CN114908973A - A concrete bubble-free filling equipment of filling for building construction - Google Patents

Abstract

The invention relates to the technical field of building equipment, in particular to a concrete bubble-free filling and filling device for building construction, which comprises a conveying defoaming hopper, a drainage cone hopper, a filling pressure cylinder, a one-way material pushing disc, a fixed push rod, a vibration defoaming piece and a material dumping and blocking eave, wherein the conveying defoaming hopper is in a long-strip plate shape, the edge of the conveying defoaming hopper is provided with the blocking eave, and the drainage cone hopper is fixedly arranged at the lower surface position of one end of the conveying defoaming hopper and is communicated with the inside of the conveying defoaming hopper; according to the invention, the arranged one-way material pushing disc moves up and down in the filling pressure cylinder, so that concrete slurry in the filling pressure cylinder can be injected into a filling position of building construction at high pressure, the filling conveying pipe is placed at the bottom of the filling position of the building construction, and filling is carried out by using a high-pressure injection mode, so that the slurry overflows upwards from the bottom gradually, and compared with a traditional direct pouring mode, the concrete slurry is prevented from being poured, and bubbles generated during filling and filling of the retarded soil slurry can be effectively reduced.

Description

A concrete bubble-free filling equipment of filling for building construction

Technical Field

The invention relates to the technical field of building equipment, in particular to a concrete bubble-free filling and filling equipment for building construction.

Background

In the house construction, the bearing post isotructure in house utilizes panel to make the building mould shell usually, recycle concrete and carry out the filling and fill and make, directly empty the filling to the building mould shell during traditional construction, strike the shock to the mould shell simultaneously, this kind of filling concrete's mode can mix a large amount of air and concrete when empting the concrete, contain a large amount of bubbles in the concrete of feasible pouring into the mould, and strike the mould shell and vibrate inside unable deep concrete, can only discharge the bubble on top layer, thereby very easily the bearing post isotructure produces the bubble hollowing, seriously influences building quality.

Disclosure of Invention

The present invention is directed to a concrete bubble-free filling apparatus for building construction, which solves the above problems of the prior art.

In order to achieve the purpose, the invention provides the following technical scheme: a concrete bubble-free filling and filling device for building construction comprises a conveying defoaming hopper, a drainage cone hopper, a filling pressure cylinder, an unidirectional material pushing disc, a fixed push rod, a vibration defoaming piece and a material dumping blocking eave, wherein the conveying defoaming hopper is in a long plate shape, the edge of the conveying defoaming hopper is provided with the material blocking eave, the drainage cone hopper is fixedly arranged at the lower surface position of one end of the conveying defoaming hopper and is communicated with the inside of the conveying defoaming hopper, the filling pressure cylinder is fixedly communicated below the drainage cone hopper, the filling pressure cylinder is in a cylindrical tubular shape, the lifting activity of the unidirectional material pushing disc is arranged inside the filling pressure cylinder, the side wall surface of the unidirectional material pushing disc is in tight contact with the inner wall surface of the filling pressure cylinder, the unidirectional material pushing disc has an upper material pulling and lower material blocking function, the fixed push rod is fixedly arranged at the upper surface position of the unidirectional material pushing disc, and the upper end position of the fixed push rod is provided with a compression rod structure with a lower high-frequency impact function, the surface of depression bar structure is provided with pushes down the drive structure, vibrate defoaming piece activity setting and be close to the lower surface position in the inside of carrying the defoaming fill, vibrate defoaming piece and have the level and come and go and vibrate the function, the material that inclines keeps off the fixed other end that sets up at carrying the defoaming fill of eaves and is close to the top position.

Preferably, the one-way pushing disc comprises a discharging through hole, a limiting blocking ring, a lifting connecting rod, a pressing blocking disc and an anti-falling end block, the discharging through hole is formed in the center of the one-way pushing disc and penetrates through the one-way pushing disc from top to bottom, and the limiting blocking ring is fixedly arranged on the inner side surface of the discharging through hole.

