CN113090050A - Energy-saving concrete placement device for civil engineering - Google Patents

Abstract

The invention relates to an energy-saving concrete pouring device for civil engineering construction, which comprises a walking part and a water spraying part, wherein the water spraying part is arranged on the walking part, the walking part walks on the side surface of a civil engineering structure pointing to the ground, and the water spraying part sprays curing water mist to a civil engineering concrete structure; according to the scheme, the water spraying component is arranged on the walking component, the structure of the rotating component, the walking component, the connecting component, the adsorption component and the like arranged on the walking component is utilized, the water spraying component is adsorbed on the side face, pointing to the ground, of the civil engineering concrete structure body through the adsorption component, and meanwhile, when the water spraying component needs to walk, the walking component arranged on the rotating component is used for walking, so that the purposes of directional maintenance of a certain area and walking on the civil engineering concrete structure body which is higher and points to the ground are achieved.

Description

Energy-saving concrete placement device for civil engineering

Technical Field

The invention relates to the technical field of civil engineering, in particular to the field of auxiliary equipment for civil engineering construction, and specifically relates to an energy-saving concrete pouring device for civil engineering construction.

Background

The building construction refers to production activities in the engineering construction implementation stage, is the construction process of various buildings, and also can be a process of changing various lines on a design drawing into a real object at a specified place.

In any concrete engineering, the concrete needs to be maintained after the concrete is poured, the aim is to continuously increase the strength of the concrete, achieve the strength required by the design within a specified age and prevent the surface of the concrete from cracking due to drying. The common concrete curing method comprises the following steps:

1. covering, watering and maintaining: the natural condition that the average temperature is higher than +5 ℃ is utilized, the surface of the concrete is covered by covering materials (such as sheet materials of rotten straw mats, gunny bags, woven cloth and the like) and watered, so that the concrete keeps proper temperature and humidity conditions required by the muddy water effect within a certain time.

2. Curing the film cloth: in the case of conditional care, maintenance with a water-and vapor-impermeable film cloth, for example a plastic film cloth, is possible. The exposed part of the concrete surface is completely and tightly covered by the film cloth, so that the concrete can be sufficiently maintained without losing water, but the condensed water in the film cloth is kept.

3. Curing with the film health preserving liquid: when the surface of the concrete is inconvenient to be watered or maintained by using plastic film cloth, the film health preserving liquid can be adopted to prevent the water in the concrete from evaporating.

In the civil engineering process, structures such as frame structure columns, beams and retaining walls are usually required to be cast in situ by using concrete, and after the structures are cast in situ by using the concrete, the concrete structure body formed by casting needs to be maintained. In the prior art, when a concrete structure body poured in place is maintained, directional maintenance of a certain area cannot be realized, and a watering device in the prior art cannot walk on a civil concrete structure body which is higher and points to the ground.

Disclosure of Invention

The invention aims to provide an energy-saving concrete pouring device for civil engineering construction, which is used for solving the technical defects that the existing concrete pouring device for civil engineering construction cannot realize directional maintenance on a certain area and cannot walk on a civil engineering concrete structure which is higher and points to the ground.

In order to realize the technical scheme, the invention is realized by the following technical scheme:

an energy-saving concrete pouring device for civil engineering construction comprises a travelling component and a water spraying component, wherein the water spraying component is arranged on the travelling component, the travelling component travels on the side surface of a civil engineering concrete structure body pointing to the ground, and the water spraying component sprays curing water mist to the civil engineering concrete structure body;

the travelling unit includes runner assembly, at least two sets of travelling unit, coupling assembling and at least two sets of adsorption component, runner assembly and coupling assembling fixed connection, the travelling unit all with coupling assembling fixed connection, the travelling unit drives the water spray part and walks on the side on the directional ground of civil engineering concrete structure, the adsorption component symmetry sets up on coupling assembling, the adsorption component is fixed the water spray part on the side on the directional ground of civil engineering concrete structure, coupling assembling and water spray part fixed connection.

In order to better realize the invention, as a further optimization of the above technical scheme, the rotating assembly comprises a stepping motor, a planetary gear set and a fixed frame, the stepping motor is fixedly arranged on the connecting assembly, a power output end of the stepping motor is perpendicular to a side surface of the civil concrete structure body, which points to the ground, the power output end of the stepping motor is rotatably connected with one end of the fixed frame, the other end of the fixed frame is adsorbed on the side surface of the civil concrete structure body, which points to the ground, and a sun gear of the planetary gear set is arranged on a power output shaft of the stepping motor.

