CN113914287A - Tamping device for electric power engineering pole - Google Patents

Abstract

A tamping device for an electric power engineering rod comprises a hoop ring, a vibration motor is arranged between a left side plate and a right side plate, the left side and the right side of the vibration motor are both connected with a supporting cross rod, and a vertical tamping rod is connected below the vibration motor in a driving manner; the outer side of the connecting side plate is rotatably connected with an inclined pull rod which extends obliquely downwards, and the lower end of the inclined pull rod is connected with a walking trolley. The invention has the beneficial effects that: the device is installed on a power line pole only, the frequent movement of the position of the rammer pile is not needed, the ground is rammed uniformly and firmly, the potential danger of inclination is not easy to exist after the installation of the power engineering pole, the ramming efficiency is greatly improved, and the stability is high.

Description

Tamping device for electric power engineering pole

Technical Field

The invention relates to a tamping device for an electric power engineering rod.

Background

At present, the installation of a power engineering pole is an important link in power engineering construction, when the power engineering pole is installed, a pit needs to be dug on the ground, and in order to improve the stability of the installed power engineering pole, the pole pit is usually tamped. The tamping position of the pole pit is mainly around the electric power engineering pole, the existing tamping equipment is usually provided with a single tamping pile for considering stability, the tamping efficiency is greatly reduced because the tamping pile position needs to be frequently moved for realizing ground coverage type tamping around the pole pit, and the phenomenon of uneven ground tamping is easy to occur, so that the electric power engineering pole has the hidden trouble of easy inclination after being installed; the existing tamping equipment usually adopts a lifting type structure, and the whole equipment has certain height and poor stability.

Disclosure of Invention

In order to solve the technical defects, the invention provides the tamping device for the electric power engineering rod, which has the advantages of uniform and firm ground tamping, greatly improved tamping efficiency and high stability.

The invention is realized by the following measures:

a tamping device for an electric power engineering rod comprises a hoop ring, wherein the hoop ring comprises two buckled and lockable semi-circular ring bodies, a vertically extending connecting side plate is arranged on the outer side of the circumferential surface of the hoop ring, the upper end of the connecting side plate is connected with an upper connecting plate which transversely extends to the upper end surface of the hoop ring, the lower end of the connecting side plate is connected with a lower connecting plate which transversely extends to the lower end surface of the hoop ring, circular sliding grooves are formed in the surface of the upper end surface and the surface of the lower end surface of the hoop ring, and sliding blocks which are embedded into the sliding grooves and can slide along the sliding grooves are arranged at the bottom of the upper connecting plate and at the top of the lower connecting plate; the bottom of the lower connecting plate is connected with a connecting column, the lower part of the connecting column is connected with a transverse plate, the left end and the right end of the transverse plate are respectively connected with a left side plate and a right side plate which extend vertically and downwards, the middle parts of the left side plate and the right side plate are both provided with elongated guide grooves which extend vertically, a vibration motor is arranged between the left side plate and the right side plate, the left side and the right side of the vibration motor are both connected with supporting transverse rods, the tail ends of the two supporting transverse rods respectively extend into the guide grooves of the left side plate and the right side plate, damping springs are arranged between the supporting transverse rods and the tops of the guide grooves and between the supporting transverse rods and the bottoms of the guide grooves, and vertical soil ramming rods are connected under the vibration motor in a driving manner; the outer side of the connecting side plate is rotatably connected with an inclined pull rod extending obliquely downwards, and the lower end of the inclined pull rod is connected with a walking trolley.

The walking trolley comprises a bottom plate, wherein a stepping motor is transversely arranged on the bottom plate, the stepping motor is in driving connection with a vertical bevel gear I, a bearing seat is arranged on the bottom plate, a vertical rotating column penetrating through the bottom plate is arranged on the bearing seat, the top of the rotating column is connected with a bevel gear II meshed with the bevel gear I, the bottom of the rotating column is connected with a disc positioned below the bottom plate, and three walking wheels arranged into a triangle are arranged at the bottom of the disc.

