CN211899702U

CN211899702U - Concrete tiling device for civil engineering construction

Info

Publication number: CN211899702U
Application number: CN202020204459.4U
Authority: CN
Inventors: 马滢; 马中军; 王爽
Original assignee: Shenzhen Runhyuan Construction Engineering Co ltd
Current assignee: Shenzhen Runhyuan Construction Engineering Co ltd
Priority date: 2020-02-25
Filing date: 2020-02-25
Publication date: 2020-11-10
Anticipated expiration: 2030-02-25

Abstract

The utility model discloses a concrete tiling device for civil engineering construction, including tiling device roof beam structure, drive flattening mechanism, vibration mechanism, the even mechanism of concrete screw, tiling forming mechanism, tiling device roof beam structure lower part is provided with the drive flattening mechanism, tiling device roof beam structure upper portion is provided with vibration mechanism, tiling device roof beam structure front portion is provided with the even mechanism of concrete screw, tiling device roof beam structure rear portion is provided with tiling forming mechanism. Has the advantages that: through drive flattening mechanism realizes that the device advances automatically and the compressing tightly of concrete, through vibration mechanism realizes the vibration in order to eliminate the bubble to the concrete, makes the concrete firm, through concrete spiral levelling mechanism makes uneven before the device and the concrete that does not spread out pave, through tiling forming mechanism tiles and rules out the concrete, improves the tiling quality, improves work efficiency, uses manpower sparingly.

Description

Concrete tiling device for civil engineering construction

Technical Field

The utility model relates to a machinery tiling equipment design field especially relates to concrete tiling device for civil engineering construction.

Background

Concrete tiling device is widely used in civil engineering construction, the concrete tiling that will not take shape becomes the plane follow-up construction of being convenient for, to concrete tiling need pass through vibration operation, make the air in the concrete extruded discharge, make the concrete firmer, traditional concrete tiling device adopts simple and easy vibrating device more, use gyro wheel or scraping plate to carry out the tiling of concrete, the removal of device needs artifical the propulsion, work efficiency is low, concrete tiling quality is poor.

SUMMERY OF THE UTILITY MODEL

The utility model aims at providing a concrete tiling device for civil engineering construction in order to solve above-mentioned problem.

The utility model discloses a following technical scheme realizes above-mentioned purpose:

concrete tiling device for civil engineering construction, including tiling device roof beam structure, drive flattening mechanism, vibration mechanism, concrete spiral uniform mechanism, tiling forming mechanism, tiling device roof beam structure lower part is provided with the drive flattening mechanism, tiling device roof beam structure upper portion is provided with vibration mechanism, tiling device roof beam structure front portion is provided with concrete spiral uniform mechanism, tiling device roof beam structure rear portion is provided with tiling forming mechanism.

Preferably, the tiling device roof beam structure includes the roof beam structure girder, a supporting beam is connected at roof beam structure girder rear portion, the curb plate is connected to roof beam structure girder both sides, curb plate one side joint support board, fixed curb plate is connected to the backup pad lower part, the roof beam structure girder passes through welded connection a supporting beam, the curb plate passes through welded connection the roof beam structure girder, the backup pad passes through welded connection the curb plate, fixed curb plate passes through welded connection the backup pad.

Preferably, the drive mechanism of flattening includes driving motor, the belt is connected to the driving motor front portion, the reduction gear is connected to the belt rear side, chain is connected to reduction gear one side, the gyro wheel is connected to the chain lower extreme, driving motor passes through the belt is connected the reduction gear, the reduction gear passes through the chain is connected the gyro wheel.

Preferably, the vibration mechanism includes vibrating motor, vibrating reducer is connected to the vibrating motor front portion, the connecting axle is connected to vibrating reducer both sides, be provided with eccentric pouring weight on the connecting axle, vibrating motor passes through the transmission shaft and connects vibrating reducer, eccentric pouring weight is through welded connection the connecting axle.

Preferably, concrete spiral uniformization mechanism includes first regulation track, first regulation track one side is provided with first pneumatic cylinder, the even sword of spiral is connected to first pneumatic cylinder one side, the inside first hydraulic stem that is provided with of first pneumatic cylinder, first connecting block is connected on first hydraulic stem upper portion, first regulation track sliding connection first pneumatic cylinder, first pneumatic cylinder passes through the bearing and connects the even sword of spiral, first hydraulic stem sliding connection first pneumatic cylinder, first connecting block is through welded connection first hydraulic stem.