As above-mentioned technical scheme's further optimization, the mount includes fixed plate, turning block, support body, first pars contractilis and first electric chuck, the fixed plate is fixed to be set up on the support body, be provided with embedded anticreep recess on the face of fixed plate, embedded anticreep recess internal rotation on the fixed plate is provided with the turning block, the one end and the support body fixed connection of first pars contractilis, the other end and first electric chuck fixed connection, first electric chuck adsorbs automatically on the directional ground side of civil engineering concrete structure.

As the further optimization of above-mentioned technical scheme, the walking subassembly is including connecting outer tube, the electronic sucking disc of second, second pars contractilis and third pars contractilis, the one end of connecting the outer tube and planetary gear set's interior ring gear fixed connection, the flexible portion of second cup joints in connecting the outer tube, the one end and the third pars contractilis vertical fixation of second pars contractilis, the fixed electronic sucking disc of second that is provided with of one end of third pars contractilis, the automatic absorption of the electronic sucking disc of second is on the directional ground side of civil engineering concrete structure.

As the further optimization of above-mentioned technical scheme, adsorption component includes third electric chuck, fourth pars contractilis and fifth pars contractilis, the one end and the coupling assembling of fourth pars contractilis are connected, the other end and fifth pars contractilis vertical fixation, the fixed third electric chuck that is provided with of one end of fifth pars contractilis, the automatic absorption of third electric chuck is on the directional ground's of civil engineering concrete structure side.

As a further optimization of the technical scheme, the connecting assembly comprises a connecting plate and a support, the support is provided with an adsorption assembly and a rotating assembly, the connecting plate is fixedly arranged on the support, and the connecting plate is fixedly provided with a water spraying part.

As a further optimization of the technical scheme, the water spraying part comprises a water spraying assembly and a water supply assembly, the water spraying assembly and the water supply assembly are both arranged on the connecting plate, and the water spraying assembly is communicated with the water supply assembly through a pipeline.

As a further optimization of the technical scheme, the water spray assembly comprises a supporting pipe and a plurality of connecting pipes, one end of the supporting pipe is fixedly and hermetically connected with the connecting plate, the other end of the supporting pipe is communicated with the water supply assembly through a pipeline, the connecting pipes are annularly and uniformly distributed on the supporting pipe, the connecting pipes are all communicated with the supporting pipe, a plurality of atomizing spray heads are arranged on each connecting pipe, and spray nozzles of the atomizing spray heads on the connecting pipes point to the side face of the civil engineering concrete structure body pointing to the ground.

As a further optimization of the technical scheme, the water supply assembly comprises a water storage tank and a power pump, the water storage tank is fixedly arranged on the connecting plate, the power pump is placed in the water storage tank, and the power pump is communicated with the supporting pipe through a pipeline.

As the further optimization of the technical scheme, the concrete structure further comprises a winch, wherein the winch is fixedly arranged at the top end of the civil engineering concrete structure body, and the winch is fixedly connected with the connecting assembly through a steel rope.

Compared with the prior art, the invention has the following advantages and beneficial effects:

the invention arranges the water spraying part on the walking part by arranging the walking part, the water spraying part and other structures, and adsorbs the invention on the side surface of the civil engineering concrete structure body pointing to the ground by the adsorption component by utilizing the rotating component, the walking component, the connecting component, the adsorption component and other structures arranged on the walking part, and simultaneously walks by the walking component arranged on the rotating component when the invention needs to be walked, so that the invention realizes the purposes of directional maintenance of a certain area and walking on the civil engineering concrete structure body which is higher and points to the ground.

Drawings

The accompanying drawings, which are included to provide a further understanding of the invention and are incorporated in and constitute a part of this specification, illustrate embodiments of the invention and together with the description serve to explain the principles of the invention and not to limit the invention. In the drawings:

FIG. 1 is a schematic three-dimensional structure of the present invention;

FIG. 2 is a schematic three-dimensional structure of the walking part of the present invention;

FIG. 3 is a schematic three-dimensional structure of the water spraying part of the present invention;

fig. 4 is a schematic three-dimensional structure diagram of the fixing frame of the present invention.