Preferably, the lifting connecting rod is fixedly installed on the upper surface of the limiting blocking ring, the material pressing blocking disc is coaxially arranged right above the blanking through hole, the diameter of the material pressing blocking disc is larger than that of the inner ring of the limiting blocking ring, the upper end of the lifting connecting rod movably penetrates through the material pressing blocking disc, and the anti-falling end block is fixedly installed on the surface of the upper end of the lifting connecting rod.

Preferably, the compression bar structure comprises a push rod pipe sleeve, a bearing ring, an impact suspension disc, a support connecting plate, a downward pressing and pushing table, an impact through hole, an impact movable shaft, a cam pressure disc, an upward supporting spring, a cam frame, an impact extrusion cam, a driven gear, a driving gear and a driving motor.

Preferably, the push rod pipe sleeve is sleeved outside the fixed push rod, the bearing ring is fixedly installed on the upper surface of the push rod pipe sleeve, the impact suspension disc is located right above the bearing ring, the upper end of the fixed push rod penetrates through the bearing ring and is fixedly installed on the lower surface of the impact suspension disc, the support connecting plate is fixedly installed on the upper surface of the bearing ring, and the downward pressing push table is fixed to the upper end of the support connecting plate.

Preferably, strike the inside that the through-hole is vertical to be seted up at pushing down the platform, strike the loose axle activity and alternate the setting in the inside of strikeing the through-hole, strike the loose axle and be located to strike and hang the dish directly over, cam pressure disk fixed mounting is in the upper end surface position of strikeing the loose axle, upward prop the spring housing and establish in the outside of strikeing the loose axle, be located cam pressure disk and push down between the platform, cam carrier fixed mounting pushes down the upper surface position that pushes down the platform.

Preferably, the impact extrusion cam rotates and is installed in the cam frame, the impact extrusion cam is located right above the cam pressure plate and contacts with the cam pressure plate, the driven gear is installed in the impact extrusion cam transmission mode, the driving gear is meshed with the driven gear, the driving motor is fixedly installed outside the cam frame, and the rotating shaft of the driving motor is in transmission connection with the driving gear.

Preferably, the downward pressing driving structure comprises a vertical supporting rod, a supporting plate frame, a hydraulic ejector rod and a transverse fixing plate, the vertical supporting rod is vertically fixed at the surface position of the inner wall of the drainage cone bucket, the supporting plate frame is fixedly installed at the surface position of the upper end of the vertical supporting rod, the hydraulic ejector rod is fixedly installed at the lower surface position of the supporting plate frame, the transverse fixing plate is fixedly installed at the surface position of the lower end of the hydraulic ejector rod, and the transverse fixing plate is fixedly installed at the surface position of the outer wall of the push rod pipe sleeve.

Preferably, vibrate the transversal right angled triangle of personally submitting of defoaming spare, and the laminating of the inside upper surface of a right-angled triangle's a right-angle side corresponding surface and transport defoaming fill, another right-angle side corresponding surface towards drainage awl fill place one side position, the quantity of vibrating the defoaming spare has a plurality of groups, and the linear evenly distributed of level, the equal fixed mounting in both ends surface position of vibrating the defoaming spare has the lateral wall even board, the upper surface position fixed mounting of lateral wall even board has the linkage riser, the upper end fixed mounting of linkage riser inhales the piece, the fender eaves surface position fixed mounting who carries the defoaming fill has the eaves platen, the bilateral symmetry of going up the eaves platen installs the installation riser, one side the installation riser with fixed mounting has the extension spring that resets between the piece, the opposite side the inside of installation riser inlays to be established and is fixed with the electro-magnet.

Preferably, the inner wall surface fixed mounting that the drainage cone was fought has inner wall branch, the upper end fixed surface of inner wall branch installs the pressure flow and keeps off the dish, the central point that the pressure flow kept off the dish puts and has seted up central jack, fixed push rod alternates through central jack, the fixed intercommunication of lower extreme of filling pressure section of thick bamboo has the discharging pipe, the outside cover of discharging pipe is established and is installed the filling conveyer pipe, the fixed counter weight ring that is provided with of the other end of filling conveyer pipe.