Preferably, tiling forming mechanism includes the second and adjusts the track, the second pneumatic cylinder is connected to second regulation track one side, the board is spread in the connection of second pneumatic cylinder one side, the inside second hydraulic cylinder that is provided with, second connecting block is connected on second hydraulic cylinder upper portion, track sliding connection is adjusted to the second pneumatic cylinder, the second pneumatic cylinder passes through welded connection the board is spread, second hydraulic cylinder sliding connection the second pneumatic cylinder, the second connecting block is through welded connection the second hydraulic cylinder.

Preferably, tiling forming mechanism includes the second and adjusts the track, the second pneumatic cylinder is connected to second regulation track one side, drawing line wheel is connected to second pneumatic cylinder one side, the inside second hydraulic cylinder that is provided with, second hydraulic cylinder upper portion connects the second connecting block, track sliding connection is adjusted to the second pneumatic cylinder, the second pneumatic cylinder passes through the bearing and connects drawing line wheel, second hydraulic cylinder sliding connection the second pneumatic cylinder, the second connecting block is through welded connection the second hydraulic cylinder.

In the structure, driving motor passes through the belt gives power to the reduction gear, the reduction gear passes through after slowing down chain drive the gyro wheel, gyro wheel realization device advance and to compressing tightly of concrete, vibrating motor passes through vibration reduction gear reduction drive the connecting axle is rotatory, the connecting axle drives the rotatory vibration of making of eccentric pouring weight, the even sword of spiral passes through first regulation track with first pneumatic cylinder height of adjustment, the rotatory even concrete of the even sword of spiral, it passes through to spread the flat board the second regulation track with second pneumatic cylinder height of adjustment, it tiles the concrete to spread the flat board, it passes through to draw the line wheel the second regulation track with second pneumatic cylinder height of adjustment, the setting-out wheel is drawn a line to the concrete.

Has the advantages that: through drive flattening mechanism realizes that the device advances automatically and the compressing tightly of concrete, through vibration mechanism realizes the vibration in order to eliminate the bubble to the concrete, makes the concrete firm, through concrete spiral levelling mechanism makes uneven before the device and the concrete that does not spread out pave, through tiling forming mechanism tiles and rules out the concrete, improves the tiling quality, improves work efficiency, uses manpower sparingly.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings needed to be used in the description of the embodiments or the prior art will be briefly described below, it is obvious that the drawings in the following description are only some embodiments of the present invention, and for those skilled in the art, other drawings can be obtained according to these drawings without inventive exercise.

Fig. 1 is a first perspective view of concrete paving apparatus for civil engineering construction according to embodiment 1 of the present invention;

fig. 2 is a second perspective view of concrete spreading device for civil engineering construction according to embodiment 1 of the present invention;

fig. 3 is a first perspective view of concrete spreading device for civil engineering construction according to embodiment 2 of the present invention;

fig. 4 is a second perspective view of concrete tiling device for civil engineering construction embodiment 2.

The reference numerals are explained below: 1. a beam frame of a tiling device; 2. driving a flattening mechanism; 3. a vibration mechanism; 4. a concrete spiral homogenizing mechanism; 5. a flat laying forming mechanism; 101. a beam frame main beam; 102. a support beam; 103. a side plate; 104. a support plate; 105. fixing the side plate; 201. a drive motor; 202. a belt; 203. a speed reducer; 204. a chain; 205. a roller; 301. a vibration motor; 302. a vibration reducer; 303. a connecting shaft; 304. an eccentric weight; 401. a first adjustment track; 402. a first hydraulic cylinder; 403. a spiral uniform cutter; 404. a first hydraulic lever; 405. a first connection block; 501. a second adjustment track; 502. a second hydraulic cylinder; 503. paving a flat plate; 504. a line drawing wheel; 505. a second hydraulic rod; 506. and a second connecting block.

Detailed Description

The present invention will be further explained with reference to the accompanying drawings.

