CN111730718A - Building concrete slab pouring and extruding device - Google Patents

Abstract

The invention discloses a building concrete slab pouring and extruding device which comprises an installation box, wherein an installation cavity is arranged in the installation box, a stirring mechanism is arranged in the installation cavity, the stirring mechanism comprises a stirring box fixedly installed in the upper end wall of the installation cavity, a stirring cavity is arranged in the stirring box, moving springs are arranged in the upper and lower sides of the end surface of the outer side of the stirring box in a central symmetry mode, and moving blocks provided with lugs are arranged in the moving springs in a sliding mode. Make the material reach the degree that needs through carrying out abundant mixed stirring to the material to discharge the concrete that the stirring was accomplished, and make even placing place the incasement, spray the accelerator to the concrete simultaneously, make the concrete can solidify in short time, and extrude the concrete.

Description

Building concrete slab pouring and extruding device

Technical Field

The invention relates to the technical field of building pouring, in particular to a building concrete slab pouring extrusion device.

Background

Concrete pouring refers to a process from pouring concrete into a mold until plasticizing, and concrete slabs are formed by pouring concrete slurry into a mold for molding and are basic structures or components in building construction and various engineering structures, but most of concrete slab pouring adopts manpower to press concrete when pressing, so that the efficiency is poor, the pressing effect is not uniform, and long-time airing is needed to enable the building concrete slabs to be in a dry state, so that the time is wasted.

Disclosure of Invention

Aiming at the technical defects, the invention provides a building concrete slab pouring and extruding device which can overcome the defects.

The invention relates to a building concrete slab pouring and extruding device, which comprises an installation box, wherein an installation cavity is arranged in the installation box, a stirring mechanism is arranged in the installation cavity, the stirring mechanism comprises a stirring box fixedly arranged in the upper end wall of the installation cavity, a stirring cavity is arranged in the stirring box, moving springs are arranged in the outer side end face of the stirring box in a central symmetry manner in an up-down opposite manner, moving blocks provided with convex blocks are arranged in the moving springs in a sliding manner, a moving groove is fixedly connected between the left side end face of the moving block and the left side end wall of the moving spring, a pushing mechanism is arranged in the installation cavity, the pushing mechanism comprises a placing plate which is arranged in the installation cavity in a sliding manner and is positioned at the lower side of the stirring box, placing springs are arranged in a left-right opposite manner in the central symmetry manner between the lower end face of the placing plate and the bottom end, it has the coupling spring to place the incasement, it has the coupling spring to place intracavity slidable mounting, coupling spring down the terminal surface with place controlling between the chamber lower extreme wall for central symmetry fixedly connected with connecting plate, installation cavity left end face fixed mounting has the connecting block, slidable mounting has with place the promotion rack of case butt and T shape in the connecting block, the axis of rotation that is equipped with the torsional spring is installed to installation cavity rear end wall internal rotation, in the axis of rotation fixed mounting with promote rack toothing's semicircle gear, fixed mounting has the connecting rod on the semicircle gear right side inclined plane, extrusion mechanism in the installation cavity.

Preferably, the stirring mechanism further comprises a stirring tank arranged in the left end face of the stirring box, the first end wall of the installation cavity is rotationally installed and connected to a first stirring shaft in the stirring cavity, the first stirring shaft is fixedly installed with a first bevel gear in the installation cavity, the first stirring shaft is fixedly installed with a transmission gear in the stirring tank, the first stirring shaft is fixedly installed with a first stirring block in the stirring cavity, the left end wall of the stirring tank is internally provided with a second stirring shaft which is vertically symmetrically rotated relative to the first stirring shaft and connected to the stirring box, the second stirring shaft is fixedly installed with a connecting gear meshed with the transmission gear, and the second stirring shaft is fixedly installed with a second stirring block in the stirring box.

