CN110949851A - Small-size mobile device is used in transportation of electric power cement pole - Google Patents

Abstract

The invention discloses a small-sized mobile device for transporting an electric cement pole, which comprises a middle mounting block and a main rotating wheel. The invention is arranged below the middle part of the cement pole when in work, because the device has simple structure and is mostly designed by mechanical parts, the service life is long, the device can enter narrow areas for transportation in the transportation process, the limitation to space environment is lower, moreover, the device is provided with a spiral spring elastic compression type bottom support buffer control mechanism which plays a role of buffer support by utilizing the elasticity of the spiral spring and reduces the negative influence caused by vibration, in addition, the device is provided with a horizontal rotation bottom ball support type stable mechanism which can play a role of supporting and rotating equipment above the device by utilizing the rolling friction principle of balls and can enable the equipment to rotate stably, in addition, the device is provided with a spherical structure size drag type part butt joint control mechanism which can not influence the angle rotation effect between the parts after connecting the two parts, the practicability is strong.

Description

Small-size mobile device is used in transportation of electric power cement pole

Technical Field

The invention relates to the technical field of power equipment, in particular to a small-sized mobile device for transporting a power cement pole.

Background

At present, at electric power construction place, when carrying out electric power transmission to some remote areas, need install electric power cement pole in the area, and electric power cement pole is at the installation formula, needs transport suitable area, and to some narrow position during the transportation, hardly transports, and its transportation limitation is great.

Disclosure of Invention

The invention aims to provide a small-sized mobile device for transporting an electric cement pole, which solves the problems in the background technology.

In order to achieve the purpose, the invention provides the following technical scheme: a small-sized mobile device for transporting an electric power cement pole comprises a middle mounting block and a main rotating wheel, wherein a bottom mounting base plate is mounted at the top of the middle mounting block, two opposite inclined surface structures are arranged at the bottom of the middle mounting block, a second connecting plate is mounted at the position of each inclined surface structure, a spiral spring compression type elastic bottom supporting and buffering control mechanism is mounted on each second connecting plate through a bolt, the spiral spring elastic compression type bottom supporting and buffering control mechanism is mounted in an inner ring of a compressed main spiral spring, a third connecting plate is mounted at the bottom end of the spiral spring elastic compression type bottom supporting and buffering control mechanism, a transverse shaft body which is of an integrated structure with the third connecting plate is arranged at the center of the end surface of the third connecting plate, a main bearing is mounted at the end part of each transverse shaft body, and a bearing mounting groove structure is arranged at the center of one end of, the bearing mounting groove structure is internally provided with an outer ring of a main bearing, the upper surface center of the bottom mounting base plate is provided with an auxiliary bearing, the periphery of the upper surface of the bottom mounting base plate is provided with a bottom annular part mounting groove structure, a main connecting rotating shaft is mounted in an inner ring of the auxiliary bearing, the top end of the main connecting rotating shaft is provided with a concave shell, the bottom periphery of the groove shell is provided with a top annular part mounting groove structure, a horizontal rotating bottom ball supporting type stabilizing mechanism is mounted between the bottom annular part mounting groove structure and the top annular part mounting groove structure, one side of the concave shell is provided with a main thread sleeve shell which is integrated with the concave shell, one side of the concave shell and the inside of the main thread sleeve shell are provided with a main threaded rod through the main thread structure, and the end part of the main threaded rod is provided with a rotating circular plate, the edge of one end face of the rotating circular plate is provided with a main rotating shaft, the other end of the main threaded rod and the other end face of the inner wall of the concave shell are provided with two opposite auxiliary connecting plates, the opposite end faces of the two auxiliary connecting plates are respectively provided with a spherical structure size traction type component butt joint control mechanism, the opposite ends of the two spherical structure size traction type component butt joint control mechanisms are respectively provided with a main connecting rod, the opposite ends of the two main connecting rods are provided with clamping plates, and the middle parts of the opposite end faces of the two clamping plates are respectively provided with a semi-annular clamping groove structure.