Example 1

As shown in fig. 1 and 2, the concrete tiling device for civil engineering construction comprises a tiling device beam frame 1, a driving flattening mechanism 2, a vibration mechanism 3, a concrete spiral leveling mechanism 4 and a tiling forming mechanism 5, wherein the driving flattening mechanism 2 is arranged on the lower portion of the tiling device beam frame 1, the vibration mechanism 3 is arranged on the upper portion of the tiling device beam frame 1, the concrete spiral leveling mechanism 4 is arranged on the front portion of the tiling device beam frame 1, and the tiling forming mechanism 5 is arranged on the rear portion of the tiling device beam frame 1.

Preferably, the tiling device beam frame 1 comprises a beam frame main beam 101, the rear part of the beam frame main beam 101 is connected with a support beam 102, two sides of the beam frame main beam 101 are connected with side plates 103, one side of each side plate 103 is connected with a support plate 104, the lower part of each support plate 104 is connected with a fixed side plate 105, the beam frame main beam 101 is connected with the support beam 102 by welding, the side plates 103 are connected with the beam frame main beam 101 by welding, the support plates 104 are connected with the side plates 103 by welding, the fixed side plates 105 are connected with the support plates 104 by welding, the driving flattening mechanism 2 comprises a driving motor 201, the front part of the driving motor 201 is connected with a belt 202, the rear side of the belt 202 is connected with a speed reducer 203, one side of the speed reducer 203 is connected with a chain 204, the lower end of the chain 204, the two sides of the vibration reducer 302 are connected with a connecting shaft 303, an eccentric weight 304 is arranged on the connecting shaft 303, a vibration motor 301 is connected with the vibration reducer 302 through a transmission shaft, the eccentric weight 304 is connected with the connecting shaft 303 through welding, the concrete spiral leveling mechanism 4 comprises a first adjusting track 401, a first hydraulic cylinder 402 is arranged on one side of the first adjusting track 401, a spiral leveling knife 403 is connected on one side of the first hydraulic cylinder 402, a first hydraulic rod 404 is arranged inside the first hydraulic cylinder 402, the upper part of the first hydraulic rod 404 is connected with a first connecting block 405, the first adjusting track 401 is connected with the first hydraulic cylinder 402 in a sliding manner, the first hydraulic cylinder 402 is connected with the spiral leveling knife 403 through a bearing, the first hydraulic rod 404 is connected with the first hydraulic cylinder 402 in a sliding manner, the first connecting block 405 is connected with the first hydraulic rod 404 through welding, the tiling forming mechanism 5 comprises a second adjusting track 501, one side, one side of the second hydraulic cylinder 502 is connected with a paving plate 503, a second hydraulic rod 505 is arranged inside the second hydraulic cylinder 502, the upper part of the second hydraulic rod 505 is connected with a second connecting block 506, the second adjusting track 501 is connected with the second hydraulic cylinder 502 in a sliding mode, the second hydraulic cylinder 502 is connected with the paving plate 503 through welding, the second hydraulic rod 505 is connected with the second hydraulic cylinder 502 in a sliding mode, and the second connecting block 506 is connected with the second hydraulic rod 505 through welding.

In the structure, the driving motor 201 transmits power to the speed reducer 203 through the belt 202, the speed reducer 203 drives the roller 205 through the chain 204 after speed reduction, the roller 205 realizes advancing of the device and compressing of concrete, the vibration motor 301 drives the connecting shaft 303 to rotate through the speed reduction of the vibration speed reducer 302, the connecting shaft 303 drives the eccentric weight block 304 to rotate to make vibration, the height of the spiral homogenizing knife 403 is adjusted through the first adjusting track 401 and the first hydraulic cylinder 402, the height of the spiral homogenizing knife 403 is adjusted through the second adjusting track 501 and the second hydraulic cylinder 502, and the paving plate 503 tiles the concrete.

Example 2

As shown in fig. 3, 4, concrete tiling device for civil engineering construction is provided with drive flattening mechanism 2 including tiling device roof beam structure 1, drive flattening mechanism 2, vibration mechanism 3, concrete spiral uniformizing mechanism 4, tiling forming mechanism 5 below the tiling device

roof beam structure

1, and 1 upper portion of tiling device roof beam structure is provided with

vibration mechanism

3, and 1 front portion of tiling device roof beam structure is provided with concrete

spiral uniformizing mechanism

4, and 1 rear portion of tiling device roof beam structure is provided with tiling forming mechanism 5.

