CN112900874B - Building concrete pouring system of vibrating - Google Patents

Building concrete pouring system of vibrating Download PDF

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Publication number
CN112900874B
CN112900874B CN202110094732.1A CN202110094732A CN112900874B CN 112900874 B CN112900874 B CN 112900874B CN 202110094732 A CN202110094732 A CN 202110094732A CN 112900874 B CN112900874 B CN 112900874B
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module
connecting rod
shaft
vibrating
pouring
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CN112900874A (en
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王一雯
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Datang Haikou clean energy power generation Co.,Ltd.
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Datang Haikou Clean Energy Power Generation Co ltd
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    • EFIXED CONSTRUCTIONS
    • E04BUILDING
    • E04GSCAFFOLDING; FORMS; SHUTTERING; BUILDING IMPLEMENTS OR AIDS, OR THEIR USE; HANDLING BUILDING MATERIALS ON THE SITE; REPAIRING, BREAKING-UP OR OTHER WORK ON EXISTING BUILDINGS
    • E04G21/00Preparing, conveying, or working-up building materials or building elements in situ; Other devices or measures for constructional work
    • E04G21/02Conveying or working-up concrete or similar masses able to be heaped or cast
    • EFIXED CONSTRUCTIONS
    • E04BUILDING
    • E04GSCAFFOLDING; FORMS; SHUTTERING; BUILDING IMPLEMENTS OR AIDS, OR THEIR USE; HANDLING BUILDING MATERIALS ON THE SITE; REPAIRING, BREAKING-UP OR OTHER WORK ON EXISTING BUILDINGS
    • E04G21/00Preparing, conveying, or working-up building materials or building elements in situ; Other devices or measures for constructional work
    • E04G21/02Conveying or working-up concrete or similar masses able to be heaped or cast
    • E04G21/06Solidifying concrete, e.g. by application of vacuum before hardening
    • E04G21/08Internal vibrators, e.g. needle vibrators

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  • Engineering & Computer Science (AREA)
  • Architecture (AREA)
  • Mechanical Engineering (AREA)
  • Civil Engineering (AREA)
  • Structural Engineering (AREA)
  • On-Site Construction Work That Accompanies The Preparation And Application Of Concrete (AREA)

Abstract

The invention discloses a building concrete pouring and vibrating system which comprises a frame module, a pouring module, a vibrating module, a transverse vibrating module and a vibrating module, wherein the frame module is mainly used for supporting the pouring module, the vibrating module, the transverse vibrating module and the vibrating module and also can provide a movable chassis function, the pouring module is mainly used for pouring concrete, the vibrating module is mainly used for providing a longitudinal vibrating function, the transverse vibrating module is mainly used for providing a transverse vibrating function, and the vibrating module is mainly used for vibrating the poured concrete. The invention is full-automatic in the whole process, can automatically move to pour and vibrate the concrete, and is very convenient to use. The invention has complex structure and low cost, and is suitable for various working scenes.

Description

Building concrete pouring system of vibrating
Technical Field
The invention relates to the technical field of constructional engineering, in particular to a building concrete pouring and vibrating system.
Background
In building construction, concrete pouring is a very common operation, a necessary process to be carried out on the poured concrete is vibration, and if the concrete vibration operation is not good, the surface layer of a concrete structure is loose, damaged, exposed ribs or cracks and the like due to uneven vibration, vibration leakage and the like. The concrete is not dense, so that the section of the member is weakened, and the bearing capacity of the concrete member is reduced; in addition, fine holes and cracks make it easy for external moisture and gas to penetrate into the internal corrosion reinforcing steel, resulting in premature failure of the structure. To solve such a problem, application No.: CN200820071782.8 discloses an asphalt concrete knife vibrator, but this device needs to be held by a person for use, and is very inefficient.
Disclosure of Invention
The building concrete pouring and vibrating system provided by the invention can effectively solve the technical problems and has the advantages of simple structure, low cost, high efficiency and high automation degree.
In order to solve the technical problems, the technical scheme adopted by the invention is as follows: a building concrete pouring vibration system comprises a frame module, a pouring module, a vibration module, a transverse vibration module and a vibration module, wherein the frame module comprises a frame module frame and a frame module bracket; the pouring module comprises a pouring module large shaft, a pouring module right central shaft and a pouring module center left connecting rod shaft; the vibration module comprises a vibration module center block and a vibration module support plate; the transverse vibration module comprises a transverse vibration module support small plate and a transverse vibration module vibration frame; the vibration module comprises a vibration module support plate; the frame module frame in the frame module and the pouring module main shaft in the pouring module, the pouring module right central shaft and the pouring module center left connecting rod shaft are fixedly installed, the frame module support in the frame module and the vibration module central block in the vibration module are fixedly installed, the vibration module support plate in the vibration module and the transverse vibration module support small plate in the transverse vibration module are fixedly installed, and the transverse vibration module vibration frame in the transverse vibration module and the vibration module support plate in the vibration module are fixedly installed.
