CN112248182A

CN112248182A - Civil engineering building pouring equipment

Info

Publication number: CN112248182A
Application number: CN202011223307.XA
Authority: CN
Inventors: 储小英
Original assignee: Individual
Current assignee: Individual
Priority date: 2020-11-05
Filing date: 2020-11-05
Publication date: 2021-01-22

Abstract

The invention discloses civil engineering building pouring equipment, which comprises a top side box body, wherein an external box body is arranged on the lower side of the top side box body, the external box body is fixedly matched and connected with the top side box body, a bottom box body is arranged in the external box body, an inner cavity is arranged in the bottom box body, an inner matching cavity is arranged in the top side box body, a stirring device which is used for fully stirring the concrete in the inner cavity in a rotating mode to remove redundant bubbles is arranged on the upper side of the outer box body, the inside cooperation chamber top is provided with and is used for providing the orbit device that moves in order to realize becoming the orbit and mix for agitating unit, and this equipment can make the stirring rod move along the orbit in cooperation orbit chamber and the stirring rod possesses flexible function, makes the inside concrete of equipment can both effectually clear away the bubble and make concrete deposit high-efficient.

Description

Civil engineering building pouring equipment

Technical Field

The invention relates to the technical field of civil engineering equipment, in particular to civil engineering building pouring equipment.

Background

In the existing civil pouring equipment, because concrete needs to be continuously stirred in the pouring process, then the stirring aims at discharging gaps and air in the concrete, so that the concrete is settled, then the concrete is continuously stirred, if the stirring is uneven or the stirring range is not complete, more gaps can be formed after the concrete is formed into an entity, the structural strength and the reliability of the concrete can be weakened due to the existence of the gaps, most of the existing equipment adopts personnel to directly hold a corresponding stirring structure for stirring the concrete, then the concrete is sufficiently stirred in a concrete area, then air bubbles are blown out in the stirring process, and the existing equipment needs personnel to operate, so that a great amount of time is wasted for the personnel to operate, and the personnel needs to enter a concrete pouring area, the life safety of personnel is threatened.

Disclosure of Invention

The technical problem to be solved by the invention is to provide civil engineering building pouring equipment which can solve the problems in the prior art.

The invention is realized by the following technical scheme: the civil engineering building pouring equipment comprises a top side box body, wherein an external box body is arranged on the lower side of the top side box body, the external box body is fixedly matched and connected with the top side box body, a bottom box body is arranged in the external box body, an internal cavity is arranged in the bottom box body, an internal matching cavity is arranged in the top side box body, a stirring device which is used for fully stirring concrete in the internal cavity in a rotating mode to remove redundant bubbles is arranged on the upper side of the external box body, and a track device which is used for providing a running track for the stirring device to realize variable-track stirring is arranged at the top of the internal matching cavity.

According to the technical scheme, the stirring device comprises a bottom annular block connected with the top of the stirring rod in a sliding fit mode, the top of the bottom annular block is provided with a middle shell, a through matching sliding cavity is arranged in the middle shell, a sliding guide rod is arranged between the end walls of the matching sliding cavity, a side matching motor is arranged on one side of the stirring rod, a top side connecting gear is arranged at the top of the side matching motor in a power connection mode, a connecting toothed ring is arranged on one side of the middle shell, the connecting toothed ring is meshed with the top side connecting gear and is arranged, the top side box body is provided with a driving mechanism, the middle shell is pressed close to the stirring rod, the stirring rod is pushed to rotate to compress a component, and a sliding stirring component connected with the sliding guide rod in a matching.

According to a further technical scheme, the pushing and pressing assembly comprises a pushing cylinder fixedly matched and connected with the top of the top side box body, a circular wheel is arranged on the outer surface of an output shaft of the pushing cylinder in a rotating mode, an open annular groove is formed in the top of the middle shell body, the annular groove is arranged in an annular mode, and the circular wheel is connected with the annular groove in a sliding fit mode.

According to the technical scheme, the sliding stirring assembly comprises a bottom side matching block connected with a sliding inner cavity in a matched and matched mode, the bottom side matching block is connected with a sliding guide rod in a sliding and matched mode, a card loading and connecting box body is arranged at the top of the bottom side matching block, a gear is arranged in the card loading and connecting box body and places an inner cavity, one side of the gear placing inner cavity is communicated with and provided with an extending cavity, the extending cavity is communicated with an external space, and a gear placing inner cavity is provided with an adjusting stirring structure which adopts a pushing mode to stretch and adjust the stirring depth in a telescopic mode.