Preferably, the stirring mechanism further comprises a motor fixedly installed on the left end wall of the installation cavity, the rear end of the motor is in power connection with a driving shaft, a bevel gear four meshed with the bevel gear one is fixedly installed on the driving shaft, the front end of the motor is in power connection with a connecting shaft, a bevel gear three is fixedly installed on the connecting shaft, a moving shaft is installed in the left end face of the installation cavity in a rotating mode, a bevel gear two meshed with the bevel gear three is fixedly installed on the moving shaft, a sleeve located on the right side of the bevel gear two is further fixedly installed on the moving shaft, and a track groove is formed in the sleeve.

Preferably, rabbling mechanism still includes fixed mounting and is in the installation cavity upper end wall just is located the bin of accelerating agent is stored in the agitator tank front side and, terminal surface fixed mounting has the drive plate that is equipped with the spread groove under the bin, terminal surface fixed mounting under the bin can stretch out and draw back and be equipped with the connecting rod with spread groove on the drive plate with orbit groove sliding fit's conveyer pipe, conveyer pipe lower extreme inclined plane fixed mounting have the slope and with the downside the injector head of lug butt on the movable block.

Preferably, pushing mechanism still includes slidable mounting place in the chamber rear end wall and be connected to the drive rack of the T shape in the installation cavity, the interior sliding fit of drive rack lower extreme face has and is equipped with the torsional spring and is located the sloping piece of installation cavity, place the interior rotation of chamber front end wall and install the discharge shaft that is equipped with the torsional spring, the epaxial fixed mounting of discharge has the discharge plate, place the interior sliding mounting of chamber lower extreme face have the inclined plane and be equipped with the fixture block of torsional spring with the discharge plate butt.

Preferably, the extrusion mechanism comprises a concave fixed block fixedly arranged on the upper end wall of the mounting cavity and positioned at the right side of the stirring box, a fixed cavity is arranged in the fixed block, an air pump positioned in the center of the fixed block is fixedly arranged on the upper end wall of the fixed cavity, the front and the back of the air pump are connected with connecting pipes symmetrically relative to the center, a T-shaped extrusion plate connected to the inside of the installation cavity is arranged in the front end wall of the fixed cavity in a sliding way, an extrusion spring is fixedly connected between the upper end surface of the extrusion plate and the upper end wall of the fixed cavity, a push-out rack connected into the installation cavity is arranged in the rear end wall of the fixed cavity in a sliding manner, a driving spring is fixedly connected between the upper end surface of the push-out rack and the upper end wall of the fixed cavity, a push-out shaft is rotatably arranged in the right end wall of the installation cavity, and a push-out gear meshed with the push-out rack and the driving rack is fixedly arranged on the push-out shaft.

The beneficial effects are that: according to the device, the required materials are placed in the stirring box, the materials are fully mixed and stirred to reach the required degree, the stirred concrete is discharged and uniformly placed in the placing box, the concrete is sprayed with the accelerator, so that the concrete can be solidified in a short time, the concrete is extruded, and the formed concrete is pushed out, so that the construction efficiency is improved.

Drawings

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

Fig. 1 is a schematic front view of a construction concrete slab casting press apparatus of the present invention;

FIG. 2 is a schematic structural diagram of A-A in FIG. 1 according to an embodiment of the present invention;

FIG. 3 is a schematic structural diagram of B-B in FIG. 1 according to an embodiment of the present invention;

FIG. 4 is a schematic structural diagram of C-C in FIG. 1 according to an embodiment of the present invention;

FIG. 5 is a schematic structural diagram of D-D in FIG. 2 according to an embodiment of the present invention.

Detailed Description

All of the features disclosed in this specification, or all of the steps in any method or process so disclosed, may be combined in any combination, except combinations and/or steps that are mutually exclusive.

The invention will now be described in detail with reference to fig. 1-5, for convenience of description, the following orientations will now be defined: the up, down, left, right, and front-back directions described below correspond to the up, down, left, right, and front-back directions in the projection relationship of fig. 1 itself.