Further, the frame module further comprises a frame module small wheel and a frame module large wheel, the frame module frame is rotatably installed with the frame module small wheel and the frame module large wheel, and the frame module support is fixedly installed with the frame module frame.
Further, the casting module further comprises a casting module cylinder, a casting module cylinder connecting rod shaft, a casting module cylinder tail right large connecting rod, a casting module tail small connecting rod shaft, a casting module right center small shaft, a casting module center small connecting rod shaft, a casting module center left connecting rod, a casting module middle long connecting rod, a casting module center long connecting rod, a casting module right center large long connecting rod, a casting module right top shaft, a casting module left top shaft, a casting module center upper connecting rod, a casting module extension connecting rod shaft, a casting module triangular plate, a casting module right triangular plate shaft, a casting module right triangular plate, a casting module temporary storage area, a casting module large shaft, a casting module cylinder connecting rod, a casting module tail small connecting rod shaft, a casting module cylinder connecting rod shaft, a casting module triangular plate, a casting module right triangular plate, a casting module temporary storage area, a casting module large shaft, a casting module cylinder connecting rod, a casting module tail small connecting rod, a casting module cylinder, a mold cylinder, a mold, a, A pouring module cylinder tail right large connecting rod is rotatably installed, a pouring module right central shaft is rotatably installed with a pouring module cylinder tail right large connecting rod, a pouring module right center small shaft is rotatably installed with a pouring module cylinder tail right large connecting rod and a pouring module center small connecting rod, a pouring module center small connecting rod shaft is rotatably installed with a pouring module right center large connecting rod, a pouring module center small connecting rod and a pouring module center left connecting rod, a pouring module center left connecting rod is fixedly installed with a pouring module center large connecting rod, a pouring module center long connecting rod is rotatably installed with a pouring module center left connecting rod shaft, a pouring module middle long connecting rod, a pouring module cylinder connecting rod is rotatably installed with a pouring module cylinder connecting rod shaft, a pouring module right top shaft is rotatably installed with a pouring module right center large connecting rod and a pouring module center upper connecting rod, a pouring module right triangular plate shaft is rotatably installed with a pouring module right triangular plate, And the right large connecting rod of the tail of the casting module cylinder is rotatably installed, the shaft of the casting module extension connecting rod, the casting module triangular plate are rotatably installed, and the casting module triangular plate, the casting module right triangular plate and the casting module temporary storage area are fixedly installed.
Further, the vibration module further comprises a vibration module motor, a vibration module long shaft seat, a vibration module gear, a vibration module long connecting rod, a vibration module central shaft, a vibration module tail shaft, a vibration module lower shaft, a vibration module upper shifting piece and a vibration module lower shifting piece, the vibration module central block is fixedly installed with the vibration module motor, the vibration module central block is fixedly installed with the vibration module long shaft seat, the vibration module motor is fixedly installed with the vibration module long connecting rod, the vibration module long shaft seat, the vibration module long connecting rod is rotatably installed with the vibration module tail shaft, the vibration module lower shaft is rotatably installed with the vibration module lower shifting piece and the vibration module long connecting rod, the vibration module central shaft is rotatably installed with the vibration module long connecting rod and the vibration module upper shifting piece.
Further, the transverse vibration module also comprises a transverse vibration module motor, a transverse vibration module driving wheel, a transverse vibration module belt, a transverse vibration module long support plate, a transverse vibration module driven wheel, a transverse vibration module rotating connecting rod, a transverse vibration module center long connecting rod, a transverse vibration module left long shaft, a transverse vibration module left small connecting rod, a transverse vibration module left short connecting rod, a transverse vibration module eccentric shaft, a transverse vibration module large long connecting rod, a transverse vibration module tail connecting rod shaft, a transverse vibration module tail small connecting rod shaft, a transverse vibration module tail central shaft, a transverse vibration module driven small plate shaft, a transverse vibration module support is fixedly installed with the transverse vibration module long support plate, and the transverse vibration module long support plate is fixedly installed with the transverse vibration module motor, the transverse vibration module motor is fixedly installed with the transverse vibration module driving wheel, the transverse vibration module driving wheel is tightly attached to the transverse vibration module belt, the transverse vibration module belt is tightly attached to the transverse vibration module driven wheel, the transverse vibration module driven wheel is fixedly installed with a transverse vibration module rotating connecting rod and a transverse vibration module driven wheel shaft, the transverse vibration module driven wheel shaft, a transverse vibration module left long shaft and a transverse vibration module long support plate are rotatably installed, a transverse vibration module tail connecting rod shaft is rotatably installed with a transverse vibration module tail connecting rod, a transverse vibration module tail small connecting rod and a transverse vibration module large long connecting rod, a transverse vibration module tail small connecting rod shaft is rotatably installed with a transverse vibration module vibration frame, a transverse vibration module tail small connecting rod and a transverse vibration module center long connecting rod, a transverse vibration module eccentric shaft and a transverse vibration module left small connecting rod, The large long connecting rod of the transverse vibration module is rotatably installed, the central long connecting rod of the transverse vibration module is rotatably installed with the rotary connecting rod of the transverse vibration module, and the left long shaft of the transverse vibration module is rotatably installed with the left small connecting rod of the transverse vibration module and the left short connecting rod of the transverse vibration module.
