CN113509874A

CN113509874A - Raw material mixing device is used in road and bridge construction

Info

Publication number: CN113509874A
Application number: CN202110509048.5A
Authority: CN
Inventors: 陈杨
Original assignee: Individual
Current assignee: Individual
Priority date: 2021-05-11
Filing date: 2021-05-11
Publication date: 2021-10-19

Abstract

The invention relates to a road and bridge construction related device, in particular to a raw material mixing device for road and bridge construction, which comprises a device frame, a shaking mechanism, a swinging mechanism, a mixing container assembly and a positioning and stirring mechanism, wherein the shaking mechanism is fixedly arranged on the device frame; this device makes the material in the container flow through the container rotation to avoid the problem at stirring dead angle, can also make container multi-angle horizontal hunting, make the material intensive mixing, stirring mixing speed is accelerated to the puddler that stirs repeatedly in the cooperation.

Description

Raw material mixing device is used in road and bridge construction

Technical Field

The invention relates to a road and bridge construction related device, in particular to a raw material mixing device for road and bridge construction.

Background

The road and bridge generally consists of a plurality of parts such as a roadbed, a road surface, a bridge, a tunnel engineering facility, a traffic engineering facility and the like.

1. And (3) roadbed engineering: the roadbed is a linear structure built by soil or stones. The road surface bearing device bears the self weight of rock and soil, the gravity of the road surface and the driving load transmitted by the road surface, and is an important component of the whole road structure. The highway subgrade mainly comprises a road base body, a side slope, a side ditch, other accessory facilities and the like.

2. Road surface engineering: the road surface is a layered structure which is made up by using various road-building materials or mixed materials and is layered on the road bed for running of automobile. The function of the device is to ensure that the automobile can run on the road all weather, stably, at high speed, comfortably, safely and economically.

3. Bridge and tunnel engineering: the bridge and tunnel engineering is an important component of high-grade highways and comprises bridges, culverts, channels, tunnels and the like.

4. An expressway: highway tunnel engineering is a judicious choice of mountain highways. The tunnel construction facilities are continuously improved, so that the construction progress of the tunnel engineering is fast, the capability of overcoming unfavorable geological phenomena is strong, if compared with the open cut cutting engineering or the winding cutting engineering, the tunnel engineering is beneficial to landscape development, the environmental pollution is less, the absolute engineering quantity is less, the construction progress is less interfered by natural climate, the maintenance engineering cost after the vehicle is built and the like, and the effects of engineering cost saving and good social benefit can be achieved.

Road and bridge need be through engineering such as construction road bed, road surface and bridge at the in-process of construction, in the work progress of these engineering, all need mix the stirring with multiple material, present raw materials mixing arrangement for road and bridge construction exists that the stirring is inhomogeneous when the raw materials mixes, mixing rate is low, the inconvenient shortcoming of unloading, and the stirring mode among the prior art is mostly the puddler and stirs moreover, has the problem at the in-process dead angle of stirring, leads to stirring inhomogeneous.

Disclosure of Invention

The invention mainly solves the technical problem of providing a raw material mixing device for road and bridge construction, which enables materials in a container to flow through the rotation of the container, thereby avoiding the problem of stirring dead angles, and also enables the container to swing left and right at multiple angles, so that the materials are fully mixed, and the stirring and mixing speed is accelerated by matching with a stirring rod which is repeatedly stirred.

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

the utility model provides a road and bridge construction is with raw materials mixing arrangement, includes device frame, rocks mechanism, swing mechanism, mixing vessel subassembly and location rabbling mechanism, rock mechanism fixed mounting on the device frame, fixed mounting has location rabbling mechanism on the device frame, swing mechanism fixed mounting is on rocking the mechanism, mixing vessel subassembly fixed mounting is on the device frame.

