (9) and chassis assembly body (8) fixed connection, cut off assembly body (10) and chassis assembly body (8) fixed connection.

2. The reinforcing bar cutting device for construction as claimed in claim 1, wherein: the transportation assembly body (6) comprises a transportation sliding rod (6-1), a transportation outer frame (6-2), a meshing rotating gear (6-3), a crank rod (6-4), a motor input straight tooth (6-5), an input motor (6-6), a material stirring rod (6-7), a swing rod I (6-8), a swing rod connecting rod I (6-9), an auxiliary connecting rod (6-10), a swing rod II (6-11), a swing rod connecting rod II (6-12), an auxiliary sliding rod (6-13) and a middle end fixing rod (6-14), the transportation sliding rod (6-1) is fixedly connected to the upper end of the transportation outer frame (6-2), the meshing rotating gear (6-3) is fixedly connected to the front end of the crank rod (6-4), the crank rod (6-4) is rotatably connected to the transportation outer frame (6-2), the motor input straight teeth (6-5) are in meshing transmission with the meshing rotating teeth (6-3), the motor input straight teeth (6-5) are fixedly connected to an output shaft of the input motor (6-6), the input motor (6-6) is fixedly connected to the inner wall of the transportation outer frame (6-2), the material stirring rod (6-7) is hinged with the swing rod I (6-8), the left end of the swing rod I (6-8) is hinged to the crank rod (6-4), the right end of the swing rod I (6-8) is hinged to the swing rod connecting rod I (6-9), the swing rod connecting rod I (6-9) is hinged to the middle end fixing rod (6-14), one end of the auxiliary connecting rod (6-10) is hinged to the middle end of the middle end fixing rod (6-14), the other end of the auxiliary connecting rod (6-10) is hinged to the swing rod II (6-11), the middle end of the second swing rod (6-11) is hinged to the right end of the material stirring rod (6-7), the second swing rod (6-11) is hinged to the second swing rod connecting rod (6-12), the right end of the second swing rod connecting rod (6-12) is hinged to the auxiliary sliding rod (6-13), the middle end fixing rod (6-14) is fixedly connected to the middle end of the transportation outer frame (6-2), the input belt wheel (4) is fixedly connected to the front end of the crank rod (6-4), and the first transmission belt (2) is connected between the input belt wheel (4) and the cam (1-6).

3. The reinforcing bar cutting device for construction as claimed in claim 1, wherein: the aggregate assembly (9) comprises an aggregate outer frame (9-1), a sliding plate I (9-2), a spring I (9-3), a sliding plate II (9-4), a spring II (9-5), a spring III (9-6), a sliding plate III (9-7) and a bottom plate (9-8), wherein the sliding plate I (9-2), the sliding plate II (9-4) and the sliding plate III (9-7) are all in sliding connection with the aggregate outer frame (9-1), the inner end of the aggregate outer frame (9-1) is hollow, the spring I (9-3) is arranged between the sliding plate I (9-2) and the inner wall of the aggregate outer frame (9-1), the spring II (9-5) is arranged between the sliding plate II (9-4) and the inner wall of the aggregate outer frame (9-1), and the spring III (9-6) is arranged between the sliding plate III (9-7) and the inner wall of the aggregate outer frame (9-1) The aggregate outer frame (9-1) is fixedly connected to the bottom plate (9-8), and the bottom plate (9-8) is fixedly connected to the right end of the chassis outer frame (8-14) of the chassis assembly (8).