Further, the vibrating module also comprises a vibrating module multi-hand bracket, a vibrating module long shaft, a vibrating module motor, a vibrating module rotating connecting rod, a vibrating module conversion block, a vibrating module upper shaft seat, a vibrating module sliding block, a vibrating module vibrating head and a vibrating module large optical axis, a vibrating module bracket plate is fixedly installed with the vibrating module multi-hand bracket, the vibrating module long shaft is rotatably installed with the vibrating module multi-hand bracket, the vibrating module long shaft is fixedly installed with the vibrating module motor, the vibrating module motor is fixedly installed with the vibrating module rotating connecting rod, the vibrating module rotating connecting rod is rotatably installed with the vibrating module conversion block, the vibrating module conversion block is slidably installed with the vibrating module upper shaft seat, the vibrating module upper shaft seat is fixedly installed with the vibrating module sliding block, the vibrating module sliding block is fixedly installed with the vibrating module vibrating head, the vibrating module sliding block is slidably installed with the vibrating module large optical axis, the big optical axis of the vibration module is fixedly installed with the multi-hand support of the vibration module.
Furthermore, the long connecting rod at the center of the transverse vibration module and the left short connecting rod of the transverse vibration module are rotatably arranged.
Furthermore, the left top shaft of the pouring module is rotatably installed with the middle and long connecting rod of the pouring module, the upper connecting rod of the center of the pouring module and the extending connecting rod of the pouring module.
Compared with the prior art, the invention has the beneficial effects that:
(1) the movable chassis is arranged, so that the movable chassis can move independently, and the pouring and vibrating efficiency is improved.
(2) The transverse vibration device is arranged, so that the vibrating head can vibrate transversely, and the vibrating effect is improved.
(3) The invention is provided with the longitudinal vibration device, so that the vibration head can vibrate longitudinally, and the vibration effect is improved.
Drawings
Fig. 1 is a schematic view of the overall structure of the present invention.
FIG. 2 is a schematic view of a frame module structure according to the present invention.
Fig. 3 is a schematic structural view of a casting module according to the present invention.
Fig. 4 is a schematic structural diagram of a vibration module according to the present invention.
FIG. 5 is a schematic structural diagram of a transverse vibration module according to the present invention.
Fig. 6 is a schematic structural diagram of the vibrating module of the present invention.
Reference numerals: 1-a frame module; 2-pouring a module; 3-a vibration module; 4-transverse vibration module; 5-a vibrating module; 101-a frame module frame; 102-frame module small wheels; 103-frame module large wheel; 104-frame module support; 201-pouring a module large shaft; 202-pouring a module cylinder; 203-pouring a module cylinder connecting rod; 204-pouring a module cylinder connecting rod shaft; 205-pouring a right big connecting rod at the tail of the module cylinder; 206-pouring a small connecting rod shaft at the tail of the module; 207-pouring the right central shaft of the module; 208-casting a right central small shaft of the module; 209-pouring a small connecting rod in the center of the module; 210-pouring a small connecting rod shaft in the center of the module; 211-casting a left connecting rod in the center of the module; 212-casting the module center left connecting rod shaft; 213-pouring the middle and long connecting rods of the module; 214-pouring the centremost long connecting rod of the module; 215-casting the large long connecting rod at the right center of the module; 216-casting the right top shaft of the module; 217-pouring a left top shaft of the module; 218-casting the upper connecting rod in the center of the module; 219-casting a module extension connecting rod; 220-pouring a module extension connecting rod shaft; 221-pouring a module triangle; 222-casting a module right triangular plate shaft; 223-pouring a right triangular plate of the module; 224-pouring a module temporary storage area; 301-vibration module center block; 302-vibration module motor; 303-vibrating module long shaft seat; 304-a vibration module gear; 305-a vibration module long link; 306-vibrating the module central axis; 307-vibrating module tail shaft; 308-vibrating the module lower shaft; 309-vibrating module upper plectrum; 310-vibrating module lower plectrum; 311-a vibration module support plate; 401-laterally shaking the module support platelet; 402-transverse vibration module motor; 403-transverse vibration module driving wheel; 404-transverse vibrating module belt; 405-a lateral shock module long brace plate; 406-transverse vibration module passive wheel; 407-transverse vibration module rotating link; 408-a transverse vibration module center long connecting rod; 