As a further optimization of the technical scheme, the shaking mechanism of the raw material mixing device for road and bridge construction comprises a rotating motor, a driving chain wheel, a driving chain, an annular rotating seat, a square upright post, a telescopic post, a rotating disk, a first helical gear, a second helical gear and a threaded rod, wherein the output end of the rotating motor is fixedly provided with the driving chain wheel which is meshed with the driving chain, the rotating motor is fixedly arranged on a device frame, the annular rotating seat is rotatably arranged in a groove arranged on the device frame, the annular rotating seat is meshed with the driving chain, the square upright post is fixedly arranged on the annular rotating seat, the first helical gear is rotatably arranged in the groove of the square upright post, the first helical gear is fixedly connected with the rotating disk, the first helical gear is meshed with the second helical gear, the second helical gear is rotatably arranged in the groove of the square upright post, the second bevel gear is fixedly connected with the threaded rod, the threaded rod is in threaded connection with the telescopic column, the telescopic column is slidably mounted in a groove formed in the square stand column, and the driving chain wheel is rotatably mounted in a groove formed in the device frame.

As a further optimization of the technical scheme, the swing mechanism of the raw material mixing device for road and bridge construction comprises a motor for a cam, a first square frame, a cam connecting piece, a first cam, a first supporting threaded rod, a first internal thread cylinder, a hidden motor, a hidden gear, a first bottom chain wheel, a connecting chain, a second cam, a second square frame, a second supporting threaded rod, a second internal thread cylinder and a second bottom chain wheel, wherein the hidden motor is fixedly arranged in a groove arranged on an annular rotating seat, the output end of the hidden motor is fixedly provided with the hidden gear, the hidden gear is meshed with the first bottom chain wheel, the first bottom chain wheel is meshed with the connecting chain, the connecting chain is meshed with the second bottom chain wheel, the second bottom chain wheel is rotatably arranged in a groove arranged on the annular rotating seat, the second internal thread cylinder is fixedly connected with the second bottom chain wheel, and the first internal thread cylinder is fixedly connected with the first bottom chain wheel, the supporting threaded rod I is in threaded connection with the internal threaded barrel I, the supporting threaded rod II is in threaded connection with the internal threaded barrel II, the square frame I is fixedly connected with the supporting threaded rod I, a motor for a cam is fixedly mounted in a groove of the square frame I, a first cam is fixedly mounted at the output end of the motor for the cam, the first cam is fixedly mounted on a cam connecting piece, a second cam is fixedly mounted at the other end of the cam connecting piece, the second cam is rotatably mounted in a groove formed in the square frame II, and the square frame II is fixedly mounted on the supporting threaded rod II.

As a further optimization of the technical scheme, the mixing container assembly of the raw material mixing device for road and bridge construction comprises a container box, a sealing cover, a rotating base, a spherical shaft and a supporting main upright post, wherein the container box is in threaded connection with the sealing cover, the rotating base is fixedly installed on the container box, the spherical shaft is rotatably installed in a groove of the rotating base, the spherical shaft is fixedly installed on the supporting main upright post, the supporting main upright post is fixedly installed on a device frame, and a cam connecting piece is rotatably installed on the supporting main upright post.

As a further optimization of the technical scheme, the positioning and stirring mechanism of the raw material mixing device for road and bridge construction comprises a stirring cam, a stirring motor, a motor base, a stirring plate, a supporting spring, a stirring box body, a connecting upright rod, a regulating motor, a regulating threaded rod, a regulating ring piece, an upper swinging rod, a hinge rod and a lower swinging rod, wherein the stirring box body is fixedly connected with the motor base, the motor base is fixedly arranged on a device frame, the stirring box body is fixedly arranged on the device frame, the stirring motor is fixedly arranged on the motor base, the stirring cam is fixedly arranged at the output end of the stirring motor and is in contact connection with the stirring plate, the stirring plate is slidably arranged in a groove arranged on the stirring box body, the stirring plate is fixedly connected with the connecting upright rod, the supporting spring is fixedly arranged on the stirring plate, and the other end of the supporting spring is fixedly arranged on the stirring box body, the connecting vertical rod is slidably mounted in a through hole formed in the stirring box body, the adjusting motor is fixedly mounted on the connecting vertical rod, the adjusting threaded rod is fixedly mounted at the output end of the adjusting motor, the other end of the adjusting threaded rod is rotatably mounted in a groove formed in the connecting vertical rod, the adjusting threaded rod is in threaded connection with the adjusting ring piece, the adjusting ring piece is slidably mounted on the connecting vertical rod, the adjusting ring piece is hinged to the upper oscillating rod, the upper oscillating rod is hinged to the hinge rod, the hinge rod is hinged to the lower oscillating rod, and the lower oscillating rod is hinged to the connecting vertical rod.