Compared with the prior art, the invention has the beneficial effects that:

according to the concrete bubble-free filling equipment for building construction, the arranged one-way material pushing disc moves up and down in the filling pressure cylinder, so that concrete slurry in the filling pressure cylinder can be injected into a filling position of the building construction at high pressure, the filling conveying pipe is placed at the bottom of the filling position of the building construction, and filling is performed by using a high-pressure injection mode, so that the slurry overflows upwards from the bottom, compared with a traditional direct pouring mode, the concrete slurry is prevented from being poured, and bubbles generated during filling and filling of retarded soil slurry can be effectively reduced;

meanwhile, the pressure rod structure is fixedly connected with the unidirectional material pushing disc through the fixed push rod, so that when the unidirectional material pushing disc is pressed downwards, the unidirectional material pushing disc can be impacted by downward high frequency caused by the pressure rod structure, the unidirectional material pushing disc moves downwards under high frequency impact, the pressure of concrete slurry output by the filling conveying pipe can be sprayed out in an impact state with frequency fluctuation, the filled concrete slurry can be deeply vibrated while the slurry is filled by utilizing the fluctuation impact of the slurry, compared with the traditional mode of knocking a mould shell to vibrate, the unidirectional material pushing disc can go deep into the concrete and discharge air bubbles in the concrete, the existence of the air bubbles in the concrete is further reduced, the concrete is filled more uniformly, and meanwhile, the unidirectional material pushing disc moves downwards under high frequency impact, the unidirectional material pushing disc is more labor-saving when moving downwards, the phenomena of clamping stagnation and the like of the one-way material pushing disc are avoided;

the defoaming piece that vibrates through the setting can be in carrying the defoaming fill, vibrates the bubble in with the concrete through reciprocating of vibrating the defoaming piece and clears away the row, and because the transversal right triangle-shaped that personally submits of vibrating the defoaming piece, consequently vibrate the defoaming piece and can promote concrete slurry to the removal of drainage awl fill place one side when reciprocating and vibrate.

Drawings

FIG. 1 is a schematic view of the shaft of the present invention;

FIG. 2 is a schematic view of the overall structure of the present invention;

FIG. 3 is an enlarged view of area A in FIG. 2;

FIG. 4 is a schematic view of a half-section configuration of the present invention;

FIG. 5 is an enlarged view of the area B in FIG. 4;

FIG. 6 is a schematic top view of the present invention;

FIG. 7 is a cross-sectional view taken along line A-A of FIG. 6;

FIG. 8 is a cross-sectional view taken along line B-B of FIG. 6;

FIG. 9 is an enlarged view of area C of FIG. 7;

fig. 10 is an enlarged view of the area D in fig. 8.

In the figure: 1. conveying a defoaming hopper; 2. a drainage cone hopper; 3. filling the pressure cylinder; 4. a unidirectional material pushing plate; 5. fixing the push rod; 6. vibrating the defoaming element; 7. material tilting and blocking eaves; 401. a blanking through hole; 402. a spacing blocking ring; 403. lifting the connecting rod; 404. pressing a blocking disc; 405. an anti-drop end block; 501. a push rod pipe sleeve; 502. a bearing ring; 503. impacting the suspension disc; 504. supporting the connecting plate; 505. pressing the pushing platform downwards; 506. impacting the through hole; 507. impacting the movable shaft; 508. a cam platen; 509. an upper supporting spring; 510. a cam carrier; 511. impacting the extrusion cam; 512. a driven gear; 513. a drive gear; 514. a drive motor; 515. a vertical stay bar; 516. a top plate rack; 517. a hydraulic ejector rod; 518. a transverse fixing plate; 601. a sidewall connecting plate; 602. linking a vertical plate; 603. a magnetic block; 604. an upper eave bedplate; 605. installing a vertical plate; 606. an electromagnet; 607. a return tension spring; 201. an inner wall strut; 202. a pressure flow baffle disc; 203. a central jack; 301. a discharge pipe; 302. filling a conveying pipe; 303. and a counterweight ring.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