The invention relates to a building concrete slab pouring extrusion device, which comprises an installation box 10, wherein an installation cavity 11 is arranged in the installation box 10, a stirring mechanism 64 which can be used for placing required materials and fully stirring and forming concrete is arranged in the installation cavity 11, the stirring mechanism 64 comprises a stirring box 19 fixedly arranged in the upper end wall of the installation cavity 11, a stirring cavity 18 is arranged in the stirring box 19, moving springs 17 are arranged in the outer side end surface of the stirring box 19 in a vertically symmetrical mode, a moving block 28 provided with a convex block is arranged in the moving springs 17 in a sliding mode, a moving groove 16 is fixedly connected between the left side end surface of the moving block 28 and the left side end wall of the moving spring 17, a pushing mechanism 65 which can discharge the concrete and spray accelerating agent and push the concrete is arranged in the installation cavity 11, the pushing mechanism 65 comprises a placing plate 35 which is arranged in the installation cavity 11 in a sliding mode and is positioned on the lower side of the stirring box, the left and right sides of the lower end face of the placing plate 35 and the bottom end wall of the mounting cavity 11 are symmetrically provided with placing springs 36, the upper end face of the placing plate 35 is in sliding fit with a placing box 37 positioned on the lower side of the stirring box 19, the placing box 37 is internally provided with a placing cavity 38, the placing cavity 38 is internally provided with a connecting spring 40 in a sliding manner, the left and right sides of the lower end face of the connecting spring 40 and the lower end wall of the placing cavity 38 are symmetrically and fixedly connected with a connecting plate 39, the left end face of the mounting cavity 11 is fixedly provided with a connecting block 15, a T-shaped pushing rack 14 abutted against the placing box 37 is arranged in the connecting block 15 in a sliding manner, the rear end wall of the mounting cavity 11 is rotatably provided with a rotating shaft 13 provided with a torsion spring, a semicircular gear 12 meshed with the pushing rack 14 is fixedly arranged on the, the installation cavity 11 is provided with an extrusion mechanism 66 capable of extruding concrete to form the concrete and discharging the concrete.

Beneficially, the stirring mechanism 64 further includes a stirring tank 24 disposed in the left end face of the stirring tank 19, a first stirring shaft 20 connected to the inside of the stirring chamber 18 is rotatably mounted on the left end wall of the installation chamber 11, a first bevel gear 21 located in the installation chamber 11 is fixedly mounted on the first stirring shaft 20, a transmission gear 22 located in the stirring tank 24 is further fixedly mounted on the first stirring shaft 20, a first stirring block 23 located in the stirring chamber 18 is further fixedly mounted on the first stirring shaft 20, a second stirring shaft 26 connected to the inside of the stirring tank 19 is rotatably mounted in the left end wall of the stirring tank 24 up and down symmetrically with respect to the first stirring shaft 20, a connecting gear 25 engaged with the transmission gear 22 is fixedly mounted on the second stirring shaft 26, and a second stirring block 27 located in the stirring tank 19 is further fixedly mounted on the second stirring shaft 26, the stirring shaft I20 is driven to rotate through the meshing transmission between the transmission gear 22 and the connecting gear 25 through the rotation of the stirring shaft I20, so that the stirring shaft II 26 is driven to rotate, the stirring block II 27 is driven to rotate, and the stirring block I23 is driven to rotate through the rotation of the stirring shaft I20, so that the rotation of the stirring block II 27 and the rotation of the stirring block I23 stir materials.

Advantageously, the stirring mechanism 64 further comprises a motor 50 fixedly installed on the left end wall of the installation cavity 11, the rear end of the motor 50 is in power connection with a driving shaft 51, a bevel gear four 52 engaged with the bevel gear one 21 is fixedly installed on the driving shaft 51, the front end of the motor 50 is in power connection with a connecting shaft 49, a bevel gear three 48 is fixedly installed on the connecting shaft 49, a moving shaft 47 is rotatably installed on the left end surface of the installation cavity 11, a bevel gear two 46 engaged with the bevel gear three 48 is fixedly installed on the moving shaft 47, a sleeve 44 located on the right side of the bevel gear two 46 is also fixedly installed on the moving shaft 47, a track groove 45 is formed in the sleeve 44, and the connecting shaft 49 is driven to rotate through the engagement between the bevel gear three 48 and the bevel gear two 46 through the rotation of the connecting shaft 49, so as to cause the moving, causing the sleeve 44 to rotate.