409-transverse vibration module left long shaft; 410-transverse vibration module left small connecting rod; 411-left short connecting rod of transverse vibration module; 412-lateral vibration module off center axis; 413-transverse vibration module long and large connecting rod; 414-transverse vibration module tail link; 415-transverse vibration module tail connecting rod shaft; 416-a small connecting rod at the tail of the transverse vibration module; 417-small connecting rod shaft at the tail of the transverse vibration module; 418-transverse vibration module tail central shaft; 419-transverse vibration module vibration frame; 420-transverse vibration module passive axle; 501-vibrating module support plates; 502-a vibration module multi-hand rack; 503-vibrating module long axis; 504-a vibration module motor; 505-a vibrating module rotating link; 506-vibrating module conversion block; 507-vibrating module upper shaft seat; 508-vibrating module slider; 509-a vibrating module vibrating head; 510-big optical axis of vibration module.
Detailed Description
The present invention will be further described with reference to specific examples, which are illustrative of the invention and are not to be construed as limiting the invention.
Example (b): fig. 1 is a schematic view of the overall structure of the present invention, which includes a frame module 1, a pouring module 2, a vibration module 3, a transverse vibration module 4, and a vibration module 5, wherein the frame module 1 includes a frame module 101 and a frame module support 104; the pouring module 2 comprises a pouring module large shaft 201, a pouring module right central shaft 207 and a pouring module center left connecting rod shaft 212; the vibration module 3 comprises a vibration module central block 301 and a vibration module support plate 311; the transverse vibration module 4 comprises a transverse vibration module support small plate 401 and a transverse vibration module vibration frame 419; the vibrating module 5 comprises a vibrating module support plate 501; the frame module frame 101 in the frame module 1 and the pouring module large shaft 201 in the pouring module 2, the pouring module right central shaft 207 and the pouring module center left connecting rod shaft 212 are fixedly installed, the frame module support 104 in the frame module 1 and the vibration module center block 301 in the vibration module 3 are fixedly installed, the vibration module support plate 311 in the vibration module 3 and the transverse vibration module support small plate 401 in the transverse vibration module 4 are fixedly installed, and the transverse vibration module vibration frame 419 in the transverse vibration module 4 and the vibration module support plate 501 in the vibration module 5 are fixedly installed.
The frame module 1 further comprises a frame module small wheel 102 and a frame module large wheel 103, the frame module frame 101 is rotatably mounted with the frame module small wheel 102 and the frame module large wheel 103, and the frame module bracket 104 is fixedly mounted with the frame module frame 101. The main function of this module is used for supporting pouring module 2, vibrations module 3, horizontal vibrations module 4, the module of vibrating 5 can also provide the removal chassis function simultaneously.
The casting module 2 further comprises a casting module cylinder 202, a casting module cylinder connecting rod 203, a casting module cylinder connecting rod shaft 204, a casting module cylinder tail right large connecting rod 205, a casting module tail small connecting rod shaft 206, a casting module right center small shaft 208, a casting module center small connecting rod 209, a casting module center small connecting rod shaft 210, a casting module center left connecting rod 211, a casting module middle long connecting rod 213, a casting module center long connecting rod 214, a casting module right center large connecting rod 215, a casting module right top shaft 216, a casting module left top shaft 217, a casting module center upper connecting rod 218, a casting module extension connecting rod 219, a casting module extension connecting rod shaft 220, a casting module triangular plate 221, a casting module right triangular plate shaft 222, a casting module right triangular plate 223, a casting module temporary storage area 224, a casting module large shaft 201, a casting module cylinder 202 and a casting module cylinder connecting rod 203 are rotatably mounted, a casting module tail small connecting rod shaft 206 is rotatably installed with a casting module cylinder 202 and a casting module cylinder tail right large connecting rod 205, a casting module right central shaft 207 is rotatably installed with a casting module cylinder tail right large connecting rod 205, a casting module right central small shaft 208 is rotatably installed with a casting module cylinder tail right large connecting rod 205 and a casting module central small connecting rod 209, a casting module central small connecting rod shaft 210 is rotatably installed with a casting module right central large long connecting rod 215, a casting module central small connecting rod 209 and a casting