Referring to fig. 1 to 10, the present invention provides a technical solution: a concrete bubble-free filling and filling device for building construction comprises a conveying defoaming hopper 1, a drainage cone hopper 2, a filling pressure cylinder 3, a one-way material pushing disc 4, a fixed push rod 5, a vibration defoaming piece 6 and a material dumping blocking eave 7, wherein the conveying defoaming hopper 1 is in a long-strip plate shape, the edge of the conveying defoaming hopper is provided with the blocking eave, the drainage cone hopper 2 is fixedly arranged at the lower surface position of one end of the conveying defoaming hopper 1 and is communicated with the inside of the conveying defoaming hopper 1, the filling pressure cylinder 3 is fixedly communicated and arranged below the drainage cone hopper 2, the filling pressure cylinder 3 is in a cylindrical tubular shape, the one-way material pushing disc 4 is movably arranged in the filling pressure cylinder 3 in a lifting way, the side wall surface of the one-way material pushing disc 4 is tightly contacted with the inner wall surface of the filling pressure cylinder 3, the one-way material pushing disc 4 has the functions of material pushing and material blocking pressing, the fixed push rod 5 is fixedly arranged at the upper surface position of the one-way material pushing disc 4, the upper end position of fixed push rod 5 is provided with the depression bar structure that has the high frequency impact function of pushing down, and the surface of depression bar structure is provided with and pushes down the drive structure, vibrates defoaming piece 6 activity and sets up and be close to the lower surface position in the inside of carrying defoaming fill 1, vibrates defoaming piece 6 and has the level and come and go the vibration function, and the material that inclines keeps off eaves 7 fixed the setting and is close to the top position at the other end of carrying defoaming fill 1.

The unidirectional material pushing disc 4 comprises a blanking through hole 401, a limiting blocking ring 402, a lifting connecting rod 403, a material pressing blocking disc 404 and an anti-falling end block 405, the blanking through hole 401 is formed in the center of the unidirectional material pushing disc 4, the unidirectional material pushing disc 4 penetrates through the blanking through hole from top to bottom, and the limiting blocking ring 402 is fixedly arranged on the inner side surface of the blanking through hole 401; the lifting connecting rod 403 is fixedly installed on the upper surface of the limiting blocking ring 402, the pressing blocking disc 404 is coaxially arranged right above the blanking through hole 401, the diameter of the pressing blocking disc 404 is larger than that of the inner ring of the limiting blocking ring 402, the upper end of the lifting connecting rod 403 movably penetrates through the pressing blocking disc 404, the anti-disengaging end block 405 is fixedly installed on the surface of the upper end of the lifting connecting rod 403, and the anti-disengaging end block 405 can prevent the lifting connecting rod 403 from disengaging from the pressing blocking disc 404.