Further, the spiral spring elastic compression type bottom supporting and buffering control mechanism comprises a first connecting plate for the spiral spring elastic compression type bottom supporting and buffering control mechanism, a first bolt hole for the spiral spring elastic compression type bottom supporting and buffering control mechanism, a hollow column for the spiral spring elastic compression type bottom supporting and buffering control mechanism, a hollow structure for the spiral spring elastic compression type bottom supporting and buffering control mechanism, and a through hole structure for the spiral spring elastic compression type bottom supporting and buffering control mechanism, the movable plate is used for the spiral spring elastic compression type bottom support buffer control mechanism, the telescopic rod is used for the spiral spring elastic compression type bottom support buffer control mechanism, the second connecting plate is used for the spiral spring elastic compression type bottom support buffer control mechanism, the second bolt hole is used for the spiral spring elastic compression type bottom support buffer control mechanism, and the spiral spring is used for the spiral spring elastic compression type bottom support buffer control mechanism; the utility model provides a hollow structure for hollow post is provided with for the cushioning control mechanism of coil spring elastic compression type bottom sprag, the one end of coil spring elastic compression type bottom sprag first connecting plate for the cushioning control mechanism is provided with rather than the hollow post for the cushioning control mechanism of integral type structure's coil spring elastic compression type bottom sprag, the coil spring elastic compression type bottom sprag for the cushioning control mechanism of hollow post inside center is provided with for the cushioning control mechanism of coil spring elastic compression type bottom sprag, the one end of coil spring elastic compression type bottom sprag for the cushioning control mechanism of coil spring elastic compression type bottom sprag is provided with the external coil spring elastic compression type bottom sprag through-hole structure for the cushioning control mechanism of intercommunication, a coil spring elastic compression type bottom sprag for the cushioning control mechanism of coil spring elastic compression type bottom sprag internally mounted of hollow structure Support movable plate for buffer control mechanism, a coil spring elasticity compression formula bottom sprag telescopic link for buffer control mechanism is installed at the one end center of movable plate for coil spring elasticity compression formula bottom sprag buffer control mechanism, and coil spring elasticity compression formula bottom sprag buffer control mechanism of another end installation compression of movable plate for coil spring elasticity compression formula bottom sprag buffer control mechanism runs through the body of rod of telescopic link for coil spring elasticity compression formula bottom sprag buffer control mechanism through-hole structure for coil spring elasticity compression formula bottom sprag buffer control mechanism, just coil spring elasticity compression formula bottom sprag buffer control mechanism is with the telescopic link and is being located outside one end installation coil spring elasticity compression formula bottom sprag second connecting plate for buffer control mechanism, the inside of coil spring elasticity compression formula bottom sprag second connecting plate for buffer control mechanism is provided with a plurality of coil spring elasticity compression And the compression type bottom support buffer control mechanism uses a second bolt hole.

Further, the first connecting plate for the coil spring elastic compression type bottom support cushion control mechanism is attached to the center of one end of the second connecting plate by a bolt inserted into the first bolt hole for the coil spring elastic compression type bottom support cushion control mechanism.

Further, the second connecting plate for the coil spring elastic compression type bottom support cushion control mechanism is attached to the end face of the third connecting plate by a bolt inserted into the second bolt hole for the coil spring elastic compression type bottom support cushion control mechanism.

Further, the horizontally rotating bottom ball-supported stabilizing mechanism comprises a top annular plate for the horizontally rotating bottom ball-supported stabilizing mechanism, a bottom annular plate for the horizontally rotating bottom ball-supported stabilizing mechanism, a top center hole for the horizontally rotating bottom ball-supported stabilizing mechanism, a bottom center hole for the horizontally rotating bottom ball-supported stabilizing mechanism, a top annular groove structure for the horizontally rotating bottom ball-supported stabilizing mechanism, a bottom annular groove structure for the horizontally rotating bottom ball-supported stabilizing mechanism, and balls for the horizontally rotating bottom ball-supported stabilizing mechanism; the center inside the top annular plate for the horizontal rotation bottom ball support type stabilizing mechanism and the bottom annular plate for the horizontal rotation bottom ball support type stabilizing mechanism is respectively provided with a top center hole for the horizontal rotation bottom ball support type stabilizing mechanism and a bottom center hole for the horizontal rotation bottom ball support type stabilizing mechanism, the top annular groove structure for the horizontal rotation bottom ball support type stabilizing mechanism and the bottom annular groove structure for the horizontal rotation bottom ball support type stabilizing mechanism are respectively arranged at the bottom of the top annular plate for the horizontal rotation bottom ball support type stabilizing mechanism and the top of the bottom annular plate for the horizontal rotation bottom ball support type stabilizing mechanism, the horizontal rotation bottom ball support type stable mechanism ball is placed in the top annular groove structure for the horizontal rotation bottom ball support type stable mechanism and the bottom annular groove structure for the horizontal rotation bottom ball support type stable mechanism.

Further, the top annular plate for the horizontally rotating bottom ball-supported gimbal mechanism and the bottom annular plate for the horizontally rotating bottom ball-supported gimbal mechanism are respectively installed inside the top annular member installation groove structure and the bottom annular member installation groove structure.

Further, the structural radius of the top annular groove structure for the horizontal rotation bottom ball support type steady mechanism and the structural radius of the bottom annular groove structure for the horizontal rotation bottom ball support type steady mechanism are the same as the structural radius of the ball for the horizontal rotation bottom ball support type steady mechanism, and the depth of the top annular groove structure for the horizontal rotation bottom ball support type steady mechanism and the depth of the bottom annular groove structure for the horizontal rotation bottom ball support type steady mechanism are 1/3 of the diameter of the ball for the horizontal rotation bottom ball support type steady mechanism.