In the figure, 1-a walking component, 2-a water spraying component, 3-a winch, 4-a civil engineering concrete structure, 11-a rotating component, 12-a walking component, 13-a connecting component, 14-an adsorption component, 21-a water spraying component, 22-a water supply component, 111-a stepping motor, 112-a planetary gear set, 113-a fixed frame, 121-a connecting outer pipe, 122-a second electric suction cup, 123-a second telescopic part, 124-a third telescopic part, 131-a connecting plate, 132-a bracket, 141-a third electric suction cup, 142-a fourth telescopic part, 143-a fifth telescopic part, 211-a supporting pipe, 212-a connecting pipe, 221-a water storage tank, 222-a power pump, 1131-a fixed plate, 1132-a rotating block are marked, 1133-frame body, 1134-first telescopic part, 1135-first electric sucker.

Detailed Description

The present invention will be described in detail and with reference to preferred embodiments thereof, but the present invention is not limited thereto.

Thus, the following detailed description of the embodiments of the present invention, presented in the figures, is not intended to limit the scope of the invention, as claimed, but is merely representative of selected embodiments of the invention. 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.

It should be noted that: like reference numbers and letters refer to like items in the following figures, and thus, once an item is defined in one figure, it need not be further defined and explained in subsequent figures.

In the description of the present invention, it should be noted that the terms "first", "second", "third", etc. are used only for distinguishing the description, and are not intended to indicate or imply relative importance.

The terms "upper", "lower", "left", "right", "inner", "outer", and the like, refer to orientations or positional relationships based on orientations or positional relationships illustrated in the drawings or orientations and positional relationships that are conventionally used in the practice of the products of the present invention, and are used for convenience in describing and simplifying the invention, and do not indicate or imply that the device or element being referred to must have a particular orientation, be constructed and operated in a particular orientation, and therefore, should not be construed as limiting the invention.

Furthermore, the terms "vertical" and the like do not require absolute perpendicularity between the components, but may be slightly inclined. Such as "vertical" merely means that the direction is relatively more vertical and does not mean that the structure must be perfectly vertical, but may be slightly inclined.

In the description of the present invention, it is also to be noted that the terms "disposed," "mounted," "connected," and the like are to be construed broadly unless otherwise specifically stated or limited. For example, the connection can be fixed, detachable or integrated; can be mechanically or electrically connected; they may be connected directly or indirectly through intervening media, or they may be interconnected between two elements. The specific meanings of the above terms in the present invention can be understood in specific cases to those skilled in the art.

Example (b):

as a preferred embodiment, it is shown in FIG. 1 to FIG. 4;

an energy-saving concrete pouring device for civil engineering construction comprises a walking part 1 and a water spraying part 2, wherein the water spraying part 2 is arranged on the walking part 1, the walking part 1 walks on the side surface of a civil engineering concrete structure body 4 pointing to the ground, and the water spraying part 2 sprays curing water mist to the civil engineering concrete structure body 4;

traveling member 1 includes runner assembly 11, at least two sets of traveling assembly 12, coupling assembling 13 and at least two sets of adsorption component 14, runner assembly 11 and coupling assembling 13 fixed connection, traveling assembly 12 all with coupling assembling 13 fixed connection, traveling assembly 12 drives water spray component 2 and walks on the side on the directional ground of civil engineering concrete structure 4, 14 symmetries of adsorption component set up on coupling assembling 13, adsorption component 14 fixes water spray component 2 on the side on the directional ground of civil engineering concrete structure 4, coupling assembling 13 and water spray component 2 fixed connection.

In the present embodiment, as shown in fig. 1 and 2, the traveling member 1 and the water spraying member 2 are provided, the water spraying member 2 is provided on the traveling member 1, and the present invention is adsorbed on the side of the civil engineering concrete structure 4 directed to the ground by the adsorbing member 14 by using the structures of the rotating member 11, the traveling member 12, the connecting member 13, the adsorbing member 14, and the like provided on the traveling member 1, and when the present invention needs to be traveled, the traveling member 12 provided on the rotating member 11 travels, so that the present invention achieves the purposes of directional maintenance of a certain area and traveling on the civil engineering concrete structure 4 which is high and directed to the ground.

It should be noted that in the embodiment, the walking assembly 12 is disposed on the rotating assembly 11, so that the invention can realize the function of walking in different directions by the rotation of the rotating assembly 11 when walking is needed.