The compression bar structure comprises a push bar pipe sleeve 501, a bearing ring 502, an impact suspension disk 503, a support connecting plate 504, a downward pressing and pushing platform 505, an impact through hole 506, an impact movable shaft 507, a cam pressure disk 508, an upper support spring 509, a cam frame 510, an impact extrusion cam 511, a driven gear 512, a driving gear 513 and a driving motor 514; the push rod pipe sleeve 501 is sleeved outside the fixed push rod 5, the bearing ring 502 is fixedly arranged on the upper surface of the push rod pipe sleeve 501, the impact suspension disc 503 is positioned right above the bearing ring 502, the upper end of the fixed push rod 5 penetrates through the bearing ring 502 to be fixedly arranged on the lower surface of the impact suspension disc 503, the support connecting plate 504 is fixedly arranged on the upper surface of the bearing ring 502, and the downward pressing push platform 505 is fixed with the upper end of the support connecting plate 504; the impact through hole 506 is vertically arranged inside the downward pressing and pushing table 505, the impact movable shaft 507 is movably inserted into the impact through hole 506, the impact movable shaft 507 is positioned right above the impact suspension plate 503, the cam pressure plate 508 is fixedly arranged on the upper end surface of the impact movable shaft 507, the upward supporting spring 509 is sleeved outside the impact movable shaft 507 and positioned between the cam pressure plate 508 and the downward pressing and pushing table 505, and the cam rack 510 is fixedly arranged on the upper surface of the downward pressing and pushing table 505; the impact extrusion cam 511 is rotatably arranged inside the cam frame 510, the cross section of the impact extrusion cam 511 is shaped as shown in fig. 10, the impact extrusion cam 511 can continuously impact the upper surface of the cam pressure plate 508 when rotating at a high speed, the impact extrusion cam 511 is positioned right above the cam pressure plate 508 and is contacted with the cam pressure plate 508, the driven gear 512 is arranged in a transmission way with the impact extrusion cam 511, the driving gear 513 is meshed with the driven gear 512, the driving motor 514 is fixedly arranged outside the cam frame 510, and the rotating shaft of the driving motor 514 is connected with the driving gear 513 in a transmission way.

Push down drive structure and include vertical vaulting pole 515, top dish frame 516, hydraulic pressure ejector pin 517 and horizontal fixed plate 518, vertical vaulting pole 515 is vertical to be fixed in the inner wall surface position that drainage awl was fought 2, top dish frame 516 fixed mounting is in the upper end surface position of vertical vaulting pole 515, hydraulic pressure ejector pin 517 fixed mounting is in the lower surface position of top dish frame 516, the lower extreme surface position fixed mounting of hydraulic pressure ejector pin 517 has horizontal fixed plate 518, horizontal fixed plate 518 fixed mounting is in the outer wall surface position of push rod pipe box 501, horizontal fixed plate 518 can pass through welded fastening with the outer wall surface of push rod pipe box 501 and install.

The cross section of the oscillation defoaming piece 6 is in a right-angled triangle shape, and one right-angled side corresponding surface of the right-angled triangle is attached to the inner upper surface of the conveying defoaming hopper 1, and the other right-angled side corresponding surface faces to one side position of the drainage cone hopper 2, as shown in fig. 7, the number of the oscillation defoaming piece 6 is provided with a plurality of groups, and the horizontal linear distribution is uniform, the surface positions of both ends of the oscillation defoaming piece 6 are fixedly provided with a side wall connecting plate 601, the upper surface position of the side wall connecting plate 601 is fixedly provided with a linkage vertical plate 602, the upper end of the linkage vertical plate 602 is fixedly provided with a magnetic suction block 603, the surface position of the eave of the conveying defoaming hopper 1 is fixedly provided with an upper eave platen 604, the two sides of the upper eave platen 604 are symmetrically provided with installation vertical plates 605, a reset tension spring 607 is fixedly arranged between the installation vertical plate 605 and the magnetic suction block 603 on one side, the inside of the installation vertical plate 605 on the other side is fixedly provided with an electromagnet 606, and the electromagnet 606 is a common technology, the electromagnet 606 is energized to generate strong magnetic force, and pulse current is applied to the electromagnet during actual operation to generate intermittent magnetic force.

The inner wall surface fixed mounting that the drainage awl was fought 2 has inner wall branch 201, the upper end fixed mounting surface of inner wall branch 201 has the pressure flow to keep off dish 202, the central point that the pressure flow kept off dish 202 puts has seted up central jack 203, fixed push rod 5 alternates through central jack 203, the fixed intercommunication of lower extreme of filling pressure section of thick bamboo 3 has discharging pipe 301, the outside cover of discharging pipe 301 is established and is installed filling conveyer pipe 302, the fixed counter weight ring 303 that is provided with of the other end of filling conveyer pipe 302.

