CN112554003A - Cement road construction is with floating mechanism - Google Patents

Abstract

The invention discloses a trowelling mechanism for cement road construction, which comprises a main first connecting plate. The invention is matched with the driving device of the trowelling mechanism for cement road construction, can realize wind power driven rotation under the driving action of the driving device of the trowelling mechanism for cement road construction, drives the trowelling plate to work, the surface of the cement road is polished, the number of parts and the whole weight are reduced, the kinetic energy utilization rate is improved, and simultaneously, the left and right transverse movement function is realized under the rotation driving of the last device, thereby realizing the omnibearing floating function, and moreover, the device is provided with a rotary transverse adjusting and moving mechanism with a reverse thread structure, can realize the adjusting function of the transverse distance, and in addition, the device has the flexible supporting mechanism of coil spring elasticity compression, can realize the elastic support function under coil spring's effect, and in addition, the device has spacing formula part docking mechanism of spherical structure size.

Description

Cement road construction is with floating mechanism

Technical Field

The invention relates to the technical field of cement construction, in particular to a trowelling mechanism for cement road construction.

Background

At present, at cement road construction place, dry the shaping back at cement road, in order to prevent the too big internal stress rupture phenomenon that leads to of the integrated body of cement face, all can use floating device, but current floating device generally all is direct makes gravity act on cement road surface, because the action of gravity, can make cement road surface warp, has certain defect to control degree to floating is than low.

Disclosure of Invention

The invention aims to provide a troweling mechanism for cement road construction, which aims to solve the problems in the background technology.

In order to achieve the purpose, the invention provides the following technical scheme: a trowelling mechanism for cement road construction comprises a main first connecting plate, wherein a plurality of main bolt holes are formed in the main first connecting plate, a main hollow shell of an integrated structure is arranged on the upper portion of one side face of the main first connecting plate, a main hollow structure is arranged in the center of the interior of the main hollow shell, a main limiting hole is formed in the center of one end face of the main hollow structure, a main first liquid through hole which is communicated with an external space and the main limiting hole is formed in the interior of the main hollow shell, a main piston plate is mounted in the main hollow structure, a main telescopic rod of the integrated structure is arranged in the center of one end face of the main piston plate, a rod body of the main telescopic rod penetrates through the center of one end of the main hollow shell, an auxiliary hollow shell is mounted at one end, which is located outside, and a main turbine mounting space is formed in the center of the interior of the, a main second liquid through hole communicated with an air inlet port of a main hollow structure and an air outlet port of a main turbine installation space is formed in the main piston plate, the main telescopic rod and the auxiliary hollow shell, a main third air through hole communicated with an external space and an air outlet port of the main turbine installation space is formed in the auxiliary hollow shell, a main rotating shaft is installed in the center of the inner part of the auxiliary hollow shell through a main bearing, a main turbine is installed on a shaft body of the main rotating shaft positioned in the main turbine installation space, a troweling plate is installed at the bottom end of the main rotating shaft, a reverse thread structure rotary type transverse adjusting and moving mechanism is installed between the lower portion of the side face of the main first connecting plate and the side face of the auxiliary hollow shell, a spiral spring elastic compression type telescopic supporting mechanism is installed at the bottom of the side face of the auxiliary hollow shell through a spherical structure size limiting type component butting mechanism, and a main second connecting plate is, and the middle part of a rod body of the reverse thread structure rotary type transverse adjusting and moving mechanism is provided with a main gear.

Further, the reverse thread structure rotary type transverse adjusting moving mechanism comprises a thread sleeve for the reverse thread structure rotary type transverse adjusting moving mechanism, a thread section for the reverse thread structure rotary type transverse adjusting moving mechanism, a thread structure for the reverse thread structure rotary type transverse adjusting moving mechanism, a bottom threaded rod for the reverse thread structure rotary type transverse adjusting moving mechanism, a top threaded rod for the reverse thread structure rotary type transverse adjusting moving mechanism, the first bolt hole for the reverse thread structure rotary type transverse adjusting moving mechanism and the second bolt hole for the reverse thread structure rotary type transverse adjusting moving mechanism are arranged on the first connecting plate; the thread section for the reverse thread structure rotary type transverse adjusting moving mechanism is arranged at the center inside the thread sleeve for the reverse thread structure rotary type transverse adjusting moving mechanism, the thread sleeve for the reverse thread structure rotary type transverse adjusting moving mechanism is provided with a thread structure for the reverse thread structure rotary type transverse adjusting moving mechanism on the inner wall of the thread section for the reverse thread structure rotary type transverse adjusting moving mechanism, the bottom and the top of the thread section for the reverse thread structure rotary type transverse adjusting moving mechanism are respectively connected with a bottom threaded rod for the reverse thread structure rotary type transverse adjusting moving mechanism and a top threaded rod for the reverse thread structure rotary type transverse adjusting moving mechanism through the thread structure for the reverse thread structure rotary type transverse adjusting moving mechanism, reverse thread structure rotation type is bottom threaded rod and reverse thread structure rotation type horizontal adjustment for moving mechanism top threaded rod all is provided with reverse thread structure rotation type horizontal adjustment for moving mechanism spacing hole, two inside in opposite end for reverse thread structure rotation type horizontal adjustment for moving mechanism spacing hole inserts a reverse thread structure rotation type horizontal adjustment for moving mechanism spacing rod, reverse thread structure rotation type horizontal adjustment for moving mechanism bottom threaded rod and reverse thread structure rotation type horizontal adjustment for moving mechanism top threaded rod's other both ends install reverse thread structure rotation type horizontal adjustment for moving mechanism first connecting plate and reverse thread structure rotation type horizontal adjustment for moving mechanism second connecting plate respectively, reverse thread structure rotation type horizontal adjustment for moving mechanism first connecting plate and reverse thread structure rotation type horizontal adjustment for moving mechanism second connecting plate The main gear is arranged in the middle of the side face of the threaded sleeve for the reverse threaded structure rotary type transverse adjusting moving mechanism.