The edge of the bottom plate is provided with a supporting vertical plate, a vertical rotary disc is rotatably connected to the supporting vertical plate, the center of the rotary disc is connected with the center of the conical gear I through a transmission shaft, the edge of the disc surface of the rotary disc is provided with a limiting column, a strip-shaped driving plate is arranged on the outer side of the rotary disc in parallel, the driving plate is provided with a long strip-shaped notch which can be penetrated by the limiting column, a rotating shaft which is positioned right below the center of the turntable penetrates through the driving plate below the notch, the driving plate is rotationally connected to the supporting vertical plate through the rotating shaft, the bottom of the driving plate is provided with a sector plate, the arc surface of the sector plate is provided with teeth, the lower part of the edge of the bottom plate is connected with two sliding sleeves, sliding rods which are parallel to the rotary table and can slide back and forth in the sliding sleeves penetrate through the two sliding sleeves, the middle surface of the sliding rod is provided with a rack meshed with the teeth on the fan-shaped plate, and one end of the sliding rod, which is close to the ramming rod, is provided with a bulldozing plate.

The upper portion and the lower portion of the middle rod body penetrate into the cavity of the upper rod body and the cavity of the lower rod body respectively, the upper end and the lower end of the middle rod body are provided with an upper limiting rod and a lower limiting rod respectively, the upper limiting rod and the lower limiting rod penetrate through the upper guide groove and the lower guide groove respectively, and a spring is sleeved on the middle rod body.

The connecting column is positioned above the middle part of the transverse plate, the two ends of the transverse plate and the bottom of the connecting column are connected with inclined pull plates, the connecting column adopts a telescopic column which can be stretched up and down, and a buffer spring is sleeved on the connecting column.

One ends of two semicircular ring bodies of the hoop ring are hinged, and the other ends of the two semicircular ring bodies are butted and provided with lock catches.

The invention has the beneficial effects that: the device is installed on a power line pole only, the frequent movement of the position of the rammer pile is not needed, the ground is rammed uniformly and firmly, the potential danger of inclination is not easy to exist after the installation of the power engineering pole, the ramming efficiency is greatly improved, and the stability is high.

Drawings

FIG. 1 is a schematic structural diagram of the present invention.

Fig. 2 is a schematic structural view of the diagonal member of the present invention.

Fig. 3 is a schematic structural view of the vibration motor, the left side plate and the right side plate portion of the present invention.

FIG. 4 is a schematic structural view of the connecting side plate, connecting column, left side plate and right side plate portions of the present invention.

FIG. 5 is a schematic structural view of the walking trolley part of the invention.

Figure 6 is a schematic structural view of a sector plate portion of the present invention.

Fig. 7 is a schematic view of the structure of the slider embedded in the clip ring of the present invention.

Fig. 8 is a schematic structural view of a diagonal member according to the present invention.

Fig. 9 is a partial view of the clip ring of the present invention.

Fig. 10 is a schematic view of the structure of the road wheel portion of the present invention.

Wherein: 1 clamp ring, 2 connect the curb plate, 3 horizontal plates, 4 left plates, 5 right plates, 6 vibrating motor, 7 support horizontal poles, 8 rammed earth poles, 9 upper junction plates, 10 lower junction plates, 11 sliders, 12 diagonal draw bars, 13 walking trolleys, 15 connecting columns, 16 diagonal draw plates, 17 bottom plates, 18 stepping motors, 19 bevel gears I, 20 bevel gears II, 21 rotating columns, 22 discs, 23 walking wheels, 24 support risers, 25 turntables, 26 drive plates, 27 spacing columns, 28 sector plates, 29 sliding sleeves, 30 sliding rods, 31 bulldozing plates, 32 upper rod bodies, 33 middle rod bodies, 34 lower rod bodies, 35 upper guide grooves, 36 lower guide grooves, 37 upper spacing rods, 38 sliding grooves and 39 latches.