Further, the spherical structure size traction type component docking control mechanism comprises a connecting plate for the spherical structure size traction type component docking control mechanism, a bolt hole for the spherical structure size traction type component docking control mechanism, a hemispherical hollow shell for the spherical structure size traction type component docking control mechanism, a spherical groove structure for the spherical structure size traction type component docking control mechanism, a spherical body for the spherical structure size traction type component docking control mechanism, a mounting hole for the spherical structure size traction type component docking control mechanism and a planar structure for the spherical structure size traction type component docking control mechanism; the spherical structure size traction type component docking control mechanism is characterized in that a bolt hole for a spherical structure size traction type component docking control mechanism is arranged in a connecting plate for the spherical structure size traction type component docking control mechanism, a plurality of hemispherical hollow shells for the spherical structure size traction type component docking control mechanism are arranged at the center of the upper surface of the connecting plate for the spherical structure size traction type component docking control mechanism, the hemispherical hollow shells and the connecting plate for the spherical structure size traction type component docking control mechanism are of an integrated structure, a spherical groove structure for the spherical structure size traction type component docking control mechanism is arranged at the center of the inner parts of the hemispherical hollow shells for the spherical structure size traction type component docking control mechanism, a spherical body for the spherical structure size traction type component docking control mechanism is arranged in the spherical groove structure for the spherical structure size traction type component docking control mechanism, the center of the top of the spherical body for the spherical structure size traction type component butt joint control mechanism is provided with a planar structure for the spherical structure size traction type component butt joint control mechanism, and the bottom of the planar structure for the spherical structure size traction type component butt joint control mechanism is provided with a mounting hole for the spherical structure size traction type component butt joint control mechanism.

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

Furthermore, the bottom end of the bolt hole for the spherical structure size traction type component butt joint control mechanism is arranged on one end face of the auxiliary connecting plate, and a main connecting rod is inserted into the mounting hole for the spherical structure size traction type component butt joint control mechanism.

Compared with the prior art, the invention has the beneficial effects that: the invention is arranged below the middle part of the cement pole when in work, because the device has simple structure and is mostly designed by mechanical parts, the service life is long, the device can enter narrow areas for transportation in the transportation process, the limitation to space environment is lower, moreover, the device is provided with a spiral spring elastic compression type bottom support buffer control mechanism which plays a role of buffer support by utilizing the elasticity of the spiral spring and reduces the negative influence caused by vibration, in addition, the device is provided with a horizontal rotation bottom ball support type stable mechanism which can play a role of supporting and rotating equipment above the device by utilizing the rolling friction principle of balls and can enable the equipment to rotate stably, in addition, the device is provided with a spherical structure size drag type part butt joint control mechanism which can not influence the angle rotation effect between the parts after connecting the two parts, the practicability is strong.

Drawings

FIG. 1 is a schematic diagram of a full-section structure of a small mobile device for transporting an electric power cement pole according to the present invention;

FIG. 2 is a schematic structural diagram of a coil spring elastic compression type bottom support buffer control mechanism in a small-sized mobile device for transporting electric power cement poles in accordance with the present invention;

FIG. 3 is a schematic structural diagram of a horizontally rotating bottom ball-supported stabilizing mechanism in a small-sized mobile device for transporting electric cement poles according to the present invention;

FIG. 4 is a schematic structural diagram of a traction-type component docking control mechanism with a spherical structure and a size in a small-sized mobile device for transporting electric cement poles according to the present invention;

in the figure: 1, a middle mounting block, 2, a bottom mounting base plate, 3, an inclined plane structure, 4, a second connecting plate, 5, a coil spring elastic compression type bottom support buffer control mechanism, 51, a first connecting plate for the coil spring elastic compression type bottom support buffer control mechanism, 52, a first bolt hole for the coil spring elastic compression type bottom support buffer control mechanism, 53, a hollow column for the coil spring elastic compression type bottom support buffer control mechanism, 54, a hollow structure for the coil spring elastic compression type bottom support buffer control mechanism, 55, a through hole structure for the coil spring elastic compression type bottom support buffer control mechanism, 56, a moving plate for the coil spring elastic compression type bottom support buffer control mechanism, 57, a telescopic rod for the coil spring elastic compression type bottom support buffer control mechanism, 58, a second connecting plate for the coil spring elastic compression type bottom support buffer control mechanism, 59, a second bolt hole for a coil spring elastic compression type bottom support cushion control mechanism 510, a coil spring for a coil spring elastic compression type bottom support cushion control mechanism 6, a main coil spring 7, a third connecting plate 8, a horizontal shaft body 9, a bearing installation groove structure 10, a main bearing 11, a main rotation wheel 12, an auxiliary bearing 13, a main connection rotation shaft 14, a concave housing 15, a bottom ring component installation groove structure 16, a horizontal rotation bottom ball support type stabilizing mechanism 161, a top ring plate for a horizontal rotation bottom ball support type stabilizing mechanism 162, a bottom ring plate for a horizontal rotation bottom ball support type stabilizing mechanism 163, a top center hole for a horizontal rotation bottom ball support type stabilizing mechanism 164, a bottom center hole for a horizontal rotation bottom ball support type stabilizing mechanism 165, a top ring groove structure for a horizontal rotation bottom ball support type stabilizing mechanism 165, a bottom ring groove structure for a horizontal rotation bottom ball support type stabilizing mechanism 163, a bottom ring plate for a concave housing 15, a bottom ring component installation groove structure, 166, a bottom annular groove structure for a horizontally rotating bottom ball-supported type of stationary mechanism, 167, balls for a horizontally rotating bottom ball-supported type of stationary mechanism, 17, a top annular component mounting groove structure, 18, a main threaded sleeve housing, 19, a main threaded structure, 20, a main threaded rod, 21, a rotating circular plate, 22, a main rotating shaft, 23, an auxiliary connecting plate, 24, a spherical structure size pulling type component docking control mechanism, 241, a connecting plate for a spherical structure size pulling type component docking control mechanism, 242, a bolt hole for a spherical structure size pulling type component docking control mechanism, 243, a hemispherical hollow housing for a spherical structure size pulling type component docking control mechanism, 244, a spherical structure size pulling type component docking control mechanism, a spherical groove structure for a spherical structure size pulling type component docking control mechanism, 245, a spherical body for a spherical structure size pulling type component docking control mechanism, 246, mounting holes 247 for spherical structure size traction type component butt joint control mechanisms, planar structures 25 for spherical structure size traction type component butt joint control mechanisms, main connecting rods 26, clamping plates 27 and semi-annular clamping groove structures.