Further, reverse helicitic texture rotation type lateral adjustment is helicitic texture for moving mechanism is including setting up the internal thread structure at reverse helicitic texture rotation type lateral adjustment for moving mechanism threaded sleeve inner wall and setting up the external screw thread structure on reverse helicitic texture rotation type bottom threaded rod for lateral adjustment for moving mechanism and reverse helicitic texture rotation type top threaded rod body of rod, and is located reverse helicitic texture rotation type lateral adjustment for moving mechanism bottom threaded rod and reverse helicitic texture rotation type lateral adjustment for moving mechanism the helicitic texture on the top threaded rod body of rod's screw direction is opposite.

Furthermore, the structural shape of the cross section of the limiting hole for the reverse thread structure rotary type transverse adjusting moving mechanism and the structural shape of the cross section of the limiting rod for the reverse thread structure rotary type transverse adjusting moving mechanism are both triangular structures, and the end parts of the first connecting plate for the reverse thread structure rotary type transverse adjusting moving mechanism and the second connecting plate for the reverse thread structure rotary type transverse adjusting moving mechanism are mounted on the lower part of the side face of the main first connecting plate and the side face of the auxiliary hollow shell through bolts.

Further, the coil spring elastic compression type telescopic supporting mechanism comprises a hollow rod for the coil spring elastic compression type telescopic supporting mechanism, a hollow structure for the coil spring elastic compression type telescopic supporting mechanism, a movable plate for the coil spring elastic compression type telescopic supporting mechanism, a coil spring for the coil spring elastic compression type telescopic supporting mechanism, a telescopic rod for the coil spring elastic compression type telescopic supporting mechanism, a first inserting bulge structure for the coil spring elastic compression type telescopic supporting mechanism and a second inserting bulge structure for the coil spring elastic compression type telescopic supporting mechanism; the utility model discloses a hollow rod for supporting mechanism is stretched out and drawn back to coil spring elasticity compression telescopic supporting mechanism, coil spring elasticity compression telescopic supporting mechanism is with hollow rod inner center is provided with the hollow structure for supporting mechanism of coil spring elasticity compression telescopic supporting mechanism, a fly leaf for supporting mechanism is stretched out and drawn back to coil spring elasticity compression telescopic supporting mechanism with hollow structure internally mounted one coil spring elasticity compression, a telescopic link for supporting mechanism is stretched out and drawn back to coil spring elasticity compression is installed at a terminal surface center of fly leaf for supporting mechanism is stretched out and drawn back to coil spring elasticity compression telescopic supporting mechanism, the body of rod of telescopic link for supporting mechanism is run through the one end center of hollow rod for supporting mechanism is stretched out and drawn back to coil spring elasticity compression telescopic supporting mechanism, just the one end center of hollow rod for supporting mechanism is stretched out and drawn back to coil spring elasticity compression telescopic supporting mechanism and the one end center of The telescopic rod for the supporting mechanism is provided with a first inserting protrusion structure for a spiral spring elastic compression type telescopic supporting mechanism and a second inserting protrusion structure for a spiral spring elastic compression type telescopic supporting mechanism at one end located outside.

Further, the coil spring for the coil spring elastic compression type telescopic supporting mechanism is in a compression state.

Furthermore, the first inserting protrusion structure for the spiral spring elastic compression type telescopic supporting mechanism and the second inserting protrusion structure for the spiral spring elastic compression type telescopic supporting mechanism are arranged inside the two spherical structure size limiting type component butt joint mechanisms.

Furthermore, the spherical structure size limiting type component docking mechanism comprises a connecting plate for the spherical structure size limiting type component docking mechanism, a bolt hole for the spherical structure size limiting type component docking mechanism, a hemispherical hollow shell for the spherical structure size limiting type component docking mechanism, a spherical groove structure for the spherical structure size limiting type component docking mechanism, a spherical body for the spherical structure size limiting type component docking mechanism, a mounting hole for the spherical structure size limiting type component docking mechanism and a plane structure for the spherical structure size limiting type component docking mechanism; the connecting plate for the spherical structure size limiting type component docking mechanism is internally provided with a bolt hole for the spherical structure size limiting type component docking mechanism, the center of the upper surface of the connecting plate for the spherical structure size limiting type component docking mechanism is provided with a plurality of hemispherical hollow shells for the spherical structure size limiting type component docking mechanism which are integrated with the connecting plate for the spherical structure size limiting type component docking mechanism, the center of the inner part of the hemispherical hollow shell for the spherical structure size limiting type component docking mechanism is provided with a spherical groove structure for the spherical structure size limiting type component docking mechanism, the hemispherical hollow shell for the spherical structure size limiting type component docking mechanism is internally provided with a spherical structure size limiting type component docking mechanism body positioned in the spherical groove structure for the spherical structure size limiting type component docking mechanism, the spherical structure size limiting type component docking mechanism is characterized in that a plane structure for the spherical structure size limiting type component docking mechanism is arranged at the center of the top of a spherical body for the spherical structure size limiting type component docking mechanism, and a mounting hole for the spherical structure size limiting type component docking mechanism is arranged at the bottom of the plane structure for the spherical structure size limiting type component docking mechanism.