Detailed Description

The invention is described in further detail below with reference to the accompanying drawings:

as shown in fig. 1-5, a tamping device for an electric power engineering rod comprises a clamp ring 1, wherein the clamp ring 1 comprises two semi-circular ring bodies which are fastened and locked together, a connecting side plate 2 which extends vertically is arranged outside the circumferential surface of the clamp ring 1, the upper end of the connecting side plate 2 is connected with an upper connecting plate 9 which extends transversely above the upper end surface of the clamp ring 1, the lower end of the connecting side plate 2 is connected with a lower connecting plate 10 which extends transversely below the lower end surface of the clamp ring 1, the upper end surface and the lower end surface of the clamp ring 1 are both provided with circular sliding grooves 38, and the bottom of the upper connecting plate 9 and the top of the lower connecting plate 10 are both provided with sliding blocks 11 which are embedded in the sliding grooves 38 and can slide along the sliding grooves 38; a connecting column 15 is connected below the bottom of the lower connecting plate 10, a transverse plate 3 is connected below the connecting column 15, the left end and the right end of the transverse plate 3 are respectively connected with a left side plate 4 and a right side plate 5 which extend vertically and downwards, elongated guide grooves which extend vertically and are formed in the middles of the left side plate 4 and the right side plate 5, a vibration motor 6 is arranged between the left side plate 4 and the right side plate 5, the left side and the right side of the vibration motor 6 are respectively connected with a supporting transverse rod 7, the tail ends of the two supporting transverse rods 7 respectively extend into the guide grooves of the left side plate 4 and the right side plate 5, damping springs are respectively arranged between the supporting transverse rods 7 and the top of the guide grooves and between the supporting transverse rods 7 and the bottom of the guide grooves, and a vertical soil ramming rod 8 is connected below the vibration motor 6 in a driving manner; the outer side of the connecting side plate 2 is rotatably connected with a diagonal draw bar 12 which extends obliquely downwards, and the lower end of the diagonal draw bar 12 is connected with a walking trolley 13. The walking trolley 13 comprises a bottom plate 17, a stepping motor 18 is transversely arranged on the bottom plate 17, the stepping motor 18 is in driving connection with a vertical bevel gear I19, a bearing seat is arranged on the bottom plate 17, a vertical rotating column 21 penetrating through the bottom plate 17 is arranged on the bearing seat, the top of the rotating column 21 is connected with a bevel gear II 20 meshed with the bevel gear I19, the bottom of the rotating column 21 is connected with a disc 22 located below the bottom plate 17, and three walking wheels 23 arranged into a triangle are arranged at the bottom of the disc 22.