Preferably, the tiling device beam frame 1 comprises a beam frame main beam 101, the rear part of the beam frame main beam 101 is connected with a support beam 102, two sides of the beam frame main beam 101 are connected with side plates 103, one side of each side plate 103 is connected with a support plate 104, the lower part of each support plate 104 is connected with a fixed side plate 105, the beam frame main beam 101 is connected with the support beam 102 by welding, the side plates 103 are connected with the beam frame main beam 101 by welding, the support plates 104 are connected with the side plates 103 by welding, the fixed side plates 105 are connected with the support plates 104 by welding, the driving flattening mechanism 2 comprises a driving motor 201, the front part of the driving motor 201 is connected with a belt 202, the rear side of the belt 202 is connected with a speed reducer 203, one side of the speed reducer 203 is connected with a chain 204, the lower end of the chain 204, the two sides of the vibration reducer 302 are connected with a connecting shaft 303, an eccentric weight 304 is arranged on the connecting shaft 303, a vibration motor 301 is connected with the vibration reducer 302 through a transmission shaft, the eccentric weight 304 is connected with the connecting shaft 303 through welding, the concrete spiral leveling mechanism 4 comprises a first adjusting track 401, a first hydraulic cylinder 402 is arranged on one side of the first adjusting track 401, a spiral leveling knife 403 is connected on one side of the first hydraulic cylinder 402, a first hydraulic rod 404 is arranged inside the first hydraulic cylinder 402, the upper part of the first hydraulic rod 404 is connected with a first connecting block 405, the first adjusting track 401 is connected with the first hydraulic cylinder 402 in a sliding manner, the first hydraulic cylinder 402 is connected with the spiral leveling knife 403 through a bearing, the first hydraulic rod 404 is connected with the first hydraulic cylinder 402 in a sliding manner, the first connecting block 405 is connected with the first hydraulic rod 404 through welding, the tiling forming mechanism 5 comprises a second adjusting track 501, one side, one side of the second hydraulic cylinder 502 is connected with a drawing wheel 504, a second hydraulic rod 505 is arranged inside the second hydraulic cylinder 502, the upper part of the second hydraulic rod 505 is connected with a second connecting block 506, the second adjusting track 501 is connected with the second hydraulic cylinder 502 in a sliding mode, the second hydraulic cylinder 502 is connected with the drawing wheel 504 through a bearing, the second hydraulic rod 505 is connected with the second hydraulic cylinder 502 in a sliding mode, and the second connecting block 506 is connected with the second hydraulic rod 505 through welding.

In the structure, the driving motor 201 transmits power to the speed reducer 203 through the belt 202, the speed reducer 203 drives the roller 205 through the chain 204 after speed reduction, the roller 205 realizes the advancing of the device and compresses tightly concrete, the vibration motor 301 drives the connecting shaft 303 to rotate through the speed reduction of the vibration speed reducer 302, the connecting shaft 303 drives the eccentric weight 304 to rotate to make vibration, the height of the spiral homogenizing knife 403 is adjusted through the first adjusting track 401 and the first hydraulic cylinder 402, the height of the spiral homogenizing knife 403 is adjusted through the second adjusting track 501 and the second hydraulic cylinder 502, and the height of the drawing wheel 504 is adjusted through the second adjusting track 501 and the second hydraulic cylinder 502, and the drawing wheel 504 draws lines on the concrete.

The foregoing illustrates and describes the principles, general features, and advantages of the present invention. It will be understood by those skilled in the art that the present invention is not limited to the above embodiments, and that the foregoing embodiments and descriptions are provided only to illustrate the principles of the present invention without departing from the spirit and scope of the present invention. The scope of the invention is defined by the appended claims and equivalents thereof.

Claims

1. Civil engineering is concrete tiling device for construction, its characterized in that: including tiling device roof beam structure (1), drive flattening mechanism (2), vibration mechanism (3), concrete spiral uniformizing mechanism (4), tiling forming mechanism (5), tiling device roof beam structure (1) lower part is provided with drive flattening mechanism (2), tiling device roof beam structure (1) upper portion is provided with vibration mechanism (3), tiling device roof beam structure (1) front portion is provided with concrete spiral uniformizing mechanism (4), tiling device roof beam structure (1) rear portion is provided with tiling forming mechanism (5).