Furthermore, the volume formed by the inner surface of the spherical groove structure for the spherical structure size limiting type component docking mechanism is 3/5-3/4 of the volume formed by the outer surface of the spherical body for the spherical structure size limiting type component docking mechanism.

Furthermore, the bottom ends of the bolt holes for the spherical structure size limiting type component docking mechanisms are arranged on the side face of the auxiliary hollow shell and the end face of the main second connecting plate, and a first inserting bulge structure for a spiral spring elastic compression type telescopic supporting mechanism and a second inserting bulge structure for a spiral spring elastic compression type telescopic supporting mechanism are inserted into the mounting holes for the spherical structure size limiting type component docking mechanisms.

Compared with the prior art, the invention has the beneficial effects that: the invention is used by matching with a driving device of a trowelling mechanism for cement road construction, can realize wind power driven rotation under the driving action of the driving device of the trowelling mechanism for cement road construction to drive a trowelling plate to work and polish the surface of a cement road, simultaneously reduces the number of components and the whole weight, improves the kinetic energy utilization rate, simultaneously realizes the function of horizontal movement under the driving action of the rotation of the last device, thereby realizing the omnibearing trowelling action, and has a reverse thread structure rotary type horizontal adjusting and moving mechanism which can realize the function of adjusting the horizontal distance, in addition, the device has a spiral spring elastic compression type telescopic supporting mechanism which can realize the elastic supporting function under the action of a spiral spring, and in addition, the device has a spherical structure size limit type component butt joint mechanism, the connection and the angle rotation of the two parts can be realized.

Drawings

FIG. 1 is a schematic view of a full-section structure of a troweling mechanism for cement road construction according to the present invention;

FIG. 2 is a schematic structural view of a rotary transverse adjusting and moving mechanism with a reverse thread structure in the trowelling mechanism for cement road construction according to the present invention;

FIG. 3 is a schematic structural view of a coil spring elastic compression type telescopic supporting mechanism in the trowelling mechanism for cement road construction according to the present invention;

FIG. 4 is a schematic structural diagram of a spherical structure size limiting type component docking mechanism in a trowelling mechanism for cement road construction according to the present invention;

in the figure: 1, a main first connecting plate, 2, a main bolt hole, 3, a main hollow housing, 4, a main hollow structure, 5, a main limit hole, 6, a main first liquid through hole, 7, a main piston plate, 8, a main telescopic rod, 9, an auxiliary hollow housing, 10, a reverse thread structure rotary type transverse adjustment moving mechanism, 101, a reverse thread structure rotary type transverse adjustment moving mechanism threaded sleeve, 102, a reverse thread structure rotary type transverse adjustment moving mechanism threaded section, 103, a reverse thread structure rotary type transverse adjustment moving mechanism threaded structure, 104, a reverse thread structure rotary type transverse adjustment moving mechanism bottom threaded rod, 105, a reverse thread structure rotary type transverse adjustment moving mechanism top threaded rod, 106, a reverse thread structure rotary type transverse adjustment moving mechanism limit hole, 107, a reverse thread structure rotary type transverse adjustment moving mechanism limit rod, 108, a first connecting plate for a reverse thread structure rotary type lateral adjustment moving mechanism, 109, a second connecting plate for a reverse thread structure rotary type lateral adjustment moving mechanism, 1010, a first bolt hole for a reverse thread structure rotary type lateral adjustment moving mechanism, 1011, a second bolt hole for a reverse thread structure rotary type lateral adjustment moving mechanism, 11, a master gear, 12, a master second connecting plate, 13, a coil spring elastic compression type telescopic support mechanism, 131, a hollow rod for a coil spring elastic compression type telescopic support mechanism, 132, a hollow structure for a coil spring elastic compression type telescopic support mechanism, 133, a movable plate for a coil spring elastic compression type telescopic support mechanism, 134, a coil spring for a coil spring elastic compression type telescopic support mechanism, 135, a telescopic rod for a coil spring elastic compression type telescopic support mechanism, 136, a first insertion projection structure for a coil spring elastic compression type telescopic support mechanism, 137, a second insertion convex structure for a coil spring elastic compression type telescopic supporting mechanism, 14, a spherical structure size limiting type component docking mechanism, 141, a connecting plate for a spherical structure size limiting type component docking mechanism, 142, a bolt hole for a spherical structure size limiting type component docking mechanism, 143, a hemispherical hollow housing for a spherical structure size limiting type component docking mechanism, 144, a spherical groove structure for a spherical structure size limiting type component docking mechanism, 145, a spherical body for a spherical structure size limiting type component docking mechanism, 146, a mounting hole for a spherical structure size limiting type component docking mechanism, 147, a planar structure for a spherical structure size limiting type component docking mechanism, 15, a main second liquid through hole, 16, a main turbine mounting space, 17, a main third liquid through hole, 18, a main rotating shaft, 19, a main turbine, 20 and a troweling plate.