According to the technical scheme, the adjusting and stirring structure comprises an inner rotating cylinder which is connected with the end wall of the gear placing inner cavity in a rotating matching mode, a top side matching cylinder is arranged on one side of the inner rotating cylinder, a penetrating inner cavity which penetrates through the inner rotating cylinder is arranged in the inner rotating cylinder, a telescopic rod is arranged on one side of the top side matching cylinder in a power connection mode, the telescopic rod penetrates through the bottom side matching block in a sliding mode, a stirring rod is arranged on the lower side of the telescopic rod, and a rolling gear is arranged on the outer surface of the.

According to the technical scheme, the track device comprises a clamping block, a through matching track cavity is formed in the clamping block, a tooth form is arranged on the end wall of one side of the matching track cavity, the clamping block is connected with the end wall of the matching track cavity in a sliding fit mode, a rolling gear is meshed with the tooth form, and the two sides of the top side box body are provided with elastic locking assemblies used for locking the clamping block in the top side box body in an elastic clamping mode.

According to the technical scheme, the elastic locking assembly comprises a sliding fit groove formed in the top of the top side box body, an opening of the sliding fit groove is formed, the sliding fit groove is symmetrically formed, a pressing plate is arranged in the sliding fit groove in a sliding mode, the pressing plate and the clamping block is clamped and arranged, and a buffering connecting spring is elastically arranged between the pressing plate and the end wall of the sliding fit groove.

The invention has the beneficial effects that:

the device is simple in structure, the stirring rod can move along the track of the matching track cavity and has a telescopic function, so that the concrete in the device can be effectively cleaned of bubbles, and the concrete deposition is efficient.

When the equipment works, the matching track cavities with different specifications can be designed in advance, then the clamping block is installed in the top side box body by pulling the pressing plate to enable the pressing plate and the clamping block to be clamped, the matching track cavities are connected with the clamping connecting box body in a sliding fit mode, the tooth forms are meshed with the rolling gears to be arranged, then the side matching motor drives the top side connecting gear to rotate after working, the top side connecting gear drives the connecting gear ring to rotate after rotating, the middle shell body rotates, the bottom annular block slides on the top of the outer box body, the circular wheel extends into the annular groove and is connected with the annular groove in a sliding fit mode after working, and the circular wheel is better aligned with the bottom annular block to be convenient for stable rotation of the middle shell body, and because the middle shell rotates, the bottom side matching block slides in the matching sliding inner cavity and the sliding guide rod, and the bottom side matching block moves along the track of the matching track cavity, and because the rolling gear is meshed with the tooth form in the moving process of the clamping connection box body, the inner rotating cylinder rotates, so that the stirring rod can indirectly rotate to stir concrete, and the top side matching cylinder drives the telescopic rod to perform telescopic movement after working, so that the gap inside the concrete can be filled when the stirring rod can fully contact and stir the concrete.

Drawings

For ease of illustration, the invention is described in detail by the following specific examples and figures.

FIG. 1 is a schematic view of the internal overall structure of the civil engineering building pouring equipment of the present invention;

FIG. 2 is a schematic view of the direction A in FIG. 1;

FIG. 3 is a schematic view at B of FIG. 1;

in the figure, a stirring rod 11, an internal cavity 12, a bottom box 13, an external box 14, a top box 15, an internal matching cavity 16, a clamping block 21, a matching track cavity 22, a top connecting gear 31, a side matching motor 32, a connecting gear ring 33, a middle shell 34, a round wheel 35, an annular groove 36, a tooth form 37, a buffer connecting spring 38, a sliding matching groove 39, a pressing plate 41, a pushing cylinder 42, an extending cavity 43, an internal rotating cylinder 44, a top matching cylinder 45, a gear placing inner cavity 46, a clamping connecting box 47, a rolling gear 48, a penetrating inner cavity 49, a sliding guide rod 51, a matching sliding inner cavity 52, a bottom matching block 53, a telescopic rod 54 and a bottom annular block 56.

Detailed Description

As shown in fig. 1 to 3, the present invention is explained in detail, and for convenience of description, the following orientations are defined as follows: the civil engineering building pouring equipment comprises a top side box body 15, an external box body 14 is arranged on the lower side of the top side box body 15, the external box body 14 is fixedly matched and connected with the top side box body 15, a bottom box body 13 is arranged in the external box body 14, an internal cavity 12 is arranged in the bottom box body 13, an internal matching cavity 16 is arranged in the top side box body 15, a stirring device which is used for fully stirring concrete in the internal cavity 12 in a rotating mode to remove redundant bubbles is arranged on the upper side of the external box body 14, and a track device which is used for providing a running track for the stirring device to realize variable-track stirring is arranged on the top of the internal matching cavity 16.

