LU101995B1 - Spliced pavement construction equipment - Google Patents
Spliced pavement construction equipment Download PDFInfo
- Publication number
- LU101995B1 LU101995B1 LU101995A LU101995A LU101995B1 LU 101995 B1 LU101995 B1 LU 101995B1 LU 101995 A LU101995 A LU 101995A LU 101995 A LU101995 A LU 101995A LU 101995 B1 LU101995 B1 LU 101995B1
- Authority
- LU
- Luxembourg
- Prior art keywords
- fixed frame
- vibrating
- disposed
- guide
- troweling
- Prior art date
Links
Classifications
-
- E—FIXED CONSTRUCTIONS
- E01—CONSTRUCTION OF ROADS, RAILWAYS, OR BRIDGES
- E01C—CONSTRUCTION OF, OR SURFACES FOR, ROADS, SPORTS GROUNDS, OR THE LIKE; MACHINES OR AUXILIARY TOOLS FOR CONSTRUCTION OR REPAIR
- E01C19/00—Machines, tools or auxiliary devices for preparing or distributing paving materials, for working the placed materials, or for forming, consolidating, or finishing the paving
- E01C19/22—Machines, tools or auxiliary devices for preparing or distributing paving materials, for working the placed materials, or for forming, consolidating, or finishing the paving for consolidating or finishing laid-down unset materials
Landscapes
- Engineering & Computer Science (AREA)
- Architecture (AREA)
- Civil Engineering (AREA)
- Structural Engineering (AREA)
- Road Paving Machines (AREA)
Abstract
The present invention discloses spliced pavement construction equipment, including a fixed frame, where movable parts are symmetrically distributed below the fixed frame, first hydraulic cylinders are symmetrically distributed on the fixed frame, a vibrating part is disposed on the fixed frame, a second hydraulic cylinder is disposed on the vibrating part, a first vibration motor is disposed on the vibrating part, a driven roller is rotatably disposed inside the fixed frame, a troweling part is disposed below the fixed frame, and a second vibration motor is disposed on the troweling part; and the vibrating part includes a vibrating frame, a support pillar is disposed below the vibrating frame, vibrating rods are distributed as an array in the support pillar, and a first elastic part is disposed below the vibrating frame. The construction equipment of the present invention adjusts heights of the vibrating rods and the troweling part through the hydraulic cylinders. The vibration motor drives the vibrating rods and the troweling part to vibrate. A high mixing degree of the concrete reduces internal cavities and ensures smoothness of the pavement, leading to a good troweling effect and high efficiency.
Description
P100550LU00 | ; LU101995 ; Technical Field | The present invention relates to construction equipment, and specifically, to spliced | pavement construction equipment. | Related Art | Concrete is the most common material used in construction projects in the present | society. Usually pavement is paved with concrete, and the concrete poured on the | pavement needs to be pressed to be smooth by using troweling equipment. However, | existing troweling equipment mostly needs to be manually held by staff, resulting in high | labor intensity, low working efficiency, and a disadvantage in mobile operations. Since a | height cannot be adjusted, it is difficult to use the troweling equipment in different road . sections. Because vibrations of the troweling equipment are undiversified, a troweling | effect is power, cavities are likely to appear inside the concrete, and quality is power. |.
SUMMARY ; An objective of the present invention is to provide spliced pavement construction | equipment. A first hydraulic cylinder drives a driven roller and a troweling part to move. .
À second hydraulic cylinder pushes a vibrating rod to move down. À first vibration motor f and a second vibration motor drive the vibrating rod and the troweling part to vibrate, .
leading to convenient operations. The vibrating rod makes concrete fully mixed to avoid | generation of internal cavities, and the troweling part vibrates and trowels the concrete to | ensure the smoothness of pavement, leading to a good troweling effect and high ; efficiency. | The objective of the present invention may be implemented through the following | technical solutions: | Spliced pavement construction equipment is provided, including a fixed frame, where | movable parts are symmetrically distributed below the fixed frame, first hydraulic | cylinders are symmetrically distributed on the fixed frame, a vibrating part is disposed on | the fixed frame, a second hydraulic cylinder is disposed on the vibrating part, a first | vibration motor is disposed on the vibrating part, a driven roller is rotatably disposed © inside the fixed frame, a troweling part is disposed below the fixed frame, and a second . vibration motor is disposed on the troweling part. .