Detailed Description

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

Referring to fig. 1, an embodiment of the present invention: the main first connecting plate comprises a main first connecting plate 1, a plurality of main bolt holes 2 are arranged in the main first connecting plate 1, a main hollow shell 3 of an integrated structure is arranged at the upper part of one side surface of the main first connecting plate 1, a main hollow structure 4 is arranged at the center in the main hollow shell 3, a main limiting hole 5 is arranged at the center of one end surface of the main hollow structure 4, a main first liquid through hole 6 for communicating an external space with the main limiting hole 5 is arranged in the main hollow shell 3, a main piston plate 7 is arranged in the main hollow structure 4, a main telescopic rod 8 of the integrated structure is arranged at the center of one end surface of the main piston plate 7, a rod body of the main telescopic rod 8 penetrates through the center of one end of the main hollow shell 3, a hollow auxiliary shell 9 is arranged at one end of the outside of the main telescopic rod 8, and a main turbine installation space 16 is arranged at the center in the auxiliary hollow shell, a main second liquid through hole 15 communicating an air inlet port of the main hollow structure 4 and an air inlet port of the main turbine installation space 16 is formed in the main piston plate 7, the main telescopic rod 8 and the auxiliary hollow shell 9, a main third air through hole 17 communicating an external space and an air outlet port of the main turbine installation space 16 is formed in the auxiliary hollow shell 9, a main rotating shaft 18 is installed in the center of the inner part of the auxiliary hollow shell 9 through a main bearing, a main turbine 19 is installed on a shaft body of the main rotating shaft 18 positioned in the main turbine installation space 16, a troweling plate 20 is installed at the bottom end of the main rotating shaft 18, a reverse threaded structure rotary type transverse adjusting and moving mechanism 10 is installed between the lower part of the side surface of the main first connecting plate 1 and the side surface of the auxiliary hollow shell 9, and a spiral spring elastic compression type telescopic supporting mechanism 13 is installed at the bottom part of the side surface of the auxiliary hollow shell 9 through a, one end of the spiral spring elastic compression type telescopic supporting mechanism 13 is provided with a main second connecting plate 12, and the middle part of the rod body of the reverse thread structure rotary type transverse adjusting moving mechanism 10 is provided with a main gear 11.

Referring to fig. 2, the reverse-threaded-structure rotary transverse-adjustment moving mechanism 10 includes a reverse-threaded-structure rotary transverse-adjustment moving mechanism threaded sleeve 101, a reverse-threaded-structure rotary transverse-adjustment moving mechanism threaded section 102, a reverse-threaded-structure rotary transverse-adjustment moving mechanism threaded structure 103, a reverse-threaded-structure rotary transverse-adjustment moving mechanism bottom threaded rod 104, a reverse-threaded-structure rotary transverse-adjustment moving mechanism top threaded rod 105, a reverse-threaded-structure rotary transverse-adjustment moving mechanism limiting hole 106, a reverse-threaded-structure rotary transverse-adjustment moving mechanism limiting rod 107, a reverse-threaded-structure rotary transverse-adjustment moving mechanism first connecting plate 108, a reverse-threaded-structure rotary transverse-adjustment moving mechanism second connecting plate 109, a reverse-threaded-structure rotary transverse-adjustment moving mechanism first bolt 1010, and a reverse-threaded-structure rotary transverse-adjustment moving mechanism first connecting plate 1010 A second bolt hole 1011; the center inside the reverse thread structure rotary type transverse adjustment moving mechanism threaded sleeve 101 is provided with a reverse thread structure rotary type transverse adjustment moving mechanism threaded section 102 communicating two end faces of the reverse thread structure rotary type transverse adjustment moving mechanism threaded sleeve 101, the reverse thread structure rotary type transverse adjustment moving mechanism threaded sleeve 101 is provided with a reverse thread structure rotary type transverse adjustment moving mechanism threaded structure 103 on the inner wall of the reverse thread structure rotary type transverse adjustment moving mechanism threaded section 102, the bottom and the top of the reverse thread structure rotary type transverse adjustment moving mechanism threaded section 102 are respectively connected with a reverse thread structure rotary type transverse adjustment moving mechanism bottom threaded rod 104 and a reverse thread structure rotary type transverse adjustment moving mechanism top threaded rod 105 through the reverse thread structure rotary type transverse adjustment moving mechanism threaded structure 103, the reverse thread structure rotation type horizontal adjustment is bottom threaded rod 104 for moving mechanism and reverse thread structure rotation type horizontal adjustment is top threaded rod 105 for moving mechanism all be provided with reverse thread structure rotation type horizontal adjustment is spacing hole 106 for moving mechanism, two reverse thread structure rotation type horizontal adjustment is spacing hole 106's for moving mechanism inside inserts a reverse thread structure rotation type horizontal adjustment is spacing rod 107 for moving mechanism, reverse thread structure rotation type horizontal adjustment is bottom threaded rod 104 for moving mechanism and reverse thread structure rotation type horizontal adjustment is top threaded rod 105's for moving mechanism other both ends are installed reverse thread structure rotation type horizontal adjustment is first connecting plate 108 for moving mechanism and reverse thread structure rotation type horizontal adjustment is second connecting plate 109 for moving mechanism respectively, reverse thread structure rotation type horizontal adjustment is first connecting plate 108 for moving mechanism and reverse thread structure rotation type horizontal adjustment for moving mechanism A first bolt hole 1010 for a reverse thread structure rotary transverse adjustment moving mechanism and a second bolt hole 1011 for a reverse thread structure rotary transverse adjustment moving mechanism are arranged inside the second connecting plate 109 for a moving mechanism; the thread structure 103 for the reverse thread structure rotary type transverse adjusting moving mechanism comprises an internal thread structure arranged on the inner wall of the thread sleeve 101 for the reverse thread structure rotary type transverse adjusting moving mechanism and external thread structures arranged on the bottom threaded rod 104 for the reverse thread structure rotary type transverse adjusting moving mechanism and the top threaded rod 105 for the reverse thread structure rotary type transverse adjusting moving mechanism, and the thread directions of the thread structures on the bottom threaded rod 104 for the reverse thread structure rotary type transverse adjusting moving mechanism and the top threaded rod 105 for the reverse thread structure rotary type transverse adjusting moving mechanism are opposite; the cross section structure appearance of the limiting hole 106 for the reverse thread structure rotary type transverse adjusting moving mechanism and the cross section structure appearance of the limiting rod 107 for the reverse thread structure rotary type transverse adjusting moving mechanism are both triangular structures, the end parts of the first connecting plate 108 for the reverse thread structure rotary type transverse adjusting moving mechanism and the second connecting plate 109 for the reverse thread structure rotary type transverse adjusting moving mechanism are mounted on the lower part of the side surface of the main first connecting plate 1 and the side surface of the auxiliary hollow shell 9 through bolts, and the middle part of the side surface of the threaded sleeve 101 for the reverse thread structure rotary type transverse adjusting moving mechanism is provided with the main gear 11.