Advantageously, wherein the stirring means comprise a bottom annular block 56 connected with sliding fit on the top of said stirring rod 11, the top of the bottom annular block 56 is provided with a middle shell 34, a matching sliding cavity 52 penetrating through the middle shell 34 is arranged in the middle shell 34, a sliding guide rod 51 is arranged between the end walls of the matching sliding inner cavity 52, one side of the stirring rod 11 is provided with a side matching motor 32, the top of the side matching motor 32 is provided with a top side connecting gear 31 in a power connection way, one side of the middle shell 34 is provided with a connecting gear ring 33, the connecting gear ring 33 is engaged with the top side connecting gear 31, a pushing and pressing component for enabling the middle shell 34 to be close to the stirring rod 11 to rotate is arranged at the top of the top side box body 15, a sliding and stirring component which is connected with the sliding guide rod 51 in a matching way to realize the angle function is arranged in the matching sliding inner cavity 52.

Advantageously, the pushing and pressing assembly comprises a pushing cylinder 42 fixedly connected with the top of the top side box 15 in a matching mode, a circular wheel 35 is arranged on the outer surface of an output shaft of the pushing cylinder 42 in a rotating mode, an open annular groove 36 is arranged on the top of the middle shell 34, the annular groove 36 is arranged in an annular mode, and the circular wheel 35 is connected with the annular groove 36 in a sliding matching mode.

Advantageously, the sliding stirring assembly comprises a bottom side matching block 53 in sliding fit connection with the matching sliding inner cavity 52, the bottom side matching block 53 is in sliding fit connection with the sliding guide rod 51, a card loading and connecting box body 47 is arranged at the top of the bottom side matching block 53, a gear placing inner cavity 46 is arranged in the card loading and connecting box body 47, an extending cavity 43 is arranged on one side of the gear placing inner cavity 46 in a communicating mode, the extending cavity 43 is arranged in a communicating mode with the external space, and a stirring adjusting structure for adjusting the stirring depth in a pushing mode in a telescopic mode is arranged in the gear placing inner cavity 46.

Advantageously, the adjusting and stirring structure comprises an inner rotating cylinder 44 connected with the end wall of the gear placing cavity 46 in a rotating fit manner, a top side matching cylinder 45 is arranged on one side of the inner rotating cylinder 44, a penetrating cavity 49 penetrating through the inner rotating cylinder 44 is arranged in the inner rotating cylinder, an expansion rod 54 is arranged on one side of the top side matching cylinder 45 in a power connection manner, the expansion rod 54 penetrates through the bottom side matching block 53 in a sliding manner, a stirring rod 11 is arranged on the lower side of the expansion rod 54, and a rolling gear 48 is arranged on the outer surface of the inner rotating cylinder 44.

Advantageously, the track device includes a fixture block 21, a through-going matching track cavity 22 is arranged in the fixture block 21, a tooth shape 37 is arranged on an end wall of one side of the matching track cavity 22, the fixture connection box body 47 is connected with an end wall of the matching track cavity 22 in a sliding fit manner, the rolling gear 48 is arranged in a meshing manner with the tooth shape 37, and elastic locking components for elastically clamping and locking the fixture block 21 in the top side box body 15 are arranged on two sides of the top side box body 15.

Advantageously, the elastic locking assembly comprises a sliding fit groove 39 arranged at the top of the top box 15, the sliding fit groove 39 is opened, the sliding fit groove 39 is symmetrically arranged, a pressing plate 41 is slidably arranged in the sliding fit groove 39, the pressing plate 41 is arranged in a clamping manner with the clamping block 21, and a buffer connecting spring 38 is elastically arranged between the pressing plate 41 and the end wall of the sliding fit groove 39.

In an initial state, the device, the components and the structure are in a stop working state, the stirring rod 11 can move along the track of the matching track cavity 22, the stirring rod 11 has a telescopic function, and therefore concrete in the device can be effectively cleaned of air bubbles and the concrete deposition is efficient.

When the device is operated, the matching track cavities 22 with different specifications can be designed in advance, then the clamping block 21 is installed in the top side box body 15 by pulling the pressing plate 41 to clamp the pressing plate 41 and the clamping block 21, the matching track cavities 22 are connected with the clamping block box body 47 in a sliding fit manner, the tooth profiles 37 are meshed with the rolling gears 48, then the side matching motor 32 is operated to drive the top side connecting gear 31 to rotate, the top side connecting gear 31 is rotated to drive the connecting tooth ring 33 to rotate, the middle shell 34 is rotated, the bottom ring block 56 slides on the top of the outer box body 14, and the pushing cylinder 42 is operated to enable the round wheel 35 to extend into the annular groove 36 and be connected with the annular groove in a sliding fit manner, the circular wheel 35 is better aligned with the bottom annular block 56 so that the middle shell 34 can rotate stably, the middle shell 34 rotates to enable the bottom matching block 53 to slide in the matching sliding cavity 52 and the sliding guide rod 51, the bottom matching block 53 moves along the track of the matching track cavity 22, the rolling gear 48 is meshed with the tooth form 37 in the moving process of the loading and connecting box body 47, the inner rotating cylinder 44 rotates to enable the stirring rod 11 to indirectly rotate and stir concrete, and the top matching cylinder 45 drives the telescopic rod 54 to move telescopically after working, so that the stirring rod 11 can be fully contacted with the concrete and the gap inside the concrete is filled when the stirring rod 11 is fully contacted and stirred with the concrete.