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 damping device comprises a middle mounting block 1 and a main rotating wheel 11, wherein a bottom mounting base plate 2 is mounted at the top of the middle mounting block 1, two opposite inclined surface structures 3 are arranged at the bottom of the middle mounting block 1, second connecting plates 4 are mounted at the positions of the two inclined surface structures 3, a spiral spring elastic compression type bottom supporting and buffering control mechanism 5 is mounted on the second connecting plates 4 through bolts, the spiral spring elastic compression type bottom supporting and buffering control mechanism 5 is mounted in an inner ring of a compressed main spiral spring 6, a third connecting plate 7 is mounted at the bottom end of the spiral spring elastic compression type bottom supporting and buffering control mechanism 5, a transverse shaft body 8 which is of an integrated structure with the third connecting plate 7 is arranged at the end surface center of the third connecting plate 7, a main bearing 10 is mounted at the end part of each transverse shaft body 8, and a bearing mounting groove structure 9 is arranged at the center of one end of, an outer ring of a main bearing 10 is arranged in the bearing mounting groove structure 9, an auxiliary bearing 12 is arranged in the center of the upper surface of the bottom mounting base plate 2, a bottom annular part mounting groove structure 15 is arranged on the periphery of the upper surface of the bottom mounting base plate 2, a main connecting rotating shaft 13 is arranged in the inner ring of the auxiliary bearing 12, a concave shell 14 is arranged at the top end of the main connecting rotating shaft 13, a top annular part mounting groove structure 17 is arranged on the periphery of the bottom of the groove shell 14, a horizontal rotating bottom ball supporting type stabilizing mechanism 16 is arranged between the bottom annular part mounting groove structure 15 and the top annular part mounting groove structure 17, a main threaded sleeve shell 18 which is of an integral structure with the concave shell 14 is arranged on one side of the concave shell 14, and a main threaded rod 20 is arranged in the main threaded sleeve shell 18 through a main threaded structure 19, the end of the main threaded rod 20 is provided with a rotating circular plate 21, the edge of one end face of the rotating circular plate 21 is provided with a main rotating shaft 22, the other end of the main threaded rod 20 and the other end face of the inner wall of the concave shell 14 are provided with two opposite auxiliary connecting plates 23, the two auxiliary connecting plates 23 are respectively provided with a spherical structure size traction type component butt joint control mechanism 24 on the opposite end faces, the two spherical structure size traction type component butt joint control mechanisms 24 are respectively provided with a main connecting rod 25 on the opposite ends, the two main connecting rods 25 are provided with clamping plates 26 on the opposite ends, and the two clamping plates 26 are respectively provided with a semi-annular clamping groove structure 27 in the middle of the opposite end faces.