In order to better implement the present invention, as a further optimization of the above technical solution, the rotating assembly 11 includes a stepping motor 111, a planetary gear set 112 and a fixing frame 113, the stepping motor 111 is fixedly disposed on the connecting assembly 13, a power output end of the stepping motor 111 is perpendicular to a side surface of the civil engineering concrete structure 4 pointing to the ground, the power output end of the stepping motor 111 is rotatably connected with one end of the fixing frame 113, the other end of the fixing frame 113 is adsorbed on the side surface of the civil engineering concrete structure 4 pointing to the ground, and a sun gear of the planetary gear set 112 is disposed on a power output shaft of the stepping motor 111.

As above-mentioned technical scheme's further optimization, mount 113 includes fixed plate 1131, turning block 1132, support body 1133, first pars contractilis 1134 and first electric chuck 1135, fixed plate 1131 is fixed to be set up on support body 1133, be provided with embedded anticreep recess on fixed plate 1131's the face, the embedded anticreep recess internal rotation on fixed plate 1131 is provided with turning block 1132, first pars contractilis 1134's one end and support body 1133 fixed connection, the other end and first electric chuck 1135 fixed connection, first electric chuck 1135 adsorbs automatically on the side on the directional ground of civil engineering concrete structure 4.

In this embodiment, as shown in fig. 1, 2 and 4, the rotating assembly 11 is formed by providing the stepping motor 111, the planetary gear set 112, and the fixing frame 113 formed by the fixing plate 1131, the rotating block 1132, the frame body 1133, the first telescopic part 1134, the first electric suction cup 1135 and the like, fixing the stepping motor 111 on the connecting assembly 13, the power output shaft of the stepping motor 111 is rotatably connected with the fixed frame 113, the planetary gear set 112 is fixedly arranged on the power output shaft of the stepping motor 111, the stepping motor 111 is used for driving the planetary gear set 112 to rotate, and then the traveling component 12 fixedly connected with the inner ring gear of the planetary gear set 112 rotates, so that the function of driving the traveling component 12 to rotate is realized, and the traveling of the civil engineering concrete structure 4 in different directions on the side surface pointing to the ground is ensured.

It should be particularly and clearly noted that, in the present embodiment, the fixing frame 113 has more side contact points with the civil engineering concrete structure 4 pointing to the ground through the first electric suction cup 1135, the first electric suction cup 1135 is arranged to suck the fixing frame 113 on the side of the civil engineering concrete structure 4 pointing to the ground, so that the present invention has a firmer structure, and the rotating block 1132 arranged in the present invention enables the stepping motor 111 to rotate autonomously during operation without affecting the use of each function in the whole structure.

As a further optimization of the above technical solution, the walking assembly 12 includes a connecting outer tube 121, a second electric suction cup 122, a second expansion part 123 and a third expansion part 124, one end of the connecting outer tube 121 is fixedly connected with the inner gear ring of the planetary gear set 112, the second expansion part 123 is sleeved in the connecting outer tube 121, one end of the second expansion part 123 is vertically fixed with the third expansion part 124, one end of the third expansion part 124 is fixedly provided with the second electric suction cup 122, and the second electric suction cup 122 is automatically adsorbed on the side surface of the civil engineering concrete structure 4 pointing to the ground.

In the present embodiment, as shown in fig. 2, the traveling unit 12 is configured by providing the connecting outer tube 121, the second electric suction cup 122, the second expansion part 123, the third expansion part 124, and the like, extending to the side parallel to the civil engineering concrete structure 4 and pointing to the ground is realized by the second expansion part 123, after the extension parallel to the side direction of the civil engineering concrete structure 4 and pointing to the ground is completed, extending to the side direction perpendicular to the civil engineering concrete structure 4 and pointing to the ground is realized by the third expansion part 124, and the purpose of traveling and fixing on the side of the civil engineering concrete structure 4 pointing to the ground is finally realized by the suction of the second electric suction cup 122.

As a further optimization of the above technical solution, the adsorption assembly 14 includes a third electric suction cup 141, a fourth expansion part 142 and a fifth expansion part 143, one end of the fourth expansion part 142 is connected to the connection assembly 13, the other end of the fourth expansion part 142 is vertically fixed to the fifth expansion part 143, the third electric suction cup 141 is fixedly disposed at one end of the fifth expansion part 143, and the third electric suction cup 141 is automatically adsorbed on the side surface of the civil engineering concrete structure 4 pointing to the ground.