Referring to fig. 3, the coil spring elastic compression type telescopic supporting mechanism 13 includes a hollow rod 131 for the coil spring elastic compression type telescopic supporting mechanism, a hollow structure 132 for the coil spring elastic compression type telescopic supporting mechanism, a movable plate 133 for the coil spring elastic compression type telescopic supporting mechanism, a coil spring 134 for the coil spring elastic compression type telescopic supporting mechanism, a telescopic rod 135 for the coil spring elastic compression type telescopic supporting mechanism, a first inserting protrusion structure 136 for the coil spring elastic compression type telescopic supporting mechanism, and a second inserting protrusion structure 137 for the coil spring elastic compression type telescopic supporting mechanism; the hollow rod 131 for the coil spring elastic compression type telescopic supporting mechanism is internally provided with a hollow structure 132 for the coil spring elastic compression type telescopic supporting mechanism at the center, the hollow structure 132 for the coil spring elastic compression type telescopic supporting mechanism is internally provided with a movable plate 133 for the coil spring elastic compression type telescopic supporting mechanism, a telescopic rod 135 for the coil spring elastic compression type telescopic supporting mechanism is arranged at the center of one end face of the movable plate 133 for the coil spring elastic compression type telescopic supporting mechanism, the other end of the movable plate 133 for the coil spring elastic compression type telescopic supporting mechanism is provided with a coil spring 134 for the coil spring elastic compression type telescopic supporting mechanism, the rod body of the telescopic rod 135 for the coil spring elastic compression type telescopic supporting mechanism penetrates through the center of one end of the hollow rod 131 for the coil spring elastic compression type telescopic supporting mechanism, and the center of one end of the hollow rod 131 for the coil spring elastic compression type telescopic support mechanism and the telescopic rod 135 for the coil spring elastic compression type telescopic support mechanism are respectively provided with a first inserting protrusion structure 136 for the coil spring elastic compression type telescopic support mechanism and a second inserting protrusion structure 137 for the coil spring elastic compression type telescopic support mechanism at one end located outside; the coil spring 134 for the coil spring elastic compression type telescopic supporting mechanism is in a compression state; the first inserting protrusion structure 136 for the coil spring elastic compression type telescopic supporting mechanism and the second inserting protrusion structure 137 for the coil spring elastic compression type telescopic supporting mechanism are arranged in the two spherical structure size limiting type component butt joint mechanisms 14.