Beneficially, rabbling mechanism 64 still includes fixed mounting in installation cavity 11 upper end wall and be located agitator tank 19 front side and the storage tank 54 that is stored with the accelerator in, end fixed mounting has the drive plate 43 that is equipped with the spread groove under the storage tank 54, end fixed mounting has can stretch out and draw back and be equipped with the connecting rod with spread groove on the drive plate 43 with orbit groove 45 sliding fit's conveyer pipe 42 under the storage tank 54, conveyer pipe 42 lower extreme inclined plane fixed mounting have the slope and with the downside the injector head 53 of boss butt on the movable block 28, through sleeve 44 rotates, makes and passes through spread groove on the drive plate 43 with orbit groove 45 sliding fit about the conveyer pipe 42.

Advantageously, the pushing mechanism 65 further comprises a T-shaped driving rack 63 slidably mounted in the rear end wall of the placing cavity 38 and connected to the mounting cavity 11, a bevel block 62 provided with a torsion spring and located in the mounting cavity 11 is slidably fitted in the lower end face of the driving rack 63, a discharge shaft 59 provided with a torsion spring is rotatably mounted in the front end wall of the placing cavity 38, a discharge plate 60 is fixedly mounted on the discharge shaft 59, a block 61 provided with a bevel and a torsion spring is slidably mounted in the lower end face of the placing cavity 38, a block 61 provided with a bevel and abutting against the discharge plate 60 is slidably mounted in the lower end face of the placing cavity 38, and the driving rack 63 is driven to push the building concrete plate to move forward, so that the bevel block 62 pushes the block 61 to move downward, the block 61 is not abutted against the discharge plate 60, and the discharge plate 60 is driven to rotate when the driving rack 63 pushes forward, so that the building concrete slab is pushed forward.

Beneficially, the pressing mechanism 66 includes a concave fixing block 30 fixedly installed on the upper end wall of the installation cavity 11 and located on the right side of the stirring box 19, a fixing cavity 31 is provided in the fixing block 30, an air pump 56 located at the center of the fixing block 30 is fixedly installed on the upper end wall of the fixing cavity 31, the air pump 56 is connected with a connecting pipe 55 in a front-back symmetric manner relative to the center, a T-shaped pressing plate 32 connected to the installation cavity 11 is slidably installed on the front end wall of the fixing cavity 31, a pressing spring 29 is fixedly connected between the upper end surface of the pressing plate 32 and the upper end wall of the fixing cavity 31, a pushing rack 58 connected to the installation cavity 11 is slidably installed on the rear end wall of the fixing cavity 31, a driving spring 57 is fixedly connected between the upper end surface of the pushing rack 58 and the upper end wall of the fixing cavity 31, and a pushing shaft 33 is rotatably installed in the, the push-out shaft 33 is fixedly provided with a push-out gear 34 engaged with the push-out rack 58 and the driving rack 63, the push-out rack 58 is blown by the connecting pipe 55 at the rear side to move downwards, the push-out rack 58 is driven to engage with the push-out gear 34 to rotate, and the push-out shaft 33 is enabled to rotate.

In the initial state, the moving slot 16 is in an undeformed state, the link plate 39 is in an undeformed state, the parking spring 36 is in an undeformed state, the pressing spring 29 is in an undeformed state, and the driving spring 57 is in an undeformed state.