module central left connecting rod 211, a casting module central left connecting rod 211 is fixedly installed with a casting module central long connecting rod 214, a casting module central long connecting rod 214 is rotatably installed with a casting module central left connecting rod shaft 212, a casting module middle long connecting rod 213, a casting module cylinder connecting rod 203 is rotatably installed with a casting module cylinder connecting rod shaft 204, a casting module right top shaft 216 is rotatably installed with a casting module right central large long connecting rod 215, The upper connecting rod 218 of the center of the pouring module is rotatably installed, the right triangular plate shaft 222 of the pouring module is rotatably installed with the right triangular plate 223 of the pouring module and the right large connecting rod 205 of the tail of the cylinder of the pouring module, the extension connecting rod shaft 220 of the pouring module is rotatably installed with the extension connecting rod 219 of the pouring module and the triangular plate 221 of the pouring module, the right triangular plate 223 of the pouring module and the temporary storage area 224 of the pouring module are fixedly installed. The module has the main functions of pouring concrete, firstly the concrete is temporarily stored in the temporary storage area 224 of the pouring module, then the cylinder 202 of the pouring module works to move the small connecting rod shaft 206 at the tail of the pouring module backwards, at the moment, the big connecting rod 205 at the tail of the cylinder of the pouring module rotates around the right central shaft 207 of the pouring module, at the moment, the right triangular plate shaft 222 of the pouring module descends, at the moment, the small shaft 208 at the right center of the pouring module transmits power to the long connecting rod 214 at the center of the pouring module through the small connecting rod shaft 210 at the center of the pouring module and the left connecting rod 211 at the center of the pouring module, at the moment, the long connecting rod 214 at the center of the pouring module also rotates forwards, at the moment, the concrete in the temporary storage area 224 of the pouring module is poured out, and pouring is completed.
The vibration module 3 further comprises a vibration module motor 302, a vibration module long shaft seat 303, a vibration module gear 304, a vibration module long connecting rod 305, a vibration module central shaft 306, a vibration module tail shaft 307, a vibration module lower shaft 308, a vibration module upper shifting piece 309 and a vibration module lower shifting piece 310, a vibration module central block 301 and the vibration module motor 302 are fixedly installed, a vibration module central block 301 and the vibration module long shaft seat 303 are fixedly installed, a vibration module motor 302 and the vibration module long connecting rod 305 are fixedly installed, a vibration module long shaft seat 303, a vibration module long connecting rod 305 and the vibration module tail shaft 307 are rotatably installed, a vibration module lower shaft 308 and the vibration module lower shifting piece 310 and the vibration module long connecting rod 305 are rotatably installed, and a vibration module central shaft 306 and the vibration module long connecting rod 305 and the vibration module upper shifting piece 309 are rotatably installed. The module mainly has the function of providing longitudinal vibration, firstly, the vibration module motor 302 drives the vibration module gear 304 to rotate, at the moment, the vibration module gear 304 enables the vibration module long connecting rod 305 to rotate around the vibration module tail shaft 307, at the moment, the vibration module lower shifting piece 310 can be shifted, at the moment, the vibration module long connecting rod 305 continuously swings up and down, and the vibration module support plate 311 continuously vibrates up and down.
The transverse vibration module 4 further comprises a transverse vibration module motor 402, a transverse vibration module driving wheel 403, a transverse vibration module belt 404, a transverse vibration module long support plate 405, a transverse vibration module driven wheel 406, a transverse vibration module rotating link 407, a transverse vibration module center long link 408, a transverse vibration module left long axis 409, a transverse vibration module left small link 410, a transverse vibration module left short link 411, a transverse vibration module eccentric axis 412, a transverse vibration module large long link 413, a transverse vibration module tail link 414, a transverse vibration module tail link shaft 415, a transverse vibration module tail small link 416, a transverse vibration module tail small link shaft 417, a transverse vibration module tail central axis 418, a transverse vibration module driven wheel shaft 420, a transverse vibration module support small plate 401 and a transverse vibration module long support plate 405 are fixedly installed, the transverse vibration module long support plate 405 and the transverse vibration module motor 402 are fixedly