2. The concrete tiling device for civil engineering construction according to claim 1, characterized in that: tiling device roof beam structure (1) is including roof beam structure girder frame girder (101), roof beam structure girder frame girder (101) rear portion connects a supporting beam (102), curb plate (103) are connected to roof beam structure girder (101) both sides, curb plate (103) one side joint support board (104), fixed curb plate (105) of backup pad (104) sub-unit connection, roof beam structure girder (101) are through welded connection a supporting beam (102), curb plate (103) are through welded connection roof beam structure girder frame girder (101), backup pad (104) are through welded connection curb plate (103), fixed curb plate (105) are through welded connection backup pad (104).

3. The concrete tiling device for civil engineering construction according to claim 1, characterized in that: the drive mechanism (2) that flattens includes driving motor (201), belt (202) is connected to driving motor (201) front portion, reduction gear (203) is connected to belt (202) rear side, chain (204) is connected to reduction gear (203) one side, gyro wheel (205) is connected to chain (204) lower extreme, driving motor (201) passes through belt (202) is connected reduction gear (203), reduction gear (203) passes through chain (204) is connected gyro wheel (205).

4. The concrete tiling device for civil engineering construction according to claim 1, characterized in that: vibration mechanism (3) are including vibrating motor (301), vibrating motor (301) front portion connects vibration reduction gear (302), connecting axle (303) is connected to vibration reduction gear (302) both sides, be provided with eccentric pouring weight (304) on connecting axle (303), vibrating motor (301) are connected through the transmission shaft vibration reduction gear (302), eccentric pouring weight (304) are through welded connection connecting axle (303).

5. The concrete tiling device for civil engineering construction according to claim 1, characterized in that: the concrete spiral leveling mechanism (4) comprises a first adjusting track (401), a first hydraulic cylinder (402) is arranged on one side of the first adjusting track (401), a spiral leveling knife (403) is connected on one side of the first hydraulic cylinder (402), a first hydraulic rod (404) is arranged inside the first hydraulic cylinder (402), a first connecting block (405) is connected on the upper portion of the first hydraulic rod (404), the first adjusting track (401) is in sliding connection with the first hydraulic cylinder (402), the first hydraulic cylinder (402) is connected with the spiral leveling knife (403) through a bearing, the first hydraulic rod (404) is in sliding connection with the first hydraulic cylinder (402), and the first connecting block (405) is connected with the first hydraulic rod (404) through welding.

6. The concrete tiling device for civil engineering construction according to claim 1, characterized in that: the tiling forming mechanism (5) comprises a second adjusting track (501), a second hydraulic cylinder (502) is connected to one side of the second adjusting track (501), a tiling plate (503) is connected to one side of the second hydraulic cylinder (502), a second hydraulic rod (505) is arranged inside the second hydraulic cylinder (502), a second connecting block (506) is connected to the upper portion of the second hydraulic rod (505), the second adjusting track (501) is slidably connected to the second hydraulic cylinder (502), the second hydraulic cylinder (502) is connected to the tiling plate (503) through welding, the second hydraulic rod (505) is slidably connected to the second hydraulic cylinder (502), and the second connecting block (506) is connected to the second hydraulic rod (505) through welding.

7. The concrete tiling device for civil engineering construction according to claim 1, characterized in that: tiling forming mechanism (5) are including second regulation track (501), second hydraulic cylinder (502) is connected on second regulation track (501) one side, drawing wheel (504) are connected to second hydraulic cylinder (502) one side, inside second hydraulic cylinder (505) that is provided with of second hydraulic cylinder (502), second connecting block (506) is connected on second hydraulic cylinder (505) upper portion, second regulation track (501) sliding connection second hydraulic cylinder (502), second hydraulic cylinder (502) pass through the bearing and connect drawing wheel (504), second hydraulic cylinder (505) sliding connection second hydraulic cylinder (502), second connecting block (506) are through welded connection second hydraulic cylinder (505).