The invention relates to a concrete bubble-free filling device for building construction, which can be fixed with any fixed equipment or independently fixed through a support frame to ensure that a conveying defoaming hopper 1 is kept horizontal, when in use, a filling conveying pipe 302 is firstly inserted into a building mould to be filled, a counterweight ring 303 at the lower end of the filling conveying pipe 302 is positioned at the bottom of the building mould, concrete slurry is poured into a pouring baffle eave 7, the slurry flows to the position of a drainage cone 2 on the surface of the conveying defoaming hopper 1, intermittent current is introduced into an electromagnet 606, so that the electromagnet 606 generates intermittent magnetic force and is matched with a reset tension spring 607 to ensure that a magnetic suction block 603 moves in a reciprocating way, thereby driving a vibration defoaming piece 6 to move in a reciprocating way, the vibration defoaming piece 6 moves in the concrete slurry in a reciprocating way to vibrate bubbles in the concrete, and simultaneously, the section of the vibration defoaming piece 6 is triangular, as shown in fig. 7, in the process of reciprocating movement of the oscillation defoaming member 6, the inclined surface of the oscillation defoaming member 6 does not push slurry to move, the vertical surface of the oscillation defoaming member 6 pushes slurry to move, so that concrete slurry flows to the position of the drainage cone 2, when concrete flows into the drainage cone 2, the concrete flows downwards from the periphery of the pressure baffle disc 202, so as to avoid hollow columns generated in the center when the concrete flows downwards in the filling pressure cylinder 3, and in actual normal operation, the concrete slurry at least keeps at the middle height position of the drainage cone 2, so as to effectively avoid bubbles being raised by the slurry, the hydraulic push rod 517 contracts, the push rod pipe sleeve 501 and the support ring 502 rise through the transverse fixing plate 518, so as to drive the fixed push rod 5 to move upwards, the fixed push rod 5 is fixed with the unidirectional material pushing disc 4, so that the unidirectional material pushing disc 4 moves upwards, and in the process of moving upwards the unidirectional material pushing disc 4, the material pressing blocking disc 404 will move upwards first to make the blanking through hole 401 be opened, as shown in the state of fig. 4, the mud will pass around the material pressing blocking disc 404 and flow into the lower part of the one-way material pushing disc 4 through the blanking through hole 401, when the hydraulic top rod 517 extends out, the fixed push rod 5 will push the material pressing blocking disc 404 to move downwards similarly, when the material pressing blocking disc 404 is blocked in the blanking through hole 401, under the block of the spacing blocking ring 402, the material pressing blocking disc 404 will push the whole one-way material pushing disc 4 to move downwards, at this moment, the one-way material pushing disc 4 is in the up-and-down closed state, the mud under the one-way material pushing disc 4 will be pressed out under the one-way material pushing disc 4 under high pressure, and injected into the mold through the filling conveying pipe 302, and when the fixed push rod 5 is pushed downwards, during the one-way material pushing disc 4 moving downwards, because the fixed push rod 5 is subject to the reaction force of the one-way material pushing disc 4, the upper surface of the impact suspension disc 503 will contact with the lower surface of the lower pressing push table 505, the driving motor 514 drives the impact extrusion cam 511 to rotate through transmission, so that the impact extrusion cam 511 frequently impacts and collides the cam pressure plate 508, the cam pressure plate 508 is fixedly connected with the impact movable shaft 507, the impact movable shaft 507 is impacted downwards at high frequency, the lower end of the impact movable shaft 507 impacts the upper surface of the impact suspension plate 503, the fixed push rod 5 is impacted downwards at high frequency, the one-way material pushing plate 4 is further impacted downwards at high frequency, the one-way material pushing plate 4 is impacted downwards at high frequency and downwards, the pressure of concrete slurry output by the filling conveying pipe 302 can be sprayed out in an impact state with frequency fluctuation, the filled concrete slurry can be deeply vibrated while being filled with the slurry by utilizing the fluctuation impact of the slurry, compared with the traditional impact mould shell for vibration, the concrete can go deep into the concrete to discharge air bubbles inside the concrete, thereby further reduce the bubble in the concrete and exist, more even when making the concrete filling fill simultaneously, simultaneously because one-way charging tray 4 high frequency impact moves down downwards that pushes away for one-way charging tray 4 is more laborsaving when the downward movement.

Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.

Claims (10)

1. The utility model provides a concrete bubble-free filling equipment for housing construction, including carrying defoaming fill (1), drainage awl fill (2), filling pressure cylinder (3), one-way charging tray (4), fixed push rod (5), vibrate defoaming piece (6) and incline the material and keep off eaves (7), its characterized in that: the conveying defoaming bucket (1) is of a long strip plate shape, the edge of the conveying defoaming bucket is provided with a blocking eave, the drainage cone bucket (2) is fixedly arranged at the lower surface position of one end of the conveying defoaming bucket (1) and is communicated with the inside of the conveying defoaming bucket (1), the filling pressure cylinder (3) is fixedly communicated with the lower part of the drainage cone bucket (2), the filling pressure cylinder (3) is of a cylindrical tubular shape, the one-way material pushing disc (4) is movably arranged in the filling pressure cylinder (3) in a lifting way, the side wall surface of the one-way material pushing disc (4) is in tight contact with the inner wall surface of the filling pressure cylinder (3), the one-way material pushing disc (4) is provided with an upper pulling through material and a lower pressing material blocking function, the fixed push rod (5) is fixedly arranged at the upper surface position of the one-way material pushing disc (4), and the upper end position of the fixed push rod (5) is provided with a press rod structure with a lower pressing high-frequency impact function, the surface of depression bar structure is provided with pushes down the drive structure, vibrate defoaming piece (6) activity setting and be close to the lower surface position in the inside of carrying defoaming fill (1), vibrate defoaming piece (6) and have the level and come and go and vibrate the function, the material that inclines keeps off eaves (7) fixed the other end that sets up carrying defoaming fill (1) and is close to the top position.

2. The concrete bubble-free filling and filling apparatus for building construction according to claim 1, wherein: the unidirectional material pushing plate (4) comprises a discharging through hole (401), a limiting blocking ring (402), a lifting connecting rod (403), a material pressing blocking plate (404) and an anti-falling end block (405), the discharging through hole (401) is formed in the center of the unidirectional material pushing plate (4), the unidirectional material pushing plate (4) penetrates through the discharging through hole from top to bottom, and the limiting blocking ring (402) is fixedly arranged on the inner side surface of the discharging through hole (401).

3. The concrete bubble-free filling and filling apparatus for building construction according to claim 2, wherein: the lifting connecting rod (403) is fixedly installed on the upper surface of the limiting blocking ring (402), the pressing blocking disc (404) is coaxially arranged right above the blanking through hole (401), the diameter of the pressing blocking disc (404) is larger than that of the inner ring of the limiting blocking ring (402), the upper end of the lifting connecting rod (403) movably penetrates through the pressing blocking disc (404), and the anti-falling end block (405) is fixedly installed on the surface of the upper end of the lifting connecting rod (403).

4. The concrete bubble-free filling and filling apparatus for building construction according to claim 1, wherein: the pressure lever structure comprises a push rod pipe sleeve (501), a bearing ring (502), an impact suspension disc (503), a support connecting plate (504), a downward pressing pushing table (505), an impact through hole (506), an impact movable shaft (507), a cam pressure disc (508), an upper supporting spring (509), a cam frame (510), an impact extrusion cam (511), a driven gear (512), a driving gear (513) and a driving motor (514).

5. The concrete bubble-free filling and filling apparatus for building construction according to claim 4, wherein: the push rod pipe sleeve (501) is sleeved outside the fixed push rod (5), the bearing ring (502) is fixedly installed at the upper surface position of the push rod pipe sleeve (501), the impact suspension disc (503) is positioned right above the bearing ring (502), the upper end of the fixed push rod (5) penetrates through the bearing ring (502) and is fixedly installed at the lower surface position of the impact suspension disc (503), the supporting connecting plate (504) is fixedly installed at the upper surface position of the bearing ring (502), and the downward pressing push platform (505) is fixed with the upper end of the supporting connecting plate (504).