Referring to fig. 2, the coil spring elastic compression type bottom support buffer control mechanism 5 includes a first connecting plate 51 for a coil spring elastic compression type bottom support buffer control mechanism, a first bolt hole 52 for a coil spring elastic compression type bottom support buffer control mechanism, a hollow column 53 for a coil spring elastic compression type bottom support buffer control mechanism, a hollow structure 54 for a coil spring elastic compression type bottom support buffer control mechanism, a through hole structure 55 for a coil spring elastic compression type bottom support buffer control mechanism, a moving plate 56 for a coil spring elastic compression type bottom support buffer control mechanism, a compression type telescopic rod 57 for a coil spring elastic compression type bottom support buffer control mechanism, a second connecting plate 58 for a coil spring elastic bottom support buffer control mechanism, a second bolt hole 59 for a coil spring elastic compression type bottom support buffer control mechanism, and a coil spring for a coil spring elastic compression type bottom support buffer control mechanism 510; the first connecting plate 51 for the coil spring elastic compression type bottom support buffer control mechanism is internally provided with a plurality of first bolt holes 52 for the coil spring elastic compression type bottom support buffer control mechanism, one end face of the first connecting plate 51 for the coil spring elastic compression type bottom support buffer control mechanism is provided with a hollow column 53 for the coil spring elastic compression type bottom support buffer control mechanism in an integrated structure with the first connecting plate, the hollow column 53 for the coil spring elastic compression type bottom support buffer control mechanism is internally provided with a hollow structure 54 for the coil spring elastic compression type bottom support buffer control mechanism at the center, one end of the hollow structure 54 for the coil spring elastic compression type bottom support buffer control mechanism is provided with a through hole structure 55 for communicating the coil spring elastic compression type bottom support buffer control mechanism outside, and a spiral bolt is installed inside the hollow structure 54 for the coil spring elastic compression type bottom support buffer control mechanism A movable plate 56 for a spring elastic compression type bottom support buffer control mechanism, a telescopic rod 57 for a coil spring elastic compression type bottom support buffer control mechanism is installed at the center of one end of the movable plate 56 for the coil spring elastic compression type bottom support buffer control mechanism, a coil spring 510 for a compressed coil spring elastic compression type bottom support buffer control mechanism is installed at the other end of the movable plate 56 for the coil spring elastic compression type bottom support buffer control mechanism, a rod body of the telescopic rod 57 for the coil spring elastic compression type bottom support buffer control mechanism penetrates through the through-hole structure 55 for the coil spring elastic compression type bottom support buffer control mechanism, and a second connecting plate 58 for the coil spring elastic compression type bottom support buffer control mechanism is installed at one end of the telescopic rod 57 for the coil spring elastic compression type bottom support buffer control mechanism, which is located outside, a plurality of second bolt holes 59 for the coil spring elastic compression type bottom support buffer control mechanism are formed in the second connecting plate 58 for the coil spring elastic compression type bottom support buffer control mechanism; the first connecting plate 51 for the coil spring elastic compression type bottom support cushion control mechanism is installed at the center of one end of the second connecting plate 4 by a bolt inserted into the first bolt hole 52 for the coil spring elastic compression type bottom support cushion control mechanism; the second connecting plate 58 for the coil spring elastic compression type bottom support buffer control mechanism is mounted on the end face of the third connecting plate 7 through bolts inserted into the second bolt holes 59 for the coil spring elastic compression type bottom support buffer control mechanism, and mainly functions as follows: the elasticity of the spiral spring is utilized, and the buffer type support stretching effect can be achieved.

Referring to fig. 3, the horizontally rotating bottom ball-supported gimbal mechanism 16 includes a top annular plate 161 for horizontally rotating bottom ball-supported gimbal mechanism, a bottom annular plate 162 for horizontally rotating bottom ball-supported gimbal mechanism, a top center hole 163 for horizontally rotating bottom ball-supported gimbal mechanism, a bottom center hole 164 for horizontally rotating bottom ball-supported gimbal mechanism, a top annular groove structure 165 for horizontally rotating bottom ball-supported gimbal mechanism, a bottom annular groove structure 166 for horizontally rotating bottom ball-supported gimbal mechanism, and balls 167 for horizontally rotating bottom ball-supported gimbal mechanism; the top annular plate 161 for the horizontal rotation bottom ball support type stationary mechanism and the bottom annular plate 162 for the horizontal rotation bottom ball support type stationary mechanism are respectively provided with a top center hole 163 for the horizontal rotation bottom ball support type stationary mechanism and a bottom center hole 164 for the horizontal rotation bottom ball support type stationary mechanism at the inside center thereof, the top annular plate 161 for the horizontal rotation bottom ball support type stationary mechanism and the bottom annular plate 162 for the horizontal rotation bottom ball support type stationary mechanism are respectively provided with a top annular groove structure 165 for the horizontal rotation bottom ball support type stationary mechanism and a bottom annular groove structure 166 for the horizontal rotation bottom ball support type stationary mechanism at the top thereof, and the top annular groove structure 165 for the horizontal rotation bottom ball support type stationary mechanism and the bottom annular groove structure 166 for the horizontal rotation bottom ball support type stationary mechanism are placed inside the bottom annular groove structure 166 for the horizontal rotation bottom ball support type stationary mechanism The balls 167; the top annular plate 161 for the horizontally rotating bottom ball-supported gimbal and the bottom annular plate 162 for the horizontally rotating bottom ball-supported gimbal are respectively installed inside the top annular member mounting groove structure 17 and the bottom annular member mounting groove structure 15; the structural radius of the top annular groove structure 165 for the horizontal rotation bottom ball support type stationary mechanism and the structural radius of the bottom annular groove structure 166 for the horizontal rotation bottom ball support type stationary mechanism are the same as the structural radius of the ball 167 for the horizontal rotation bottom ball support type stationary mechanism, and the depth of the top annular groove structure 165 for the horizontal rotation bottom ball support type stationary mechanism and the bottom annular groove structure 166 for the horizontal rotation bottom ball support type stationary mechanism is 1/3 with the diameter of the ball 167 for the horizontal rotation bottom ball support type stationary mechanism, which mainly functions as: a top annular plate 161 for a horizontally rotating bottom ball-supported gimbal and a bottom annular plate 162 for a horizontally rotating bottom ball-supported gimbal are installed at the bottom of the main rotating circular plate 24 and the top of the main supporting base plate 1, respectively; the structural radii of the top annular groove structure 165 for the horizontal rotation bottom ball support type stabilizing mechanism and the bottom annular groove structure 166 for the horizontal rotation bottom ball support type stabilizing mechanism are the same as the structural radius of the ball 167 for the horizontal rotation bottom ball support type stabilizing mechanism, and the depths of the top annular groove structure 165 for the horizontal rotation bottom ball support type stabilizing mechanism and the bottom annular groove structure 166 for the horizontal rotation bottom ball support type stabilizing mechanism are 1/3 of the diameter of the ball 167 for the horizontal rotation bottom ball support type stabilizing mechanism, so that the two can realize the rotation stabilizing effect of the horizontal plane under the action of the ball.