installed, the transverse vibration module motor 402 is fixedly installed with a transverse vibration module driving wheel 403, the transverse vibration module driving wheel 403 is tightly attached with a transverse vibration module belt 404, the transverse vibration module belt 404 is tightly attached with a transverse vibration module driven wheel 406, the transverse vibration module driven wheel 406 is fixedly installed with a transverse vibration module rotating connecting rod 407 and a transverse vibration module driven wheel shaft 420, the transverse vibration module driven wheel shaft 420, a transverse vibration module left long shaft 409 and a transverse vibration module long support plate 405 are rotatably installed, a transverse vibration module tail connecting rod shaft 415 is rotatably installed with a transverse vibration module tail connecting rod 414, a transverse vibration module tail small connecting rod 416 and a transverse vibration module long connecting rod 413, a transverse vibration module tail small connecting rod shaft 417 is rotatably installed with a transverse vibration module vibration frame 419, a transverse vibration module tail small connecting rod 416 and a transverse vibration module center long connecting rod 408, the transverse vibration module eccentric shaft 412 is rotatably mounted with the transverse vibration module left small connecting rod 410 and the transverse vibration module large long connecting rod 413, the transverse vibration module center long connecting rod 408 is rotatably mounted with the transverse vibration module rotating connecting rod 407, and the transverse vibration module left long shaft 409 is rotatably mounted with the transverse vibration module left small connecting rod 410 and the transverse vibration module left short connecting rod 411. The main effect of this module is to provide the effect of horizontal vibration, at first horizontal vibration module motor 402 drives horizontal vibration module action wheel 403 to rotate, horizontal vibration module action wheel 403 drives horizontal vibration module follower 406 to rotate through horizontal vibration module belt 404 this moment, horizontal vibration module rotating link 407 takes place to rotate this moment, horizontal vibration module center long link 408 constantly shakes afterwards, horizontal vibration module center long link 408 constantly shakes this moment, horizontal vibration module tail center pin 418, horizontal vibration module tail little link shaft 417 transmits the power for horizontal vibration module vibrations frame 419 to make horizontal vibration module vibrations frame 419 constantly shake yet.
The vibrating module 5 further comprises a vibrating module multi-hand bracket 502, a vibrating module long shaft 503, a vibrating module motor 504, a vibrating module rotating connecting rod 505, a vibrating module conversion block 506, a vibrating module upper shaft seat 507, a vibrating module sliding block 508, a vibrating module vibrating head 509 and a vibrating module large optical axis 510, wherein the vibrating module bracket plate 501 is fixedly installed with the vibrating module multi-hand bracket 502, the vibrating module long shaft 503 is rotatably installed with the vibrating module multi-hand bracket 502, the vibrating module long shaft 503 is fixedly installed with the vibrating module motor 504, the vibrating module motor 504 is fixedly installed with the vibrating module rotating connecting rod 505, the vibrating module rotating connecting rod 505 is rotatably installed with the vibrating module conversion block 506, the vibrating module conversion block 506 is slidably installed with the vibrating module upper shaft seat 507, the vibrating module upper shaft seat 507 is fixedly installed with the vibrating module sliding block 508, the vibrating module sliding block 508 is fixedly installed with the vibrating module vibrating head 509, the vibrating module sliding block 508 is slidably mounted with the vibrating module macro-optic axis 510, and the vibrating module macro-optic axis 510 is fixedly mounted with the vibrating module multi-handed bracket 502. The main effect of this module is that the concrete that has poured vibrates from now, and the module motor 504 work of at first vibrating makes the rotatory connecting rod 505 of the module that vibrates rotatory connecting rod 505 of module that vibrates makes this moment vibrate module conversion piece 506 and constantly reciprocates, and the module conversion piece that vibrates 506 makes the module sliding block 508 that vibrates constantly slide on the big optical axis 510 of the module that vibrates through the module that vibrates last axle bed 507 afterwards, and the module that vibrates head 509 that vibrates this moment vibrates to the concrete.
The transverse vibration module center long link 408 is rotatably mounted with the transverse vibration module left short link 411.
The left top shaft 217 of the pouring module is rotatably mounted with the middle long connecting rod 213 of the pouring module, the upper connecting rod 218 of the center of the pouring module and the extending connecting rod 219 of the pouring module.