As shown in fig. 6-10, a supporting vertical plate 24 is disposed at the edge of the bottom plate 17, a vertical rotary plate 25 is rotatably connected to the supporting vertical plate 24, the center of the rotary plate 25 is connected to the center of the bevel gear i 19 through a transmission shaft, a limiting column 27 is disposed at the edge of the disk surface of the rotary plate 25, an elongated driving plate 26 is disposed in parallel at the outer side of the rotary plate 25, a notch which is elongated and can accommodate the limiting column 27 to pass through is formed in the driving plate 26, a rotating shaft located right below the center of the rotary plate 25 penetrates through the driving plate 26 below the notch, the driving plate 26 is rotatably connected to the supporting vertical plate 24 through the rotating shaft, a sector plate 28 is disposed at the bottom of the driving plate 26, teeth are disposed on the arc surface of the sector plate 28, two sliding sleeves 29 are connected below the edge of the bottom plate 17, a sliding rod 30 which is parallel to the rotary plate 25 and can slide back and forth in the sliding sleeves 29 is penetrated through the sliding rod 29, a rack which is engaged with the teeth on the sector plate 28 is disposed on the middle surface of the sliding rod 30, the end of the slide bar 30 adjacent to the tamper bar 8 is provided with a dozer plate 31. The diagonal draw bar 12 comprises an upper bar body 32, a middle bar body 33 and a lower bar body 34, an upper guide groove 35 which is long-strip-shaped is formed in the side wall of the upper bar body 32, a cavity is formed in the lower portion of the upper bar body 32, a lower guide groove 36 which is long-strip-shaped is formed in the side wall of the upper bar body 34, the cavity of the upper bar body 32 and the cavity of the lower bar body 34 are respectively penetrated by the upper portion and the lower portion of the middle bar body 33, an upper limiting rod 37 and a lower limiting rod are respectively vertically arranged at the upper end and the lower end of the middle bar body 33, the upper limiting rod 37 and the lower limiting rod respectively penetrate through the upper guide groove 35 and the lower guide groove 36, and a spring is sleeved on the middle bar body 33. The connecting column 15 is located above the middle of the transverse plate 3, the two ends of the transverse plate 3 and the bottom of the connecting column 15 are connected with inclined pull plates 16, the connecting column 15 is a telescopic column capable of stretching up and down, and a buffer spring is sleeved on the connecting column 15. One ends of two semicircular ring bodies of the hoop circular ring 1 are hinged, and the other ends of the two semicircular ring bodies are butted and provided with a lock catch 39.

The working principle is as follows: during the use, at first erect the power line pole in the pole hole, then open clamp ring 1, with two semi-circular ring body lock on the power line pole to the installation of device has been accomplished. The walking motor and the vibrating motor 6 are started, the walking motor drives the walking wheels 23 to rotate, so that the walking trolley 13 is driven to move, and the three walking wheels 23 arranged into a triangle are adopted, so that the sliders 11 on the upper connecting plate 9 and the lower connecting plate 10 are driven to slide along the upper sliding grooves 38 of the hoop circular ring 1 under the traction of the diagonal draw bar 12, so that the left side plate 4, the right side plate 5 and the vibrating motor 6 are driven to move around the power line pole. The walking motor on the walking trolley 13 drives the turntable 25 to rotate, so that the sector plate 28 on the lower portion of the driving plate 26 swings back and forth around the rotating shaft, and the transmission of the gear is adopted, so that the sliding rod 30 is driven to move back and forth, soil dug out around the rod pit is pushed into the rod pit, and then the soil compacting rod 8 connected with the vibrating motor 6 vibrates up and down in the rod pit, so that the soil around the bottom of the power line rod in the rod pit is compacted, the vibrating motor 6 continuously compacts around the power line rod in the uniform speed running process, the stability is greatly improved, and the efficiency is improved. The diagonal draw bar 12 adopts a telescopic mechanism, so that the position of the walking trolley 13 can be conveniently adjusted, obstacles around a pole pit are avoided, and a buffering effect can be provided for the walking trolley 13 when the walking trolley encounters a pothole uneven road surface around the pole pit.

The foregoing is only a preferred embodiment of this patent, and it should be noted that, for those skilled in the art, various modifications and substitutions can be made without departing from the technical principle of this patent, and these modifications and substitutions should also be regarded as the protection scope of this patent.

Claims (6)