Referring to fig. 4, the spherical structure size traction type component docking control mechanism 24 includes a connecting plate 241 for the spherical structure size traction type component docking control mechanism, a bolt hole 242 for the spherical structure size traction type component docking control mechanism, a hemispherical hollow shell 243 for the spherical structure size traction type component docking control mechanism, a spherical groove structure 244 for the spherical structure size traction type component docking control mechanism, a spherical body 245 for the spherical structure size traction type component docking control mechanism, a mounting hole 246 for the spherical structure size traction type component docking control mechanism, and a planar structure 247 for the spherical structure size traction type component docking control mechanism; the connection plate 241 for the spherical structure size traction type component docking control mechanism is internally provided with a bolt hole 242 for the spherical structure size traction type component docking control mechanism, the center of the upper surface of the connection plate 241 for the spherical structure size traction type component docking control mechanism is provided with a plurality of hemispherical hollow shells 243 for the spherical structure size traction type component docking control mechanism, which are integrated with the connection plate 241 for the spherical structure size traction type component docking control mechanism, the center of the inner part of the hemispherical hollow shell 243 for the spherical structure size traction type component docking control mechanism is provided with a spherical groove structure 244 for the spherical structure size traction type component docking control mechanism, and the hemispherical hollow shell 243 for the spherical structure size traction type component docking control mechanism is internally provided with a spherical structure size traction type component docking control mechanism for the spherical structure size traction type component docking control mechanism in the spherical groove structure 244 for the spherical structure size traction type component docking control mechanism A spherical body 245, wherein a spherical structure size traction type component docking control mechanism planar structure 247 is arranged at the center of the top of the spherical body 245 for the spherical structure size traction type component docking control mechanism, and a spherical structure size traction type component docking control mechanism mounting hole 246 is arranged at the bottom of the spherical structure size traction type component docking control mechanism planar structure 247; the volume formed by the inner surface of the spherical groove structure 244 for the spherical structure size traction type component docking control mechanism is 3/5-3/4 of the volume formed by the outer surface of the spherical body 245 for the spherical structure size traction type component docking control mechanism; the bottom end of the bolt hole 242 for the spherical structure size traction type component butt joint control mechanism is installed on one end face of the auxiliary connecting plate 23, the main connecting rod 25 is inserted into the installation hole 246 for the spherical structure size traction type component butt joint control mechanism, and the main functions of the main connecting rod are as follows: utilize rotatory joint size principle, after the connection, can not influence the rotation effect of grip block 26 to make cement pole after the centre gripping can have the rotation effect, conveniently control.

The specific use mode is as follows: during the operation of the invention, the middle part of the cement pole is clamped between the two clamping plates 26, the clamping effect of the two clamping plates 26 on the cement pole can be changed under the action of the thread structure by rotating the main rotating shaft 22, and the cement pole can be transported by pushing one end of the cement pole.

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 an electric power cement pole transportation is with small-size mobile device, includes mid-mounting piece (1) and main swiveling wheel (11), its characterized in that: the bottom mounting base plate (2) is mounted at the top of the middle mounting block (1), two opposite inclined surface structures (3) are arranged at the bottom of the middle mounting block (1), two second connecting plates (4) are mounted at the positions of the inclined surface structures (3), two spiral spring elastic compression type bottom supporting and buffering control mechanisms (5) are mounted on the second connecting plates (4) through bolts, the spiral spring elastic compression type bottom supporting and buffering control mechanisms (5) are mounted in an inner ring of a compressed main spiral spring (6), a third connecting plate (7) is mounted at the bottom end of each spiral spring elastic compression type bottom supporting and buffering control mechanism (5), a transverse shaft body (8) of an integrated structure with the third connecting plate (7) is arranged at the center of the end face of the third connecting plate, and a main bearing (10) is mounted at the end part of each transverse shaft body (8), a bearing mounting groove structure (9) is arranged at the center of one end of the main rotating wheel (11), an outer ring of a main bearing (10) is mounted inside the bearing mounting groove structure (9), an auxiliary bearing (12) is arranged at the center of the upper surface of the bottom mounting base plate (2), a bottom annular part mounting groove structure (15) is arranged on the periphery of the upper surface of the bottom mounting base plate (2), a main connecting rotating shaft (13) is mounted in the inner ring of the auxiliary bearing (12), a concave shell (14) is mounted at the top end of the main connecting rotating shaft (13), a top annular part mounting groove structure (17) is arranged on the periphery of the bottom of the groove shell (14), a horizontal rotating bottom ball supporting type stabilizing mechanism (16) is mounted between the bottom annular part mounting groove structure (15) and the top annular part mounting groove structure (17), a main threaded sleeve shell (18) of an integrated structure with the concave shell (14) is arranged on one side of the concave shell (14), a main threaded rod (20) is installed on one side of the concave shell (14) and inside of the main threaded sleeve shell (18) through a main threaded structure (19), a rotary circular plate (21) is installed at the end portion of the main threaded rod (20), a main rotating shaft (22) is installed at the edge of one end face of the rotary circular plate (21), two opposite auxiliary connecting plates (23) are installed on the other end face of the other end of the main threaded rod (20) and the other end face of the inner wall of the concave shell (14), a spherical structure size traction type component butt joint control mechanism (24) is installed on each opposite end face of the two auxiliary connecting plates (23), a main connecting rod (25) is installed on each opposite end of the two spherical structure size traction type component butt joint control mechanisms (24), and a clamping plate (26) is installed on each, the middle parts of the opposite end surfaces of the two clamping plates (26) are provided with semi-annular clamping groove structures (27).