The raw material mixing device for road and bridge construction has the beneficial effects that:

1. the materials to be mixed are poured into the container box, the rotating disc is rotated, the rotating disc drives the first helical gear to rotate, the first helical gear drives the second helical gear to rotate, and the second helical gear drives the threaded rod to rotate. Threaded rod and flexible post threaded connection, flexible post rebound this moment, with one side jack-up of container box, the rotary disk of rotatory opposite side, make the flexible post of opposite side descend, the flexible post of both sides forms the difference in height, start the motor for rotation, it is rotatory to use the motor to make the drive sprocket rotate with rotating, it is rotatory to drive the sprocket and drive annular roating seat through driving the chain, two flexible posts that the rotatory drive of annular roating seat formed the difference in height are rotatory, flexible post is rotatory at this moment and promotes the container box and use spherical axle spare to rock as the axle center from the bottom of container box, thereby make the material in the container box flow, the material is in the state that flows all the time, thereby the problem at stirring dead angle has been avoided appearing, open sealed lid can emit the material after mixing.

2. The stirring motor is started, the stirring motor drives the stirring cam to rotate, the stirring cam rotates to push the stirring plate to move downwards, the supporting spring supports the stirring plate to move upwards, the stirring plate is enabled to form a repeatedly moving state, the upper swinging rod, the hinge rod and the lower swinging rod are driven to do up-and-down repeated movement, flowing materials are matched, the stirring speed is accelerated, the stirring effect is improved, the adjusting motor is started, the adjusting motor drives the adjusting threaded rod to rotate, the adjusting threaded rod is in threaded connection with the adjusting ring piece, the adjusting ring piece slides on the connecting vertical rod at the moment, the upper swinging rod, the hinge rod and the lower swinging rod are driven to expand or contract, the adjusting motor can be adjusted according to the amount of the input materials, and the stirring function is fully utilized.

3. The telescopic columns on the two sides are adjusted to the same height and are in contact with the bottom of the container box, a motor for the cam is started, the motor for the cam drives a first cam to rotate, the first cam drives a second cam to rotate through a cam connecting piece, the container box is pushed from the bottom of the container box by the first cam and the second cam alternately, the container box swings left and right, materials in the container box flow repeatedly, the materials are mixed and stirred fully, the motor for rotation is started, the annular rotating seat rotates, the position of the swinging mechanism relative to the container box is changed, the swinging mechanism can perform the operation of left and right swinging of the container box from multiple angles, and the materials are mixed fully.

Drawings

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

Fig. 1 is a schematic perspective view of a raw material mixing device for road and bridge construction according to the present invention.

Fig. 2 is a schematic partial three-dimensional structure view of a raw material mixing device for road and bridge construction according to the present invention.

FIG. 3 is a schematic view of a partial structure of a raw material mixing device for road and bridge construction according to the present invention.

Fig. 4 is a schematic perspective view of an assembly frame 1 of the raw material mixing device for road and bridge construction according to the present invention.

Fig. 5 is a schematic perspective view of a shaking mechanism 2 of a raw material mixing device for road and bridge construction according to the present invention.

Fig. 6 is a partial perspective view of a shaking mechanism 2 of a raw material mixing device for road and bridge construction according to the present invention.