1. The utility model provides a power engineering is tamping unit for pole which characterized in that: the clamp ring comprises a clamp ring, wherein the clamp ring comprises two semicircular ring bodies which are buckled and locked together, a connecting side plate which extends vertically is arranged on the outer side of the circumferential surface of the clamp ring, the upper end of the connecting side plate is connected with an upper connecting plate which extends transversely above the upper end surface of the clamp ring, the lower end of the connecting side plate is connected with a lower connecting plate which extends transversely below the lower end surface of the clamp ring, the upper end surface and the lower end surface of the clamp ring are both provided with a circular sliding groove, and sliding blocks which are embedded into the sliding grooves and can slide along the sliding grooves are arranged at the bottom of the upper connecting plate and at the top of the lower connecting plate; the bottom of the lower connecting plate is connected with a connecting column, the lower part of the connecting column is connected with a transverse plate, the left end and the right end of the transverse plate are respectively connected with a left side plate and a right side plate which extend vertically and downwards, the middle parts of the left side plate and the right side plate are both provided with elongated guide grooves which extend vertically, a vibration motor is arranged between the left side plate and the right side plate, the left side and the right side of the vibration motor are both connected with supporting transverse rods, the tail ends of the two supporting transverse rods respectively extend into the guide grooves of the left side plate and the right side plate, damping springs are arranged between the supporting transverse rods and the tops of the guide grooves and between the supporting transverse rods and the bottoms of the guide grooves, and vertical soil ramming rods are connected under the vibration motor in a driving manner; the outer side of the connecting side plate is rotatably connected with an inclined pull rod extending obliquely downwards, and the lower end of the inclined pull rod is connected with a walking trolley.

2. The compaction device for an electric engineering rod according to claim 1, wherein: the walking trolley comprises a bottom plate, a stepping motor is transversely arranged on the bottom plate, the stepping motor is in driving connection with a vertical bevel gear I, a bearing seat is arranged on the bottom plate, a vertical rotating column penetrating through the bottom plate is arranged on the bearing seat, the top of the rotating column is connected with a bevel gear II meshed with the bevel gear I, the bottom of the rotating column is connected with a disc located below the bottom plate, and three walking wheels arranged into a triangle are arranged at the bottom of the disc.

3. The compaction device for an electric engineering rod according to claim 2, wherein: the edge of the bottom plate is provided with a supporting vertical plate, the supporting vertical plate is rotatably connected with a vertical rotary table, the center of the rotary table is connected with the center of the conical gear I through a transmission shaft, the edge of the disc surface of the rotary table is provided with a limiting column, the outer side of the rotary table is provided with a strip-shaped driving plate in parallel, the driving plate is provided with a long strip-shaped notch which can be penetrated by the limiting column, a rotating shaft which is positioned right below the center of the turntable penetrates through the driving plate below the notch, the driving plate is rotationally connected to the supporting vertical plate through the rotating shaft, the bottom of the driving plate is provided with a sector plate, the arc surface of the sector plate is provided with teeth, the lower part of the edge of the bottom plate is connected with two sliding sleeves, sliding rods which are parallel to the rotary table and can slide back and forth in the sliding sleeves penetrate through the two sliding sleeves, the middle surface of the sliding rod is provided with a rack meshed with the teeth on the fan-shaped plate, and one end of the sliding rod, which is close to the ramming rod, is provided with a bulldozing plate.

4. The compaction device for an electric engineering rod according to claim 1, wherein: the oblique pull rod includes the body of rod, well body of rod and lower body of rod, it has the last guide way of rectangular shape to open on the lateral wall of the body of rod to go up inside cavity and the body of rod of being provided with down under the body of rod, and the inside lower guide way that has a rectangular shape of opening on the lateral wall that is provided with the cavity and the body of rod down on the body of rod down, and the upper portion and the lower part of the body of rod penetrate in the cavity of the body of rod and the cavity of the body of rod down respectively, and the upper and lower both ends of the body of rod have last guide way and lower stop lever respectively perpendicularly, go up the stop lever and pass through guide way and lower guide way respectively with lower stop lever, and the cover has the spring on the body of rod.

5. The compaction device for an electric engineering rod according to claim 1, wherein: the connecting column is located above the middle of the transverse plate, the two ends of the transverse plate and the bottom of the connecting column are connected with inclined pull plates, the connecting column is a telescopic column capable of stretching up and down, and a buffer spring is sleeved on the connecting column.

6. The compaction device for an electric engineering rod according to claim 1, wherein: one ends of two semicircular ring bodies of the hoop ring are hinged, and the other ends of the two semicircular ring bodies are butted and provided with lock catches.

Images