2. The small-sized moving device for transporting electric power cement pole as claimed in claim 1, characterized in that: the spiral spring elastic compression type bottom supporting buffer control mechanism (5) comprises a first connecting plate (51) for a spiral spring elastic compression type bottom supporting buffer control mechanism, a first bolt hole (52) for the spiral spring elastic compression type bottom supporting buffer control mechanism, a hollow column (53) for the spiral spring elastic compression type bottom supporting buffer control mechanism, a hollow structure (54) for the spiral spring elastic compression type bottom supporting buffer control mechanism, a through hole structure (55) for the spiral spring elastic compression type bottom supporting buffer control mechanism, a movable plate (56) for the spiral spring elastic compression type bottom supporting buffer control mechanism, a telescopic rod (57) for the spiral spring elastic compression type bottom supporting buffer control mechanism, a second connecting plate (58) for the spiral spring elastic compression type bottom supporting buffer control mechanism, a second bolt hole (59) for the spiral spring elastic compression type bottom supporting buffer control mechanism and a spiral spring elastic compression type bottom supporting buffer control mechanism A coil spring (510) for a part supporting cushion control mechanism; a plurality of first bolt holes (52) for the spiral spring elastic compression type bottom supporting and buffering control mechanism are arranged inside a first connecting plate (51) for the spiral spring elastic compression type bottom supporting and buffering control mechanism, a hollow column (53) for the spiral spring elastic compression type bottom supporting and buffering control mechanism is arranged on one end face of the first connecting plate (51) for the spiral spring elastic compression type bottom supporting and buffering control mechanism and is of an integrated structure with the first connecting plate, a hollow structure (54) for the spiral spring elastic compression type bottom supporting and buffering control mechanism is arranged at the center inside of the hollow column (53) for the spiral spring elastic compression type bottom supporting and buffering control mechanism, a through hole structure (55) for the spiral spring elastic compression type bottom supporting and buffering control mechanism, which is communicated with the outside is arranged at one end of the hollow structure (54) for the spiral spring elastic compression type bottom supporting and buffering, the movable plate (56) for the internally mounted spiral spring elastic compression type bottom support buffer control mechanism of the hollow structure (54) for the spiral spring elastic compression type bottom support buffer control mechanism, the telescopic rod (57) for the spiral spring elastic compression type bottom support buffer control mechanism is mounted at the center of one end of the movable plate (56) for the spiral spring elastic compression type bottom support buffer control mechanism, the spiral spring (510) for the compressed spiral spring elastic compression type bottom support buffer control mechanism is mounted at the other end of the movable plate (56) for the spiral spring elastic compression type bottom support buffer control mechanism, the rod body of the telescopic rod (57) for the spiral spring elastic compression type bottom support buffer control mechanism runs through the through hole structure (55) for the spiral spring elastic compression type bottom support buffer control mechanism, and the telescopic rod (57) for the spiral spring elastic compression type bottom support buffer control mechanism is located at one end outside And a second connecting plate (58) for the spiral spring elastic compression type bottom support buffer control mechanism is installed, and a plurality of second bolt holes (59) for the spiral spring elastic compression type bottom support buffer control mechanism are arranged in the second connecting plate (58) for the spiral spring elastic compression type bottom support buffer control mechanism.

3. The small-sized moving device for transporting the electric power cement pole as claimed in claim 2, wherein: the first connecting plate (51) for the coil spring elastic compression type bottom support cushioning control mechanism is mounted at the center of one end of the second connecting plate (4) by a bolt inserted into the first bolt hole (52) for the coil spring elastic compression type bottom support cushioning control mechanism.

4. The small-sized moving device for transporting the electric power cement pole as claimed in claim 2, wherein: the second connecting plate (58) for the coil spring elastic compression type bottom support buffer control mechanism is mounted on the end face of the third connecting plate (7) by a bolt inserted into the second bolt hole (59) for the coil spring elastic compression type bottom support buffer control mechanism.