The fixed frame includes a fixed frame body, and a scraper is obliquely disposed on ; the fixed frame body. | The vibrating part includes a vibrating frame, a support pillar is disposed below the | vibrating frame, vibrating rods are distributed as an array in the support pillar, and a first | elastic part is disposed below the vibrating frame. . Further, a rotary connection hole is disposed on the fixed frame body, a first guide | hole is provided in the fixed frame body, and first guide blocks are symmetrically | distributed on the fixed frame body. | Further, the driven roller, through a roller, cooperates with the rotary connection hole | to be rotatably connected to the fixed frame, and the first hydraulic cylinder is firmly | connected to the fixed frame body. | Further, the movable part includes a fixed plate, a wheel hub is disposed below the | fixed plate, a second guide block is disposed on the fixed plate, the movable part, through | the second guide block, cooperates with the first guide hole to be slidably connected to .
the fixed frame, and an output shaft of the first hydraulic cylinder passes through the | fixed frame body and is firmly connected to the fixed plate. | Further, a sliding connection hole is provided in the vibrating frame, third guide holes | are distributed as an array in the vibrating frame, and second guide holes are | symmetrically distributed in the vibrating frame. | Further, one end of the first elastic part is firmly connected to the vibrating frame, the | other end is firmly connected to the fixed frame body, the vibrating rods cooperate with | the third guide holes, the support pillar slides in the sliding connection hole, the second | hydraulic cylinder is firmly connected to the vibrating frame, an output shaft of the | second hydraulic cylinder passes through the vibrating frame and is firmly connected to | the support pillar, the first vibration motor is firmly connected to a support block, and the | fixed frame, through the first guide block, cooperates with the second guide hole to be | slidably connected to the vibrating part. . Further, the troweling part includes a baseplate, a guide pillar is disposed on the | baseplate, one end of the guide pillar is firmly connected to the baseplate, the other end is | firmly connected to a bearing plate, a second elastic part is sleeved on the guide pillar, | one end of the second elastic part is firmly connected to the baseplate, the other end is . firmly connected to the fixed frame body, the guide pillar is slidably connected to the |
P100550LU00 | fixed frame body, and the second vibration motor is firmly connected to the bearing plate. | The present invention has the following beneficial effects: |
1. The construction equipment of the present invention is easy to operate. The | vibrating rod makes the concrete fully mixed. A high mixing degree avoids generation of | internal cavities. After the driven roller trowels the mixed concrete for the first time, the © troweling part vibrates to trowel the concrete again to ensure smoothness of the pavement, | leading to a good troweling effect and high efficiency. .
2. The scraper of the construction equipment of the present invention effectively |! scrapes the concrete adhered to the driven roller to prevent adhesion and blockage. The .
height of the movable part is adjustable, and the movable part does not need to be held, | and can be convenient moved, thereby reducing labor intensity of the staff. | The present invention is further described below with reference to the accompanying | drawings. | FIG. 1 is a schematic structural diagram of construction equipment of the present | invention; | FIG. 2 is a schematic structural diagram of a fixed frame of the present invention; | FIG. 3 is a schematic partial structural diagram of construction equipment of the | present invention; and | FIG. 4 is a schematic structural diagram of a troweling part of the present invention. | DETAILED DESCRIPTION |: The following clearly and completely describes the technical solutions in the | embodiments of the present invention with reference to the accompanying drawings in the | embodiments of the present invention. Apparently, the described embodiments are some | of rather than all of the embodiments of the present invention. All other embodiments | obtained by a person of ordinary skill in the art based on the embodiments of the present | invention without creative effects shall fall within the protection scope of the present | invention. | Spliced pavement construction equipment is provided, including a fixed frame 1. As | shown in FIG. 1, movable parts 2 are symmetrically distributed below the fixed frame 1, | first hydraulic cylinders 3 are symmetrically distributed on the fixed frame 1, a vibrating .
part 4 is disposed on the fixed frame 1, a second hydraulic cylinder 5 is disposed on the | vibrating part 4, a first vibration motor 6 is disposed on the vibrating part 4, a driven | roller 7 is rotatably disposed inside the fixed frame 1, a troweling part 8 is disposed below | the fixed frame 1, and a second vibration motor 9 is disposed on the troweling part 8. | The fixed frame 1 includes a fixed frame body 11. As shown in FIG. 2, a scraper 14 .
is obliquely disposed on the fixed frame body 11, a rotary connection hole 15 is provided | in the fixed frame body 11, a first guide hole 16 is provided in the fixed frame body 11, | first guide blocks 18 are symmetrically distributed on the fixed frame body 11, the driven | roller 7, through a roller, cooperates with the rotary connection hole 15 to be rotatably | connected to the fixed frame 1, and the first hydraulic cylinder 3 is firmly connected to | the fixed frame body 11. | The movable part 2 includes a fixed plate 21. As shown in FIG. 1, a wheel hub 22 is | disposed below the fixed plate 21, a second guide block 23 is disposed on the fixed plate | 21, the movable part 2, through the second guide block 23, cooperates with the first guide È hole 16 to be slidably connected to the fixed frame 1, and an output shaft of the first | hydraulic cylinder 3 passes through the fixed frame body 11 and is firmly connected to | the fixed plate 21. | The vibrating part 4 includes a vibrating frame 41. As shown in FIG. 3, a sliding | connection hole 42 is provided in the vibrating frame 41, a support pillar 43 is disposed | below the vibrating frame 41, vibrating rods 44 are distributed as an array in the support .