Referring to fig. 4, the spherical structure size limiting type component docking mechanism 14 includes a connecting plate 141 for the spherical structure size limiting type component docking mechanism, a bolt hole 142 for the spherical structure size limiting type component docking mechanism, a hemispherical hollow housing 143 for the spherical structure size limiting type component docking mechanism, a spherical groove structure 144 for the spherical structure size limiting type component docking mechanism, a spherical body 145 for the spherical structure size limiting type component docking mechanism, a mounting hole 146 for the spherical structure size limiting type component docking mechanism, and a planar structure 147 for the spherical structure size limiting type component docking mechanism; the connecting plate 141 for the spherical structure size limiting type component docking mechanism is internally provided with a bolt hole 142 for the spherical structure size limiting type component docking mechanism, the center of the upper surface of the connecting plate 141 for the spherical structure size limiting type component docking mechanism is provided with a plurality of hemispherical hollow shells 143 for the spherical structure size limiting type component docking mechanism which are integrated with the connecting plate 141 for the spherical structure size limiting type component docking mechanism, the center of the inner part of the hemispherical hollow shell 143 for the spherical structure size limiting type component docking mechanism is provided with a spherical groove structure 144 for the spherical structure size limiting type component docking mechanism, the hemispherical hollow shell 143 for the spherical structure size limiting type component docking mechanism is internally provided with a spherical body 145 for the spherical structure size limiting type component docking mechanism, the spherical body is positioned inside the spherical groove structure 144 for the spherical structure size limiting type component docking mechanism, the center of the top of the spherical body 145 for the spherical structure size limiting type component docking mechanism is provided with a planar structure 147 for the spherical structure size limiting type component docking mechanism, and the bottom of the planar structure 147 for the spherical structure size limiting type component docking mechanism is provided with a mounting hole 146 for the spherical structure size limiting type component docking mechanism; the volume formed by the inner surface of the spherical groove structure 144 for the spherical structure size limit type component docking mechanism is 3/5-3/4 of the volume formed by the outer surface of the spherical body 145 for the spherical structure size limit type component docking mechanism; the bottom ends of the bolt holes 142 for the spherical structure size limiting type component butting mechanisms are arranged on the side face of the auxiliary hollow shell 9 and the end face of the main second connecting plate 12, and a first inserting bulge structure 136 for a spiral spring elastic compression type telescopic supporting mechanism and a second inserting bulge structure 137 for the spiral spring elastic compression type telescopic supporting mechanism are inserted into the mounting holes 146 for the two spherical structure size limiting type component butting mechanisms.

The specific use mode is as follows: in the work of the invention, a main first connecting plate 1 is arranged at the position of a main bolt hole in a driving device of a troweling mechanism for cement road construction through a bolt, a main second connecting plate 12 is arranged at the bottom of one side of the driving device of the troweling mechanism for cement road construction through a bolt, a main exhaust hole in the driving device of the troweling mechanism for cement road construction is communicated with a main first vent hole 6 through a high-pressure air pipeline, meanwhile, the bottom of a main gear 11 is meshed with a tooth structure at the top of the main gear in the driving device of the troweling mechanism for cement road construction, when the driving device of the troweling mechanism for cement road construction works, a reverse thread structure rotary type transverse adjusting moving mechanism 10 is driven to rotate for transverse adjustment, and simultaneously, a main turbine 19 can rotate under the action of air, and a troweling plate 20 is driven to rotate for polishing treatment, the two devices are controlled, and then the device can be controlled.

It will be evident to those skilled in the art that the invention is not limited to the details of the foregoing illustrative embodiments, and that the present invention may be embodied in other specific forms without departing from the spirit or essential attributes thereof. The present embodiments are therefore to be considered in all respects as illustrative and not restrictive, the scope of the invention being indicated by the appended claims rather than by the foregoing description, and all changes which come within the meaning and range of equivalency of the claims are therefore intended to be embraced therein. Any reference sign in a claim should not be construed as limiting the claim concerned.

Claims (10)

1. The utility model provides a cement road construction is with floating mechanism, includes main first connecting plate (1), its characterized in that: a plurality of main bolt holes (2) are formed in the main first connecting plate (1), a main hollow shell (3) of an integrated structure is arranged on the upper portion of one side face of the main first connecting plate (1), a main hollow structure (4) is arranged in the center of the inside of the main hollow shell (3), a main limiting hole (5) is formed in the center of one end face of the main hollow structure (4), a main first liquid through hole (6) for communicating an external space with the main limiting hole (5) is formed in the inside of the main hollow shell (3), a main piston plate (7) is installed in the main hollow structure (4), a main telescopic rod (8) of the integrated structure is arranged in the center of one end face of the main piston plate (7), a rod body of the main telescopic rod (8) penetrates through the center of one end of the main hollow shell (3), a pair of hollow shells (9) is installed at one end, which is positioned outside, of the main telescopic rod (8), a main turbine installation space (16) is arranged at the center inside the auxiliary hollow shell (9), a main second liquid through hole (15) for communicating the main hollow structure (4) with an air inlet port of the main turbine installation space (16) is formed inside the main piston plate (7), the main telescopic rod (8) and the auxiliary hollow shell (9), a main third liquid through hole (17) for communicating the external space with an air outlet port of the main turbine installation space (16) is formed inside the auxiliary hollow shell (9), a main rotating shaft (18) is installed at the center inside of the auxiliary hollow shell (9) through a main bearing, a main turbine (19) is installed on a shaft body located inside the main turbine installation space (16) through the main rotating shaft (18), a wiping plate (20) is installed at the bottom end of the main rotating shaft (18), and a reverse threaded structure transverse adjusting and moving mechanism (10) is installed between the lower portion of the side face of the main first connecting plate (1) and the side face of the auxiliary hollow shell (9), the auxiliary hollow shell (9) is characterized in that a spiral spring elastic compression type telescopic supporting mechanism (13) is installed at the bottom of the side face of the auxiliary hollow shell (9) through a spherical structure size limiting type part butt joint mechanism (14), a main second connecting plate (12) is installed at one end of the spiral spring elastic compression type telescopic supporting mechanism (13), and a main gear (11) is installed in the middle of a rod body of the reverse thread structure rotary type transverse adjusting moving mechanism (10).