When the stirring machine starts to work, the upper moving block 28 is pushed to move leftwards, building concrete plate materials needing to be stirred are placed into the stirring cavity 18, then the motor 50 is started, the driving shaft 51 is driven to rotate through meshing between the bevel gear four 52 and the bevel gear one 21, the stirring shaft one 20 is driven to rotate, the stirring shaft one 20 is driven to drive through meshing between the transmission gear 22 and the connecting gear 25, the stirring shaft two 26 is driven to rotate, the stirring block two 27 is driven to rotate, and meanwhile, the stirring block one 23 is driven to rotate through rotation of the stirring shaft one 20, so that rotation of the stirring block two 27 and the stirring block one 23 stirs the materials; after the stirring is finished, the connecting shaft 49 is driven to rotate through the meshing transmission between the third bevel gear 48 and the second bevel gear 46, so that the moving shaft 47 is driven to rotate, the sleeve 44 rotates, the conveying pipe 42 which is in sliding fit with the connecting groove and the track groove 45 on the driving plate 43 is driven to move left and right, the accelerating agent stored in the storage tank 54 is left in the spraying head 53 through the conveying pipe 42 by the conveying pipe 42, the spraying head 53 abuts against a convex block on the moving block 28 on the lower side, the moving block 28 on the lower side is driven to move left and right, and the concrete which is stirred in the stirring cavity; the connecting spring 40 bears the weight of the concrete, the connecting spring 40 is driven to move downwards under the action of the elastic force of the connecting plate 39, the placing plate 35 bears the weight of the placing box 37 and the concrete, the placing plate 35 is driven to gradually move downwards under the action of the elastic force of the placing spring 36, the placing plate 35 drives the connecting rod 41 to rotate around the rotating shaft 13, the semi-circular gear 12 rotates around the rotating shaft 13, the semi-circular gear 12 drives the pushing rack 14 to move rightwards, the placing box 37 gradually moves rightwards, and the flowing concrete is uniformly placed on the connecting spring 40 and is driven to the lower side of the extrusion plate 32; the air pump 56 is started to cause the connecting pipe 55 at the front side to generate air to push the extrusion plate 32 to move downwards, so that the concrete in the placing cavity 38 is extruded into blocks through the extrusion plate 32, then the extrusion rack 58 is blown to move downwards through the connecting pipe 55 at the rear side, the extrusion rack 58 is caused to be meshed with the extrusion gear 34 to rotate, the extrusion shaft 33 is caused to be meshed with the driving rack 63, the driving rack 63 is caused to push the building concrete plate to move forwards through the driving rack 63, the slope block 62 is caused to push the fixture block 61 to move downwards, the fixture block 61 is not abutted with the discharge plate 60, the discharge plate 60 is caused to rotate when the driving rack 63 is pushed forwards, so that the building concrete plate is pushed forwards, and then the device returns to the initial position after the processing is finished.

The beneficial effects are that: according to the device, the required materials are placed in the stirring box, the materials are fully mixed and stirred to reach the required degree, the stirred concrete is discharged and uniformly placed in the placing box, the concrete is sprayed with the accelerator, so that the concrete can be solidified in a short time, the concrete is extruded, and the formed concrete is pushed out, so that the construction efficiency is improved.

The above description is only an embodiment of the invention, but the scope of the invention is not limited thereto, and any changes or substitutions that are not thought of through the inventive work should be included in the scope of the invention. Therefore, the protection scope of the invention should be subject to the protection scope defined by the claims.

Claims (6)

1. The utility model provides a building concrete slab pours extrusion device, includes the install bin, its characterized in that: the stirring mechanism comprises a stirring box fixedly arranged in the upper end wall of the mounting cavity, the stirring box is internally provided with a stirring cavity, the outer side end face of the stirring box is internally provided with a centrally symmetrical moving spring in an up-down manner, a moving block provided with a lug is slidably arranged in the moving spring, a moving groove is fixedly connected between the left side end face of the moving block and the left side end wall of the moving spring, the mounting cavity is internally provided with a pushing mechanism, the pushing mechanism comprises a placing plate which is slidably arranged in the mounting cavity and is positioned at the lower side of the stirring box, placing springs are symmetrically arranged between the lower end face of the placing plate and the bottom end wall of the mounting cavity in a left-right manner relative to the center, the upper end face of the placing plate is in sliding fit with the placing box positioned at the lower side of the stirring box, and the placing cavity, it has connecting spring to place intracavity slidable mounting, connecting spring down the terminal surface with place for central symmetry fixedly connected with connecting plate about between the chamber lower extreme wall, installation cavity left end face fixed mounting has the connecting block, slidable mounting have in the connecting block with place the promotion rack of case butt and T shape, the axis of rotation that is equipped with the torsional spring is installed to installation cavity rear end wall internal rotation, fixed mounting has in the axis of rotation with promote rack toothing's semicircle gear, fixed mounting has the connecting rod on the semicircle gear right side inclined plane, extrusion mechanism in the installation cavity.