The above description is only an embodiment of the present invention, but the scope of the present 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 present invention. Therefore, the protection scope of the present invention shall be subject to the protection scope defined by the claims.

Claims

1. The utility model provides a civil engineering building pouring equipment, includes the top side box, top side box downside is provided with outside box, outside box with top side box fixed fit connects, be provided with the bottom box in the outside box, be provided with inside chamber in the bottom box, be provided with the inside cooperation chamber in the top side box, outside box upside is provided with and adopts the pivoted mode right the concrete of inside intracavity carries out abundant stirring and goes out the agitating unit of unnecessary bubble, inside cooperation chamber top is provided with and is used for providing the orbit for agitating unit and in order to realize becoming the orbit and stir the orbit device.

2. The civil engineering building casting apparatus of claim 1, wherein: the stirring device comprises a bottom annular block connected with the top of the stirring rod in a sliding fit mode, the top of the bottom annular block is provided with a middle shell, a running-through matched sliding cavity is arranged in the middle shell, a sliding guide rod is arranged between the end walls of the matched sliding cavity, one side of the stirring rod is provided with a side matched motor, the top of the side matched motor is in power connection with a top side connecting gear, one side of the middle shell is provided with a connecting toothed ring, the connecting toothed ring is in gear meshing with the top side connecting gear, the top of the top side box body is provided with a driving mechanism, the middle shell is pressed close to the stirring rod to push the pressing assembly in a rotating mode, and a sliding stirring assembly connected with the sliding guide rod in a matching mode to.

3. The civil engineering building casting apparatus of claim 2, wherein: the pushing and pressing assembly comprises a pushing cylinder fixedly matched and connected with the top of the top side box body, a circular wheel is arranged on the outer surface of an output shaft of the pushing cylinder in a rotating mode, an open-ended annular groove is formed in the top of the middle shell body, the annular groove is annularly formed, and the circular wheel is connected with the annular groove in a sliding fit mode.

4. The civil engineering building casting apparatus of claim 2, wherein: the sliding stirring assembly comprises a bottom side matching block connected with a sliding inner cavity in a sliding matching mode, the bottom side matching block is connected with a sliding guide rod in a sliding matching mode, a card loading connecting box body is arranged at the top of the bottom side matching block, a gear containing inner cavity is arranged in the card loading connecting box body, one side of the gear containing inner cavity is communicated with and provided with a stretching cavity, the stretching cavity is communicated with an external space, and an adjusting stirring structure adopting a pushing mode to stretch and adjust the stirring depth is arranged in the gear containing inner cavity.

5. The civil engineering building casting apparatus of claim 4, wherein: the adjustment stirring structure include with the gear is placed the inside rotary drum that the inner chamber end wall normal running fit is connected, and affiliated inside rotary drum one side is provided with top side cooperation cylinder, be provided with the penetrating inner chamber that runs through in the inside rotary drum, top side cooperation cylinder one side power connection is provided with the telescopic link, the gliding running through of telescopic link bottom side cooperation piece, the telescopic link downside is provided with the stirring rod, inside rotary drum surface is provided with the rolling gear.

6. The civil engineering building casting apparatus of claim 1, wherein: the track device comprises a clamping block, a through matching track cavity is arranged in the clamping block, a tooth form is arranged on the end wall of one side of the matching track cavity, the clamping block is connected with the end wall of the matching track cavity in a sliding fit mode, the rolling gears are meshed with the tooth form and arranged, and the two sides of the top side box body are provided with elastic locking assemblies used for locking the clamping block in the top side box body in an elastic mode.

7. The civil engineering building pouring mechanism of claim 6, wherein: the elastic locking assembly comprises a sliding fit groove arranged at the top of the top side box body, an opening of the sliding fit groove is formed, the sliding fit groove is symmetrically arranged, a pressing plate is arranged in the sliding fit groove in a sliding mode, the pressing plate and the clamping block mounting and clamping device are arranged, and a buffering connecting spring is elastically arranged between the pressing plate and the end wall of the sliding fit groove.