Fig. 7 is a partial cross-sectional structural view of a shaking mechanism 2 of a raw material mixing apparatus for road and bridge construction according to the present invention.

Fig. 8 is a schematic perspective view of the swing mechanism 3 of the raw material mixing device for road and bridge construction according to the present invention.

Fig. 9 is a schematic perspective view of a mixing container assembly 4 of a raw material mixing apparatus for road and bridge construction according to the present invention.

Fig. 10 is a schematic perspective view of a positioning and stirring mechanism 5 of a raw material mixing device for road and bridge construction according to the present invention.

Fig. 11 is a schematic perspective view of a positioning and stirring mechanism 5 of a raw material mixing device for road and bridge construction according to the present invention.

In the figure: a device frame 1; a shaking mechanism 2; a motor 2-1 for rotation; driving the chain wheel 2-2; driving a chain 2-3; 2-4 of an annular rotating seat; 2-5 of a square upright post; 2-6 of a telescopic column; rotating the disc 2-7; a first bevel gear 2-8; a second bevel gear 2-9; 2-10 parts of threaded rod; a swing mechanism 3; a motor 3-1 for the cam; 3-2 of a square frame; a cam link 3-3; a first cam 3-4; 3-5 parts of a supporting threaded rod; 3-6 parts of a first internal thread cylinder; hiding a motor 3-7; hiding gears 3-8; 3-9 parts of a bottom chain wheel I; 3-10 of a connecting chain; a second cam 3-11; 3-12 parts of a square frame II; 3-13 parts of a supporting threaded rod II; 3-14 parts of a second internal thread cylinder; a second bottom sprocket 3-15; a mixing vessel assembly 4; a container box 4-1; 4-2 parts of a sealing cover; 4-3 of a rotating base; a spherical shaft member 4-4; 4-5 of a main supporting column; a positioning and stirring mechanism 5; stirring the cam 5-1; a dialing motor 5-2; 5-3 of a motor base; 5-4 of a poking plate; 5-5 parts of supporting springs; stirring the box body 5-6; connecting upright rods 5-7; 5-8 of an adjusting motor; adjusting the threaded rod by 5-9; 5-10 parts of an adjusting ring piece; 5-11 parts of upper swing rod; hinge rods 5-12; and 5-13 of lower swing rod.

Detailed Description

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

The first embodiment is as follows:

the present embodiment will be described with reference to fig. 1 to 11, wherein the raw material mixing device for road and bridge construction comprises a device frame 1, a shaking mechanism 2, a swinging mechanism 3, a mixing container assembly 4 and a positioning stirring mechanism 5, the shaking mechanism 2 is fixedly mounted on the device frame 1, the positioning stirring mechanism 5 is fixedly mounted on the device frame 1, the swinging mechanism 3 is fixedly mounted on the shaking mechanism 2, and the mixing container assembly 4 is fixedly mounted on the device frame 1.

The second embodiment is as follows:

the embodiment is described below with reference to fig. 1-11, and the embodiment further describes the first embodiment, the swing mechanism 2 includes a rotation motor 2-1, a driving sprocket 2-2, a driving chain 2-3, an annular rotary base 2-4, a square column 2-5, a telescopic column 2-6, a rotary disc 2-7, a first helical gear 2-8, a second helical gear 2-9, and a threaded rod 2-10, the output end of the rotation motor 2-1 is fixedly installed with the driving sprocket 2-2, the driving sprocket 2-2 is engaged with the driving chain 2-3, the rotation motor 2-1 is fixedly installed on the device frame 1, the annular rotary base 2-4 is rotatably installed in a groove provided on the device frame 1, the annular rotary base 2-4 is engaged with the driving chain 2-3, the annular rotating seat 2-4 is fixedly provided with a square upright post 2-5, a groove of the square upright post 2-5 is internally and rotatably provided with a first bevel gear 2-8, the first bevel gear 2-8 is fixedly connected with a rotating disk 2-7, the first bevel gear 2-8 is meshed with a second bevel gear 2-9, the second bevel gear 2-9 is rotatably arranged in the groove of the square upright post 2-5, the second bevel gear 2-9 is fixedly connected with a threaded rod 2-10, the threaded rod 2-10 is in threaded connection with a telescopic post 2-6, the telescopic post 2-6 is slidably arranged in a groove arranged on the square upright post 2-5, and the driving chain wheel 2-2 is rotatably arranged in a groove arranged on the device frame 1.