pillar 43, third guide holes 46 are distributed as an array in the vibrating frame 41, second | guide holes 48 are symmetrically distributed in the vibrating frame 41, a first elastic part ; 49 is disposed below the vibrating frame 41, one end of the first elastic part 49 is firmly || connected to the vibrating frame 41, the other end is firmly connected to the fixed frame | body 11, the vibrating rods 44 cooperate with the third guide holes 46, the support pillar | 43 slides in the sliding connection hole 42, the second hydraulic cylinder 5 is firmly | connected to the vibrating frame 41, an output shaft of the second hydraulic cylinder 5 | passes through the vibrating frame 41 and is firmly connected to the support pillar 43, the | first vibration motor 6 is firmly connected to a support block 47, and the fixed frame 1, | through the first guide block 18, cooperates with the second guide hole 48 to be slidably | connected to the vibrating part 4. | The troweling part 8 includes a baseplate 81. As shown in FIG 4, a guide pillar 83 is | disposed on the baseplate 81, one end of the guide pillar 83 is firmly connected to the |
LU101995 | baseplate 81, the other end is firmly connected to a bearing plate 84, a second elastic part © 85 is sleeved on the guide pillar 83, one end of the second elastic part 85 is firmly | connected to the baseplate 81, the other end is firmly connected to the fixed frame body | 11, the guide pillar 83 is slidably connected to the fixed frame body 11, and the second .
5 vibration motor 9 is firmly connected to the bearing plate 84. . During use, the first hydraulic cylinder 3 pushes the fixed frame 1 to move vertically. .
The fixed frame 1 drives the driven roller 7 and the troweling part 8 to move. The second | hydraulic cylinder 5 pushes the vibrating rod 44 to move down. The first vibration motor | 6 and the second vibration motor 9 are started to drive the vibrating rod 44 and the | troweling part 8 to vibrate. The staff pushes a handrail to move the equipment. The | construction equipment is easy to operate. A high mixing degree of the concrete avoids | generation of internal cavities, leading to a good troweling effect, high efficiency, and | low labor intensity. .
In description of the present invention, description of reference terms such as "an .
embodiment", "an exemplary", or "a specific example", means including specific features, | structures, materials, or features described in the embodiment or example in at least one | embodiment or example of the present invention. In this specification, schematic | descriptions of the foregoing terms do not necessarily directed at a same embodiment or | example. In addition, the described specific features, structures, materials, or | characteristics may be combined in an appropriate manner in any one or more | embodiments or examples. | The foregoing shows and describes the basic principles of the present invention, main .
features, and advantages of the present invention. It is to be understood by a person | skilled in the art that the foregoing embodiments does not limit the present invention. | What described in the foregoing embodiments and specification only explains the | principles of the present invention. Any change and modification of the present invention | made without departing from the spirit and scope of the present invention shall fall within | the scope of the present invention that is claimed to be protected. |
Claims (7)
1. Spliced pavement construction equipment, comprising a fixed frame (1), wherein ; movable parts (2) are symmetrically distributed below the fixed frame (1), first hydraulic .
cylinders (3) are symmetrically distributed on the fixed frame (1), a vibrating part (4) is | disposed on the fixed frame (1), a second hydraulic cylinder (5) is disposed on the \ vibrating part (4), a first vibration motor (6) is disposed on the vibrating part (4), a driven .
roller (7) is rotatably disposed inside the fixed frame (1), a troweling part (8) is disposed | below the fixed frame (1), and a second vibration motor (9) is disposed on the troweling ; the fixed frame (1) comprises a fixed frame body (11), and a scraper (14) is .
obliquely disposed on the fixed frame body (11); and | the vibrating part (4) comprises a vibrating frame (41), a support pillar (43) is | disposed below the vibrating frame (41), vibrating rods (44) are distributed as an array in | the support pillar (43), and a first elastic part (49) is disposed below the vibrating frame |
2. The spliced pavement construction equipment according to claim 1, wherein a | rotary connection hole (15) is provided in the fixed frame body (11), a first guide hole (16) | is provided in the fixed frame body (11), and first guide blocks (18) are symmetrically | distributed on the fixed frame body (11). |