2. The trowelling mechanism for cement road construction according to claim 1, characterized in that: the reverse thread structure rotary type transverse adjusting moving mechanism (10) comprises a reverse thread structure rotary type transverse adjusting moving mechanism threaded sleeve (101), a reverse thread structure rotary type transverse adjusting moving mechanism threaded section (102), a reverse thread structure rotary type transverse adjusting moving mechanism threaded structure (103), a reverse thread structure rotary type transverse adjusting moving mechanism bottom threaded rod (104), a reverse thread structure rotary type transverse adjusting moving mechanism top threaded rod (105), a reverse thread structure rotary type transverse adjusting moving mechanism limiting hole (106), a reverse thread structure rotary type transverse adjusting moving mechanism limiting rod (107), a reverse thread structure rotary type transverse adjusting moving mechanism first connecting plate (108), a reverse thread structure rotary type transverse adjusting moving mechanism second connecting plate (109), A first bolt hole (1010) for a reverse thread structure rotary type transverse adjusting moving mechanism and a second bolt hole (1011) for a reverse thread structure rotary type transverse adjusting moving mechanism; the reverse thread structure rotation type horizontal adjustment moving mechanism is provided with reverse thread structure rotation type horizontal adjustment moving mechanism and is used the screw thread interval (102) of screw thread sleeve (101) for the horizontal adjustment moving mechanism of reverse thread structure rotation type at inside center of reverse thread structure rotation type horizontal adjustment moving mechanism screw thread sleeve (101) both ends face, reverse thread structure rotation type horizontal adjustment moving mechanism screw thread sleeve (101) are lieing in the inner wall of reverse thread structure rotation type horizontal adjustment moving mechanism for screw thread interval (102) is provided with reverse thread structure rotation type horizontal adjustment moving mechanism screw thread structure (103), the bottom and the top of reverse thread structure rotation type horizontal adjustment moving mechanism for screw thread interval (102) are connected with reverse thread structure rotation type horizontal adjustment moving mechanism bottom threaded rod (104) and reverse thread structure rotation type horizontal adjustment moving mechanism through reverse thread structure rotation type horizontal adjustment moving mechanism screw thread structure (103) respectively A top threaded rod (105) for the structure, a bottom threaded rod (104) for the reverse threaded structure rotary transverse adjustment moving mechanism and a top threaded rod (105) for the reverse threaded structure rotary transverse adjustment moving mechanism are respectively provided with a limiting hole (106) for the reverse threaded structure rotary transverse adjustment moving mechanism in the opposite end, a limiting rod (107) for the reverse threaded structure rotary transverse adjustment moving mechanism is inserted into the limiting hole (106) for the reverse threaded structure rotary transverse adjustment moving mechanism, the other two ends of the bottom threaded rod (104) for the reverse threaded structure rotary transverse adjustment moving mechanism and the top threaded rod (105) for the reverse threaded structure rotary transverse adjustment moving mechanism are respectively provided with a first connecting plate (108) for the reverse threaded structure rotary transverse adjustment moving mechanism and a second connecting plate (109) for the reverse threaded structure rotary transverse adjustment moving mechanism, the reverse thread structure rotation type is transversely adjusted the inside of first connecting plate (108) for moving mechanism and reverse thread structure rotation type transversely adjusts second connecting plate (109) for moving mechanism and is provided with reverse thread structure rotation type transversely adjusts first bolt hole (1010) for moving mechanism and reverse thread structure rotation type transversely adjusts second bolt hole (1011) for moving mechanism, the mid-mounting of reverse thread structure rotation type transversely adjusts the threaded sleeve (101) side for moving mechanism has master gear (11).

3. The trowelling mechanism for cement road construction according to claim 2, characterized in that: reverse thread structure rotation type is helicitic texture (103) for transverse adjustment moving mechanism including set up at the internal thread structure of reverse thread structure rotation type for transverse adjustment moving mechanism threaded sleeve (101) inner wall and set up at reverse thread structure rotation type for transverse adjustment moving mechanism bottom threaded rod (104) and reverse thread structure rotation type for transverse adjustment moving mechanism external thread structure on top threaded rod (105) the body of rod, and be located reverse thread structure rotation type for transverse adjustment moving mechanism bottom threaded rod (104) and reverse thread structure rotation type for transverse adjustment moving mechanism top threaded rod (105) the body of rod on the helicitic texture's of screw opposite direction.

4. The trowelling mechanism for cement road construction according to claim 2, characterized in that: the cross section structure appearance of the limiting hole (106) for the reverse thread structure rotary type transverse adjusting moving mechanism and the cross section structure appearance of the limiting rod (107) for the reverse thread structure rotary type transverse adjusting moving mechanism are both triangular structures, and the end parts of the first connecting plate (108) for the reverse thread structure rotary type transverse adjusting moving mechanism and the second connecting plate (109) for the reverse thread structure rotary type transverse adjusting moving mechanism are mounted on the lower part of the side surface of the main first connecting plate (1) and the side surface of the auxiliary hollow shell (9) through bolts.