Claims (4)

1. The utility model provides a building concrete placement system of vibrating, includes frame module (1), pours module (2), vibrations module (3), horizontal vibrations module (4), module of vibrating (5), its characterized in that:
the frame module (1) comprises a frame module frame (101) and a frame module bracket (104);
the casting module (2) comprises a casting module large shaft (201), a casting module cylinder (202), a casting module cylinder connecting rod (203), a casting module cylinder connecting rod shaft (204), a casting module cylinder tail right large connecting rod (205), a casting module tail small connecting rod shaft (206), a casting module right central shaft (207), a casting module right central small shaft (208), a casting module center small connecting rod (209), a casting module center small connecting rod shaft (210), a casting module center left connecting rod (211), a casting module center left connecting rod shaft (212), a casting module middle long connecting rod (213), a casting module center long connecting rod (214), a casting module right center large long connecting rod (215), a casting module right top shaft (216), a casting module left top shaft (217), a casting module center upper connecting rod (218), a casting module extension connecting rod (219), a casting module extension connecting rod shaft (220), A pouring module triangular plate (221), a pouring module right triangular plate shaft (222), a pouring module right triangular plate (223) and a pouring module temporary storage area (224), wherein a pouring module large shaft (201) is rotatably installed with a pouring module cylinder (202) and a pouring module cylinder connecting rod (203), a pouring module tail small connecting rod shaft (206) is rotatably installed with the pouring module cylinder (202) and a pouring module cylinder tail right large connecting rod (205), a pouring module right central shaft (207) is rotatably installed with the pouring module cylinder tail right large connecting rod (205), a pouring module right central small shaft (208) is rotatably installed with the pouring module cylinder tail right large connecting rod (205) and a pouring module central small connecting rod (209), a pouring module central small connecting rod shaft (210) is rotatably installed with a pouring module right central large long connecting rod (215), a pouring module central small connecting rod (209) and a pouring module central left connecting rod (211), a left connecting rod (211) at the center of the pouring module and a long connecting rod (214) at the center of the pouring module are fixedly arranged, the long connecting rod (214) at the center of the pouring module and a left connecting rod shaft (212) at the center of the pouring module are rotatably arranged, a long connecting rod (213) at the center of the pouring module, a connecting rod (203) of the pouring module and a connecting rod shaft (204) of a cylinder of the pouring module are rotatably arranged, a right top shaft (216) of the pouring module and a large long connecting rod (215) at the right center of the pouring module and an upper connecting rod (218) at the center of the pouring module are rotatably arranged, a right triangle plate shaft (222) of the pouring module and a right triangle plate (223) of the pouring module are rotatably arranged, the right big connecting rod (205) at the tail of the cylinder of the pouring module is rotatably installed, the extending connecting rod shaft (220) of the pouring module is rotatably installed with the extending connecting rod (219) of the pouring module and the triangular plate (221) of the pouring module, the right triangular plate (223) of the pouring module and the temporary storage area (224) of the pouring module are fixedly installed;
the vibration module (3) comprises a vibration module center block (301), a vibration module motor (302), a vibration module long shaft seat (303), a vibration module gear (304), a vibration module long connecting rod (305), a vibration module center shaft (306), a vibration module tail shaft (307), a vibration module lower shaft (308), a vibration module upper shifting sheet (309), a vibration module lower shifting sheet (310) and a vibration module support plate (311), the vibration module center block (301) and the vibration module motor (302) are fixedly installed, the vibration module center block (301) and the vibration module long shaft seat (303) are fixedly installed, the vibration module motor (302) and the vibration module long connecting rod (305) are fixedly installed, the vibration module long shaft seat (303), the vibration module long connecting rod (305) and the vibration module tail shaft (307) are rotatably installed, the vibration module lower shaft (308) and the vibration module lower shifting sheet (310) are installed, The long connecting rod (305) of the vibration module is rotatably arranged, and the central shaft (306) of the vibration module is rotatably arranged with the long connecting rod (305) of the vibration module and the upper shifting sheet (309) of the vibration module;
the transverse vibration module (4) comprises a transverse vibration module support small plate (401), a transverse vibration module motor (402), a transverse vibration module driving wheel (403), a transverse vibration module belt (404), a transverse vibration module long support plate (405), a transverse vibration module driven wheel (406), a transverse vibration module rotating connecting rod (407), a transverse vibration module center long connecting rod (408), a transverse vibration module left long shaft (409), a transverse vibration module left small connecting rod (410), a transverse vibration module left short connecting rod (411), a transverse vibration module eccentric shaft (412), a transverse vibration module large long connecting rod (413), a transverse vibration module tail connecting rod (414), a transverse vibration module tail connecting rod shaft (415), a transverse vibration module tail small connecting rod (416), a transverse vibration module tail small connecting rod shaft (417), a transverse vibration module tail central shaft (418), A transverse vibration module vibration frame (419), a transverse vibration module driven wheel shaft (420), a transverse vibration module support small plate (401) and a transverse vibration module long support plate (405) are fixedly installed, the transverse vibration module long support plate (405) and a transverse vibration module motor (402) are fixedly installed, the transverse vibration module motor (402) and a transverse vibration module driving wheel (403) are fixedly installed, the transverse vibration module driving wheel (403) is tightly attached to a transverse vibration module belt (404), the transverse vibration module belt (404) is tightly attached to a transverse vibration module driven wheel (406), the transverse vibration module driven wheel (406) and a transverse vibration module rotating connecting rod (407) and the transverse vibration module driven wheel shaft (420) are fixedly installed, the transverse vibration module driven wheel shaft (420), a transverse vibration module left long shaft (409) and the transverse vibration module long support plate (405) are rotatably installed, a transverse vibration module tail connecting rod shaft (415), a transverse vibration module tail connecting rod (414), a transverse vibration module tail small connecting rod (416) and a transverse vibration module large long connecting rod (413) are rotatably installed, a transverse vibration module tail small connecting rod shaft (417), a transverse vibration module vibration frame (419), a transverse vibration module tail small connecting rod (416) and a transverse vibration module center long connecting rod (408) are rotatably installed, a transverse vibration module eccentric shaft (412), a transverse vibration module left small connecting rod (410) and a transverse vibration module large long connecting rod (413) are rotatably installed, a transverse vibration module center long connecting rod (408) and a transverse vibration module rotating connecting rod (407) are rotatably installed, and a transverse vibration module left long shaft (409), a transverse vibration module left small connecting rod (410) and a transverse vibration module left short connecting rod (411) are rotatably installed;
the vibrating module (5) comprises a vibrating module support plate (501), a vibrating module multi-hand support (502), a vibrating module long shaft (503), a vibrating module motor (504), a vibrating module rotating connecting rod (505), a vibrating module conversion block (506), a vibrating module upper shaft seat (507), a vibrating module sliding block (508), a vibrating module vibrating head (509) and a vibrating module large optical shaft (510), wherein the vibrating module support plate (501) is fixedly arranged with the vibrating module multi-hand support (502), the vibrating module long shaft (503) is rotatably arranged with the vibrating module multi-hand support (502), the vibrating module long shaft (503) is fixedly arranged with the vibrating module motor (504), the vibrating module motor (504) is fixedly arranged with the vibrating module rotating connecting rod (505), the vibrating module rotating connecting rod (505) is rotatably arranged with the vibrating module conversion block (506), and the vibrating module conversion block (506) is slidably arranged with the vibrating module upper shaft seat (507), an upper shaft seat (507) of the vibrating module is fixedly installed with a sliding block (508) of the vibrating module, the sliding block (508) of the vibrating module is fixedly installed with a vibrating head (509) of the vibrating module, the sliding block (508) of the vibrating module is slidably installed with a large optical axis (510) of the vibrating module, and the large optical axis (510) of the vibrating module is fixedly installed with a multi-hand bracket (502) of the vibrating module;
frame module frame (101) in frame module (1) and pour module macroaxis (201) in the module (2), pour module right side center axle (207), pour module center left connecting rod axle (212) fixed mounting, frame module support (104) in frame module (1) and vibrations module center piece (301) fixed mounting in vibrations module (3), vibrations module mounting panel (311) in vibrations module (3) and horizontal vibrations module support platelet (401) fixed mounting in horizontal vibrations module (4), horizontal vibrations module vibrations frame (419) in horizontal vibrations module (4) and the module of vibrating support panel (501) fixed mounting in the module of vibrating (5).
2. A building concrete pouring and vibrating system according to claim 1, wherein: the frame module (1) further comprises a frame module small wheel (102) and a frame module big wheel (103), the frame module frame (101) is rotatably installed with the frame module small wheel (102) and the frame module big wheel (103), and the frame module support (104) is fixedly installed with the frame module frame (101).
3. A building concrete pouring and vibrating system according to claim 1, wherein: the long connecting rod (408) at the center of the transverse vibration module and the left short connecting rod (411) of the transverse vibration module are rotatably arranged.
4. A building concrete pouring and vibrating system according to claim 1, wherein: the left top shaft (217) of the pouring module is rotatably arranged with the middle long connecting rod (213) of the pouring module, the upper connecting rod (218) of the center of the pouring module and the extending connecting rod (219) of the pouring module.
CN202110094732.1A 2021-01-25 2021-01-25 Building concrete pouring system of vibrating Active CN112900874B (en)

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* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
JP3338912B2 (en) * 1994-06-17 2002-10-28 清水建設株式会社 Concrete compaction equipment
JP6511316B2 (en) * 2015-03-30 2019-05-15 株式会社熊谷組 Concrete placement management method
CN107097325A (en) * 2017-05-26 2017-08-29 上海君道住宅工业有限公司 A kind of concrete automatic pouring and tamping equipment
CN207749836U (en) * 2018-01-23 2018-08-21 承德石油高等专科学校 A kind of concrete vibration stick
CN208267384U (en) * 2018-03-28 2018-12-21 宜昌晶鑫建设工程有限责任公司 A kind of concrete vibrator
CN210483077U (en) * 2019-08-14 2020-05-08 陈金龙 Concrete vibrating device for building construction
CN212312336U (en) * 2020-05-07 2021-01-08 西北民族大学 Vibration maintenance turnover mould platform for producing concrete precast slab

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