3. The spliced pavement construction equipment according to claim 2, wherein the .
driven roller (7), through a roller, cooperates with the rotary connection hole (15) to be | rotatably connected to the fixed frame (1), and the first hydraulic cylinder (3) is firmly | connected to the fixed frame body (11). |
4. The spliced pavement construction equipment according to claim 2, wherein the | movable part (2) comprises a fixed plate (21), a wheel hub (22) is disposed below the | fixed plate (21), a second guide block (23) is disposed on the fixed plate (21), the | movable part (2), through the second guide block (23), cooperates with the first guide | hole (16) to be slidably connected to the fixed frame (1), and an output shaft of the first | hydraulic cylinder (3) passes through the fixed frame body (11) and is firmly connected to | the fixed plate (21). |
5. The spliced pavement construction equipment according to claim 2, wherein a |
, LU101995 | sliding connection hole (42) is provided in the vibrating frame (41), third guide holes (46) Ê are distributed as an array in the vibrating frame (41), and second guide holes (48) are | symmetrically distributed in the vibrating frame (41). |
6. The spliced pavement construction equipment according to claim 5, wherein one | end of the first elastic part (49) is firmly connected to the vibrating frame (41), the other | end is firmly connected to the fixed frame body (11), the vibrating rods (44) cooperate with the third guide holes (46), the support pillar (43) slides in the sliding connection hole | (42), the second hydraulic cylinder (5) is firmly connected to the vibrating frame (41), an . output shaft of the second hydraulic cylinder (5) passes through the vibrating frame (41) | and is firmly connected to the support pillar (43), the first vibration motor (6) is firmly | connected to a support block (47), and the fixed frame (1), through the first guide block | (18), cooperates with the second guide hole (48) to be slidably connected to the vibrating © part (4). |
7. The spliced pavement construction equipment according to claim 1, wherein the | troweling part (8) comprises a baseplate (81), a guide pillar (83) is disposed on the | baseplate (81), one end of the guide pillar (83) is firmly connected to the baseplate (81), | the other end is firmly connected to a bearing plate (84), a second elastic part (85) is | sleeved on the guide pillar (83), one end of the second elastic part (85) is firmly connected to the baseplate (81), the other end is firmly connected to the fixed frame body | (11), the guide pillar (83) is slidably connected to the fixed frame body (11), and the | second vibration motor (9) is firmly connected to the bearing plate (84). |
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
LU101995A LU101995B1 (en) | 2020-08-21 | 2020-08-21 | Spliced pavement construction equipment |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
LU101995A LU101995B1 (en) | 2020-08-21 | 2020-08-21 | Spliced pavement construction equipment |
Publications (1)
Publication Number | Publication Date |
---|---|
LU101995B1 true LU101995B1 (en) | 2021-03-08 |
Family
ID=74858097
Family Applications (1)
Application Number | Title | Priority Date | Filing Date |
---|---|---|---|
LU101995A LU101995B1 (en) | 2020-08-21 | 2020-08-21 | Spliced pavement construction equipment |
Country Status (1)
Country | Link |
---|---|
LU (1) | LU101995B1 (en) |
-
2020
- 2020-08-21 LU LU101995A patent/LU101995B1/en active IP Right Grant
Similar Documents
Publication | Publication Date | Title |
---|---|---|
CN108221627B (en) | Robot | |
CN111636277A (en) | Tamping and leveling device for building concrete laying | |
LU101995B1 (en) | Spliced pavement construction equipment | |
CN213142720U (en) | Concrete is paved with paving device convenient to | |
JPS6043571A (en) | Concrete compacting and solidifying method | |
CN116330434A (en) | Concrete vibrating equipment and using method | |
CN215094494U (en) | Full-automatic production line of 3D mode prestressing force panel | |
CN111778815A (en) | Concatenation formula road surface construction equipment | |
CN214143167U (en) | Floating device of building construction | |
CN213927535U (en) | A concrete vibrator for being convenient for adjust | |
CN212743411U (en) | Cement for construction levels device | |
CN209854664U (en) | Concrete paving flatness adjusting device | |
CN212266145U (en) | Concrete placement mould for bridge design | |
CN211006254U (en) | Town road construction device of levelling that shakes | |
US20160067885A1 (en) | Extendable vibratory implement for working concrete | |
CN220634618U (en) | Concrete vibrating pulverizer for building construction | |
CN210369943U (en) | Ultrathin concrete vibrating and shaping device | |
CN113107210A (en) | Civil engineering construction is with supplementary handle of concrete structure that vibrates | |
CN113338122A (en) | Concrete vibrating device for highway engineering | |
CN218989811U (en) | Concrete paving device for municipal road construction | |
CN218027049U (en) | Ultrathin finish coat laying device for warm-mixed asphalt concrete | |
CN221095888U (en) | Vibration leveling device for construction of concrete pavement layer | |
CN219315428U (en) | Concrete vibrating device | |
CN215405447U (en) | Concrete vibrating device for municipal highway engineering | |
CN214195590U (en) | Concrete vibrating device for building construction |
Legal Events
Date | Code | Title | Description |
---|---|---|---|
FG | Patent granted |
Effective date: 20210308 |