5. The small-sized moving device for transporting electric power cement pole as claimed in claim 1, characterized in that: the horizontally rotating bottom ball-supported type stabilizing mechanism (16) comprises a top annular plate (161) for the horizontally rotating bottom ball-supported type stabilizing mechanism, a bottom annular plate (162) for the horizontally rotating bottom ball-supported type stabilizing mechanism, a top center hole (163) for the horizontally rotating bottom ball-supported type stabilizing mechanism, a bottom center hole (164) for the horizontally rotating bottom ball-supported type stabilizing mechanism, a top annular groove structure (165) for the horizontally rotating bottom ball-supported type stabilizing mechanism, a bottom annular groove structure (166) for the horizontally rotating bottom ball-supported type stabilizing mechanism and balls (167) for the horizontally rotating bottom ball-supported type stabilizing mechanism; the top annular plate (161) for the horizontal rotation bottom ball support type stabilizing mechanism and the bottom annular plate (162) for the horizontal rotation bottom ball support type stabilizing mechanism are respectively provided with a top center hole (163) for the horizontal rotation bottom ball support type stabilizing mechanism and a bottom center hole (164) for the horizontal rotation bottom ball support type stabilizing mechanism at the inner centers of the top annular plate (161) and the bottom annular plate (162), the top of the top annular plate (161) for the horizontal rotation bottom ball support type stabilizing mechanism and the bottom annular plate (162) for the horizontal rotation bottom ball support type stabilizing mechanism are respectively provided with a top annular groove structure (165) for the horizontal rotation bottom ball support type stabilizing mechanism and a bottom annular groove structure (166) for the horizontal rotation bottom ball support type stabilizing mechanism, and the top annular groove structure (165) for the horizontal rotation bottom ball support type stabilizing mechanism and the bottom annular groove structure (166) for the horizontal rotation bottom ball support type stabilizing mechanism are respectively provided with corresponding inner centers A horizontally rotating ball (167) for a bottom ball-supported type smoothing mechanism is placed in the bottom.

6. The small-sized moving device for transporting electric power cement pole as claimed in claim 5, wherein: the top annular plate (161) for the horizontal rotation bottom ball support type leveling mechanism and the bottom annular plate (162) for the horizontal rotation bottom ball support type leveling mechanism are respectively installed inside the top annular component installation groove structure (17) and the bottom annular component installation groove structure (15).

7. The small-sized moving device for transporting electric power cement pole as claimed in claim 5, wherein: the structural radii of the top annular groove structure (165) for the horizontal rotation bottom ball support type stabilizing mechanism and the bottom annular groove structure (166) for the horizontal rotation bottom ball support type stabilizing mechanism are the same as the structural radii of the balls (167) for the horizontal rotation bottom ball support type stabilizing mechanism, and the depths of the top annular groove structure (165) for the horizontal rotation bottom ball support type stabilizing mechanism and the bottom annular groove structure (166) for the horizontal rotation bottom ball support type stabilizing mechanism are 1/3 of the diameter of the balls (167) for the horizontal rotation bottom ball support type stabilizing mechanism.

8. The small-sized moving device for transporting electric power cement pole as claimed in claim 1, characterized in that: the spherical structure size traction type component butt joint control mechanism (24) comprises a connecting plate (241) for the spherical structure size traction type component butt joint control mechanism, a bolt hole (242) for the spherical structure size traction type component butt joint control mechanism, a hemispherical hollow shell (243) for the spherical structure size traction type component butt joint control mechanism, a spherical groove structure (244) for the spherical structure size traction type component butt joint control mechanism, a spherical body (245) for the spherical structure size traction type component butt joint control mechanism, a mounting hole (246) for the spherical structure size traction type component butt joint control mechanism and a planar structure (247) for the spherical structure size traction type component butt joint control mechanism; the spherical structure size traction type component butt joint control mechanism comprises a connecting plate (241) for the spherical structure size traction type component butt joint control mechanism, a plurality of hemispherical hollow shells (243) which are of an integrated structure with the connecting plate (241) for the spherical structure size traction type component butt joint control mechanism and are arranged at the center of the upper surface of the connecting plate (241) for the spherical structure size traction type component butt joint control mechanism, a spherical groove structure (244) for the spherical structure size traction type component butt joint control mechanism is arranged at the center of the inner portion of the hemispherical hollow shell (243) for the spherical structure size traction type component butt joint control mechanism, and a spherical groove structure (244) is arranged inside the hemispherical hollow shell (243) for the spherical structure size traction type component butt joint control mechanism and is positioned inside the spherical groove structure (244) for the spherical structure size traction type component butt joint control mechanism The spherical structure size traction type component butt joint control mechanism comprises a spherical body (245) for the spherical structure size traction type component butt joint control mechanism, a planar structure (247) for the spherical structure size traction type component butt joint control mechanism is arranged in the center of the top of the spherical body (245) for the spherical structure size traction type component butt joint control mechanism, and a mounting hole (246) for the spherical structure size traction type component butt joint control mechanism is arranged at the bottom of the planar structure (247) for the spherical structure size traction type component butt joint control mechanism.

9. The small-sized moving device for transporting electric power cement pole as claimed in claim 8, wherein: the volume formed by the inner surface of the spherical groove structure (244) for the spherical structure size traction type component butt joint control mechanism is 3/5-3/4 of the volume formed by the outer surface of the spherical body (245) for the spherical structure size traction type component butt joint control mechanism.

10. The small-sized moving device for transporting electric power cement pole as claimed in claim 8, wherein: the bottom end of the bolt hole (242) for the spherical structure size traction type component butt joint control mechanism is installed on one end face of the auxiliary connecting plate (23), and the main connecting rod (25) is inserted into the installation hole (246) for the spherical structure size traction type component butt joint control mechanism.

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