The third concrete implementation mode:

the embodiment is described below with reference to fig. 1 to 11, and the embodiment will be further described, wherein the swing mechanism 3 includes a cam motor 3-1, a square frame i 3-2, a cam connecting member 3-3, a first cam 3-4, a supporting threaded rod i 3-5, an internal threaded cylinder i 3-6, a hidden motor 3-7, a hidden gear 3-8, a bottom sprocket i 3-9, a connecting chain 3-10, a second cam 3-11, a square frame ii 3-12, a supporting threaded rod ii 3-13, an internal threaded cylinder ii 3-14, and a bottom sprocket ii 3-15, the hidden motor 3-7 is fixedly installed in a groove provided on the annular rotating base 2-4, the output end of the hidden motor 3-7 is fixedly installed with the hidden gear 3-8, the hidden gear 3-8 is meshed with a first bottom chain wheel 3-9, the first bottom chain wheel 3-9 is meshed with a connecting chain 3-10, the connecting chain 3-10 is meshed with a second bottom chain wheel 3-15, the second bottom chain wheel 3-15 is rotatably arranged in a groove arranged on an annular rotating seat 2-4, a second internal thread cylinder 3-14 is fixedly connected with the second bottom chain wheel 3-15, a first internal thread cylinder 3-6 is fixedly connected with the first bottom chain wheel 3-9, a first supporting threaded rod 3-5 is in threaded connection with the first internal thread cylinder 3-6, a second supporting threaded rod 3-13 is in threaded connection with the second internal thread cylinder 3-14, a first square frame 3-2 is fixedly connected with the first supporting threaded rod 3-5, and a motor 3-1 for a cam is fixedly arranged in the groove of the first square frame 3-2, the output end of the motor 3-1 for the cam is fixedly provided with a first cam 3-4, the first cam 3-4 is fixedly arranged on a cam connecting piece 3-3, the other end of the cam connecting piece 3-3 is fixedly provided with a second cam 3-11, the second cam 3-11 is rotatably arranged in a groove arranged on a square frame II 3-12, and the square frame II 3-12 is fixedly arranged on a supporting threaded rod II 3-13.

The fourth concrete implementation mode:

the third embodiment is further described with reference to fig. 1-11, where the mixing container assembly 4 includes a container box 4-1, a sealing cover 4-2, a rotating base 4-3, a spherical shaft 4-4, and a supporting main column 4-5, the container box 4-1 is in threaded connection with the sealing cover 4-2, the rotating base 4-3 is fixedly installed on the container box 4-1, the spherical shaft 4-4 is rotatably installed in a groove of the rotating base 4-3, the spherical shaft 4-4 is fixedly installed on the supporting main column 4-5, the supporting main column 4-5 is fixedly installed on the device frame 1, and the cam connecting member 3-3 is rotatably installed on the supporting main column 4-5.

The fifth concrete implementation mode:

the embodiment is described below with reference to fig. 1-11, and the embodiment will be further described, wherein the positioning and stirring mechanism 5 comprises a stirring cam 5-1, a stirring motor 5-2, a motor base 5-3, a stirring plate 5-4, a support spring 5-5, a stirring box 5-6, a connecting upright rod 5-7, an adjusting motor 5-8, an adjusting threaded rod 5-9, an adjusting ring member 5-10, an upper swing rod 5-11, a hinge rod 5-12, and a lower swing rod 5-13, the stirring box 5-6 is fixedly connected with the motor base 5-3, the motor base 5-3 is fixedly installed on the device frame 1, the stirring box 5-6 is fixedly installed on the device frame 1, the motor base 5-3 is fixedly installed with the stirring motor 5-2, a toggle cam 5-1 is fixedly installed at the output end of a toggle motor 5-2, the toggle cam 5-1 is in contact connection with a toggle plate 5-4, the toggle plate 5-4 is slidably installed in a groove arranged on a toggle box body 5-6, the toggle plate 5-4 is fixedly connected with a connecting upright rod 5-7, a supporting spring 5-5 is fixedly installed on the toggle plate 5-4, the other end of the supporting spring 5-5 is fixedly installed on the toggle box body 5-6, the connecting upright rod 5-7 is slidably installed in a through hole arranged on the toggle box body 5-6, an adjusting motor 5-8 is fixedly installed on the connecting upright rod 5-7, an adjusting threaded rod 5-9 is fixedly installed at the output end of the adjusting motor 5-8, the other end of the adjusting threaded rod 5-9 is rotatably installed in a groove arranged on the connecting upright rod 5-7, the adjusting threaded rod 5-9 is in threaded connection with the adjusting ring piece 5-10, the adjusting ring piece 5-10 is slidably mounted on the connecting vertical rod 5-7, the adjusting ring piece 5-10 is hinged with the upper swing rod 5-11, the upper swing rod 5-11 is hinged with the hinge rod 5-12, the hinge rod 5-12 is hinged with the lower swing rod 5-13, and the lower swing rod 5-13 is hinged with the connecting vertical rod 5-7.

The invention relates to a raw material mixing device for road and bridge construction, which has the working principle that:

pouring materials to be mixed into the container box 4-1, rotating the rotating disc 2-7, wherein the rotating disc 2-7 drives the first bevel gear 2-8 to rotate, the first bevel gear 2-8 drives the second bevel gear 2-9 to rotate, and the second bevel gear 2-9 drives the threaded rod 2-10 to rotate. The threaded rod 2-10 is in threaded connection with the telescopic column 2-6, at the moment, the telescopic column 2-6 moves upwards to jack up one side of the container box 4-1, the rotary disk 2-7 at the other side is rotated to enable the telescopic column 2-6 at the other side to descend, the telescopic columns 2-6 at the two sides form a height difference, the rotary motor 2-1 is started, the rotary motor 2-1 drives the driving chain wheel 2-2 to rotate, the driving chain wheel 2-2 drives the annular rotary seat 2-4 to rotate through the driving chain 2-3, the annular rotary seat 2-4 rotates to drive the two telescopic columns 2-6 forming the height difference to rotate, at the moment, the telescopic column 2-6 rotates to push the container box 4-1 to shake in a circular track by taking the spherical shaft 4-4 as an axis from the bottom of the container box 4-1, therefore, the material in the container box 4-1 flows, the material is always in a flowing state, the problem of stirring dead angles is avoided, and the mixed material can be discharged by opening the sealing cover 4-2.

Starting a poking motor 5-2, driving a poking cam 5-1 to rotate by the poking motor 5-2, driving a poking plate 5-4 to move downwards by the rotation of the poking cam 5-1, driving an upper swing rod 5-11, a hinged rod 5-12 and a lower swing rod 5-13 to move up and down repeatedly by a support spring 5-5 supporting the poking plate 5-4 upwards to improve the stirring effect by matching flowing materials, starting an adjusting motor 5-8, driving an adjusting threaded rod 5-9 to rotate by the adjusting motor 5-8, connecting the adjusting threaded rod 5-9 with an adjusting ring piece 5-10 in a threaded manner, and sliding the adjusting ring piece 5-10 on a connecting vertical rod 5-7, thereby driving the upper swing rod 5-11, the hinge rod 5-12 and the lower swing rod 5-13 to expand or contract, and adjusting according to the amount of the input materials, so that the stirring function is fully utilized.