6. The concrete bubble-free filling and filling apparatus for building construction according to claim 5, wherein: strike the inside that through-hole (506) are vertically seted up and are pushed away platform (505) under pushing down, strike activity axle (507) activity and alternate the setting in the inside of strikeing through-hole (506), strike activity axle (507) and be located and strike suspension plate (503) directly over, cam pressure disk (508) fixed mounting is in the upper end surface position who strikes activity axle (507), it establishes in the outside of strikeing activity axle (507) to prop up spring (509) cover, is located cam pressure disk (508) and pushes away between platform (505) under with pushing down, cam rack (510) fixed mounting pushes away the upper surface position of platform (505) under pushing down.

7. The concrete bubble-free filling and filling apparatus for building construction according to claim 6, wherein: impact extrusion cam (511) rotate and install the inside at cam carrier (510), impact extrusion cam (511) are located cam pressure disk (508) directly over, and contact with cam pressure disk (508), driven gear (512) with impact extrusion cam (511) transmission installation, drive gear (513) with driven gear (512) intermeshing, driving motor (514) fixed mounting is in the outside of cam carrier (510), the rotation axis and the drive gear (513) transmission of driving motor (514) are connected.

8. The concrete bubble-free filling and filling apparatus for building construction according to claim 1, wherein: the down-pressing driving structure comprises a vertical supporting rod (515), a top disc frame (516), a hydraulic top rod (517) and a transverse fixing plate (518), wherein the vertical supporting rod (515) is vertically fixed on the surface position of the inner wall of the drainage cone bucket 2, the top disc frame (516) is fixedly installed on the surface position of the upper end of the vertical supporting rod (515), the hydraulic top rod (517) is fixedly installed on the lower surface position of the top disc frame (516), the transverse fixing plate (518) is fixedly installed on the surface position of the lower end of the hydraulic top rod (517), and the transverse fixing plate (518) is fixedly installed on the surface position of the outer wall of the push rod pipe sleeve (501).

9. The concrete bubble-free filling and filling apparatus for building construction according to claim 1, wherein: the cross section of the vibration defoaming piece (6) is in a right-angled triangle shape, a right-angled edge corresponding surface of the right-angled triangle is attached to the upper surface of the interior of the conveying defoaming hopper (1), another right-angled edge corresponding surface faces to one side of the drainage cone hopper (2), the vibration defoaming piece (6) is in a plurality of groups and is horizontally and linearly and uniformly distributed, the two end surface positions of the vibration defoaming piece (6) are fixedly provided with a side wall connecting plate (601), the upper surface position of the side wall connecting plate (601) is fixedly provided with a linkage vertical plate (602), the upper end of the linkage vertical plate (602) is fixedly provided with a magnetic suction block (603), the surface position of the eave blocking plate of the conveying defoaming hopper (1) is fixedly provided with an upper eave (604), the two sides of the upper eave plate (604) are symmetrically provided with installation vertical plates (605), and a tension spring (607) is fixedly arranged between the installation vertical plate (605) and the magnetic suction block (603), and an electromagnet (606) is fixedly embedded in the mounting vertical plate (605) on the other side.

10. The concrete bubble-free filling apparatus for building construction according to claim 1, wherein: inner wall surface fixed position that the drainage awl was fought (2) installs inner wall branch (201), the upper end fixed surface of inner wall branch (201) installs and presses and flows fender dish (202), the central point that presses and flows fender dish (202) puts and has seted up central jack (203), fixed push rod (5) alternate through central jack (203), the fixed intercommunication of lower extreme of a filling pressure section of thick bamboo (3) has discharging pipe (301), the outside cover of discharging pipe (301) is established and is installed filling conveyer pipe (302), the fixed counter weight ring (303) that is provided with of the other end of filling conveyer pipe (302).

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