2. A construction concrete panel casting press as claimed in claim 1 wherein: the stirring mechanism is characterized by further comprising a stirring tank arranged in the left end face of the stirring box, wherein the left end wall of the installation cavity is rotationally connected with a first stirring shaft in the stirring cavity, the first stirring shaft is fixedly provided with a first bevel gear in the installation cavity, the first stirring shaft is fixedly provided with a transmission gear in the stirring tank, the first stirring shaft is fixedly provided with a first stirring block in the stirring cavity, the left end wall of the stirring tank is internally provided with a second stirring shaft which is symmetrically and rotationally connected with the first stirring shaft, the second stirring shaft is fixedly provided with a connecting gear meshed with the transmission gear, and the second stirring shaft is fixedly provided with a second stirring block in the stirring box.

3. A construction concrete panel casting press as claimed in claim 1 wherein: the stirring mechanism further comprises a motor fixedly installed on the left end wall of the installation cavity, the rear end of the motor is in power connection with a driving shaft, a bevel gear four meshed with the bevel gear one is fixedly installed on the driving shaft, the front end of the motor is in power connection with a connecting shaft, a bevel gear three is fixedly installed on the connecting shaft, a moving shaft is installed in the left end face of the installation cavity in a rotating mode, a bevel gear two meshed with the bevel gear three is fixedly installed on the moving shaft, a sleeve located on the right side of the bevel gear two is fixedly installed on the moving shaft, and a track groove is formed in the sleeve.

4. A construction concrete panel casting press as claimed in claim 1 wherein: rabbling mechanism still includes fixed mounting and is in the installation cavity upper end wall just is located the bin that has the accelerator in the agitator tank front side and the storage, terminal surface fixed mounting has the drive plate that is equipped with the spread groove under the bin, terminal surface fixed mounting under the bin can stretch out and draw back and be equipped with the connecting rod with spread groove on the drive plate with orbit groove sliding fit's conveyer pipe, conveyer pipe lower extreme inclined plane fixed mounting have the slope and with the downside the injector head of lug butt on the movable block.

5. A construction concrete panel casting press as claimed in claim 1 wherein: push mechanism still includes slidable mounting place in the chamber rear end wall and be connected to the drive rack of the T shape of installation intracavity, the interior sliding fit of drive rack lower extreme facial features has to be equipped with the torsional spring and is located the slope piece of installation intracavity, place the chamber front end wall internal rotation and install the discharge shaft that is equipped with the torsional spring, the epaxial fixed mounting of discharge has the discharge plate, place the chamber lower extreme facial features slidable mounting have with the discharge plate butt has the inclined plane and is equipped with the fixture block of torsional spring.

6. A construction concrete panel casting press as claimed in claim 1 wherein: the extrusion mechanism comprises a concave fixed block which is fixedly arranged on the upper end wall of the mounting cavity and is positioned on the right side of the stirring box, a fixed cavity is arranged in the fixed block, an air pump positioned in the center of the fixed block is fixedly arranged on the upper end wall of the fixed cavity, the front and the back of the air pump are connected with connecting pipes symmetrically relative to the center, a T-shaped extrusion plate connected to the inside of the installation cavity is arranged in the front end wall of the fixed cavity in a sliding way, an extrusion spring is fixedly connected between the upper end surface of the extrusion plate and the upper end wall of the fixed cavity, a push-out rack connected into the installation cavity is arranged in the rear end wall of the fixed cavity in a sliding manner, a driving spring is fixedly connected between the upper end surface of the push-out rack and the upper end wall of the fixed cavity, a push-out shaft is rotatably arranged in the right end wall of the installation cavity, and a push-out gear meshed with the push-out rack and the driving rack is fixedly arranged on the push-out shaft.

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