The telescopic columns 2-6 on the two sides are adjusted to the same height and are contacted with the bottom of the container box 4-1, the motor 3-1 for the cam is started, the motor 3-1 for the cam drives the first cam 3-4 to rotate, the first cam 3-4 drives the second cam 3-11 to rotate through the cam connecting piece 3-3, the first cam 3-4 and the second cam 3-11 alternately push the container box 4-1 from the bottom of the container box 4-1 to enable the container box 4-1 to swing left and right, so that materials in the container box 4-1 flow repeatedly, the materials are fully mixed and stirred, the motor 2-1 for rotation is started, the annular rotating seat 2-4 rotates, the position of the motor 3-1 for the cam is changed, and the swinging mechanism 3 can swing the container box 4-1 left and right from multiple angles, the materials were mixed thoroughly.

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 raw materials mixing arrangement is used in road and bridge construction, includes device frame (1), rocks mechanism (2), swing mechanism (3), mixing vessel subassembly (4) and location rabbling mechanism (5), its characterized in that: the shaking mechanism (2) is fixedly arranged on the device frame (1), the positioning and stirring mechanism (5) is fixedly arranged on the device frame (1), the swinging mechanism (3) is fixedly arranged on the shaking mechanism (2), and the mixing container assembly (4) is fixedly arranged on the device frame (1).

2. The raw material mixing device for road and bridge construction according to claim 1, wherein: the shaking mechanism (2) comprises a motor (2-1) for rotation, a driving chain wheel (2-2), a driving chain (2-3), an annular rotating base (2-4), a square upright post (2-5), a telescopic post (2-6), a rotating disc (2-7), a first helical gear (2-8), a second helical gear (2-9) and a threaded rod (2-10), wherein the driving chain wheel (2-2) is fixedly arranged at the output end of the motor (2-1) for rotation, the driving chain wheel (2-2) is meshed with the driving chain (2-3), the motor (2-1) for rotation is fixedly arranged on the device frame (1), the annular rotating base (2-4) is rotatably arranged in a groove arranged on the device frame (1), and the annular rotating base (2-4) is meshed with the driving chain (2-3), the annular rotating seat (2-4) is fixedly provided with a square upright post (2-5), a first helical gear (2-8) is rotatably arranged in a groove of the square upright post (2-5), the first helical gear (2-8) is fixedly connected with a rotating disk (2-7), the first helical gear (2-8) is meshed with a second helical gear (2-9), the second helical gear (2-9) is rotatably arranged in the groove of the square upright post (2-5), the second helical gear (2-9) is fixedly connected with a threaded rod (2-10), the threaded rod (2-10) is in threaded connection with a telescopic column (2-6), the telescopic column (2-6) is slidably arranged in a groove arranged on the square upright post (2-5), and a driving chain wheel (2-2) is rotatably arranged in a groove arranged on the device frame (1).

3. The raw material mixing device for road and bridge construction according to claim 2, wherein: the swing mechanism (3) comprises a motor (3-1) for the cam, a square frame I (3-2), a cam connecting piece (3-3), a first cam (3-4), a supporting threaded rod I (3-5), an internal threaded cylinder I (3-6), a hidden motor (3-7), a hidden gear (3-8), a bottom chain wheel I (3-9), a connecting chain (3-10), a second cam (3-11), a square frame II (3-12), a supporting threaded rod II (3-13), an internal threaded cylinder II (3-14) and a bottom chain wheel II (3-15), the hidden motor (3-7) is fixedly arranged in a groove arranged on the annular rotating seat (2-4), and the hidden gear (3-8) is fixedly arranged at the output end of the hidden motor (3-7), the hidden gear (3-8) is meshed with a first bottom chain wheel (3-9), the first bottom chain wheel (3-9) is meshed with a connecting chain (3-10), the connecting chain (3-10) is meshed with a second bottom chain wheel (3-15), the second bottom chain wheel (3-15) is rotatably arranged in a groove arranged on an annular rotating seat (2-4), a second internal thread cylinder (3-14) is fixedly connected with the second bottom chain wheel (3-15), a first internal thread cylinder (3-6) is fixedly connected with the first bottom chain wheel (3-9), a first supporting threaded rod (3-5) is in threaded connection with a first internal thread cylinder (3-6), a second supporting threaded rod (3-13) is in threaded connection with a second internal thread cylinder (3-14), and a first square frame (3-2) is fixedly connected with a first supporting threaded rod (3-5), a motor (3-1) for a cam is fixedly arranged in a groove of the first square frame (3-2), a first cam (3-4) is fixedly arranged at the output end of the motor (3-1) for the cam, the first cam (3-4) is fixedly arranged on the cam connecting piece (3-3), a second cam (3-11) is fixedly arranged at the other end of the cam connecting piece (3-3), the second cam (3-11) is rotatably arranged in a groove arranged on the second square frame (3-12), and the second square frame (3-12) is fixedly arranged on a supporting threaded rod (3-13).