5. The trowelling mechanism for cement road construction according to claim 1, characterized in that: the spiral spring elastic compression type telescopic supporting mechanism (13) comprises a hollow rod (131) for the spiral spring elastic compression type telescopic supporting mechanism, a hollow structure (132) for the spiral spring elastic compression type telescopic supporting mechanism, a movable plate (133) for the spiral spring elastic compression type telescopic supporting mechanism, a spiral spring (134) for the spiral spring elastic compression type telescopic supporting mechanism, a telescopic rod (135) for the spiral spring elastic compression type telescopic supporting mechanism, a first inserting bulge structure (136) for the spiral spring elastic compression type telescopic supporting mechanism and a second inserting bulge structure (137) for the spiral spring elastic compression type telescopic supporting mechanism; the hollow rod (131) for the coil spring elastic compression type telescopic supporting mechanism is internally provided with a hollow structure (132) for the coil spring elastic compression type telescopic supporting mechanism at the center, the hollow structure (132) for the coil spring elastic compression type telescopic supporting mechanism is internally provided with a movable plate (133) for the coil spring elastic compression type telescopic supporting mechanism, a telescopic rod (135) for the coil spring elastic compression type telescopic supporting mechanism is arranged at the center of one end face of the movable plate (133) for the coil spring elastic compression type telescopic supporting mechanism, the other end of the movable plate (133) for the coil spring elastic compression type telescopic supporting mechanism is provided with a coil spring (134) for the coil spring elastic compression type telescopic supporting mechanism, the rod body of the telescopic rod (135) for the coil spring elastic compression type telescopic supporting mechanism penetrates through the center of one end of the hollow rod (131) for the coil spring elastic compression type telescopic supporting mechanism, and the center of one end of the hollow rod (131) for the coil spring elastic compression type telescopic supporting mechanism and the telescopic rod (135) for the coil spring elastic compression type telescopic supporting mechanism are respectively provided with a first inserting bulge structure (136) for the coil spring elastic compression type telescopic supporting mechanism and a second inserting bulge structure (137) for the coil spring elastic compression type telescopic supporting mechanism at one end positioned outside.

6. The trowelling mechanism for cement road construction according to claim 5, characterized in that: the coil spring elastic compression type telescopic supporting mechanism is in a compression state by a coil spring (134).

7. The trowelling mechanism for cement road construction according to claim 5, characterized in that: the first inserting protrusion structure (136) for the spiral spring elastic compression type telescopic supporting mechanism and the second inserting protrusion structure (137) for the spiral spring elastic compression type telescopic supporting mechanism are arranged in the two spherical structure size limiting type component butt joint mechanisms (14).

8. The trowelling mechanism for cement road construction according to claim 1, characterized in that: the spherical structure size limiting type component butt joint mechanism (14) comprises a connecting plate (141) for the spherical structure size limiting type component butt joint mechanism, a bolt hole (142) for the spherical structure size limiting type component butt joint mechanism, a hemispherical hollow shell (143) for the spherical structure size limiting type component butt joint mechanism, a spherical groove structure (144) for the spherical structure size limiting type component butt joint mechanism, a spherical body (145) for the spherical structure size limiting type component butt joint mechanism, a mounting hole (146) for the spherical structure size limiting type component butt joint mechanism and a plane structure (147) for the spherical structure size limiting type component butt joint mechanism; the internal part of the connecting plate (141) for the spherical structure size limiting type component docking mechanism is provided with a bolt hole (142) for the spherical structure size limiting type component docking mechanism, the center of the upper surface of the connecting plate (141) for the spherical structure size limiting type component docking mechanism is provided with a plurality of hemispherical hollow shells (143) for the spherical structure size limiting type component docking mechanism which are integrated with the connecting plate (141) for the spherical structure size limiting type component docking mechanism, the internal center of the hemispherical hollow shells (143) for the spherical structure size limiting type component docking mechanism is provided with a spherical groove structure (144) for the spherical structure size limiting type component docking mechanism, the hemispherical hollow shells (143) for the spherical structure size limiting type component docking mechanism are located in the spherical groove structure (144) for the spherical structure size limiting type component docking mechanism, and a spherical structure size limiting type component docking mechanism is installed inside the spherical groove structure (144) for the spherical structure size limiting type component docking mechanism The spherical structure size limiting type component butt joint mechanism comprises a body (145), wherein a plane structure (147) for the spherical structure size limiting type component butt joint mechanism is arranged at the center of the top of the spherical body (145) for the spherical structure size limiting type component butt joint mechanism, and a mounting hole (146) for the spherical structure size limiting type component butt joint mechanism is arranged at the bottom of the plane structure (147) for the spherical structure size limiting type component butt joint mechanism.

9. The trowelling mechanism for cement road construction according to claim 8, characterized in that: the volume formed by the inner surface of the spherical groove structure (144) for the spherical structure size limit type component docking mechanism is 3/5-3/4 of the volume formed by the outer surface of the spherical body (145) for the spherical structure size limit type component docking mechanism.

10. The trowelling mechanism for cement road construction according to claim 8, characterized in that: the bottom ends of bolt holes (142) for the spherical structure size limiting type component butting mechanisms are arranged on the side face of the auxiliary hollow shell (9) and the end face of the main second connecting plate (12), and first inserting protrusion structures (136) for spiral spring elastic compression type telescopic supporting mechanisms and second inserting protrusion structures (137) for spiral spring elastic compression type telescopic supporting mechanisms are inserted into the mounting holes (146) for the two spherical structure size limiting type component butting mechanisms.

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