4. The raw material mixing device for road and bridge construction according to claim 3, wherein: the mixing container assembly (4) comprises a container box (4-1), a sealing cover (4-2), a rotating base (4-3), a spherical shaft piece (4-4) and a supporting main upright post (4-5), wherein the container box (4-1) is in threaded connection with the sealing cover (4-2), the rotating base (4-3) is fixedly installed on the container box (4-1), the spherical shaft piece (4-4) is installed in a groove of the rotating base (4-3) in a rotating mode, the spherical shaft piece (4-4) is fixedly installed on the supporting main upright post (4-5), the supporting main upright post (4-5) is fixedly installed on a device frame (1), and a cam connecting piece (3-3) is rotatably installed on the supporting main upright post (4-5).

5. The raw material mixing device for road and bridge construction according to claim 1, wherein: the positioning stirring mechanism (5) comprises a stirring cam (5-1), a stirring motor (5-2), a motor base (5-3), a stirring plate (5-4), a supporting spring (5-5), a stirring box body (5-6), a connecting upright rod (5-7), an adjusting motor (5-8), an adjusting threaded rod (5-9), an adjusting ring piece (5-10), an upper swinging rod (5-11), a hinged rod (5-12) and a lower swinging rod (5-13), the stirring box body (5-6) is fixedly connected with the motor base (5-3), the motor base (5-3) is fixedly arranged on the device frame (1), the stirring box body (5-6) is fixedly arranged on the device frame (1), the motor base (5-3) is fixedly provided with the stirring motor (5-2), a toggle cam (5-1) is fixedly installed at the output end of the toggle motor (5-2), the toggle cam (5-1) is in contact connection with a toggle plate (5-4), the toggle plate (5-4) is slidably installed in a groove arranged on a toggle box body (5-6), the toggle plate (5-4) is fixedly connected with a connecting upright rod (5-7), a supporting spring (5-5) is fixedly installed on the toggle plate (5-4), the other end of the supporting spring (5-5) is fixedly installed on the toggle box body (5-6), the connecting upright rod (5-7) is slidably installed in a through hole arranged on the toggle box body (5-6), an adjusting motor (5-8) is fixedly installed on the connecting upright rod (5-7), an adjusting threaded rod (5-9) is fixedly installed at the output end of the adjusting motor (5-8), the other end of the adjusting threaded rod (5-9) is rotatably arranged in a groove arranged on the connecting vertical rod (5-7), the adjusting threaded rod (5-9) is in threaded connection with the adjusting ring piece (5-10), the adjusting ring piece (5-10) is slidably arranged on the connecting vertical rod (5-7), the adjusting ring piece (5-10) is hinged with the upper swing rod (5-11), the upper swing rod (5-11) is hinged with the hinge rod (5-12), the hinge rod (5-12) is hinged with the lower swing rod (5-13), and the lower swing rod (5-13) is hinged with the connecting vertical rod (5-7).