In the present embodiment, as shown in fig. 2, the traveling unit 12 is configured by providing the third electric suction cup 141, the fourth expansion part 142, the fifth expansion part 143, and the like, so that the fourth expansion part 142 extends to the side parallel to the side of the civil engineering concrete structure 4 directed to the ground, and after the extension parallel to the side direction of the civil engineering concrete structure 4 directed to the ground is completed, the fifth expansion part 143 extends to the side perpendicular to the side direction of the civil engineering concrete structure 4 directed to the ground, and the third electric suction cup 141 sucks the traveling unit 12, so that the purpose of fixing the civil engineering concrete structure 4 directed to the side of the ground is finally achieved.

As a further optimization of the above technical solution, the connection assembly 13 includes a connection plate 131 and a bracket 132, the adsorption assembly 14 and the rotation assembly 11 are mounted on the bracket 132, the connection plate 131 is fixedly disposed on the bracket 132, and the water spraying part 2 is fixedly disposed on the connection plate 131.

As a further optimization of the above technical solution, the water spraying part 2 includes a water spraying assembly 21 and a water supply assembly 22, the water spraying assembly 21 and the water supply assembly 22 are both disposed on the connection plate 131, and the water spraying assembly 21 is communicated with the water supply assembly 22 through a pipeline.

As a further optimization of the above technical solution, the water spray assembly 21 includes a support pipe 211 and a plurality of connection pipes 212, one end of the support pipe 211 is fixed and hermetically connected with the connection plate 131, the other end of the support pipe 211 is communicated with the water supply assembly 22 through a pipeline, the connection pipes 212 are circumferentially and uniformly distributed on the support pipe 211, the connection pipes 212 are all communicated with the support pipe 211, each connection pipe 212 is provided with a plurality of atomizing nozzles, and the atomizing nozzles of the atomizing nozzles on the connection pipe 212 point to the side surface of the civil engineering concrete structure 4 pointing to the ground.

In the embodiment, as shown in fig. 3, the water spraying assembly 21 is provided with a support pipe 211, a connection pipe 212 and other structures, the connection pipes 212 are circumferentially and uniformly distributed on the support pipe 211, and a plurality of atomizing nozzles are arranged on each connection pipe 212 communicated with the support pipe 211, so that the purpose of spraying atomized water to the periphery of the position where the invention is located to maintain the civil engineering concrete structure 4 is achieved.

As a further optimization of the above technical solution, the water supply assembly 22 includes a water storage tank 221 and a power pump 222, the water storage tank 221 is fixedly arranged on the connection plate 131, the power pump 222 is placed in the water storage tank 221, and the power pump 222 is communicated with the support pipe 211 through a pipeline.

In this embodiment, as shown in fig. 3, the water supply assembly 22 is provided with a water storage tank 221 and a power pump 222, etc., the power pump 222 is placed in the water storage tank 221, and the power pump 222 is communicated with the support pipe 211 through a pipeline, so that the present invention realizes a function of supplying water to each connection pipe 212.

As a further optimization of the technical scheme, the concrete building structure further comprises a winch 3, wherein the winch 3 is fixedly arranged at the top end of the civil engineering concrete structure 4, and the winch 3 is fixedly connected with the connecting assembly 13 through a steel rope.

In this embodiment, as shown in fig. 1, by additionally providing the winch 3 and connecting the winch 3 arranged at the top end of the civil engineering concrete structure 4 with the connecting component 13 through the steel rope, the electric suction cup does not directly fall off due to insufficient suction force of the electric suction cup in the using process, and the safety performance of the electric suction cup is effectively improved.

It should be particularly and clearly noted that, in order to clearly and clearly describe the present invention, the first stretching portion 1134, the second stretching portion 123, the third stretching portion 124, the fourth stretching portion 142 and the fifth stretching portion 143 in the embodiments of the present invention are all stretching devices capable of achieving stretching functions in the prior art, such as hydraulic stretching devices, pneumatic stretching devices, electric stretching devices, and the like, and the specific structures and stretching methods thereof are all prior art and the invention of the present invention is advanced, so that the detailed description thereof is omitted. Meanwhile, the first electric suction cup 1135, the second electric suction cup 122 and the third electric suction cup 141 also belong to the conventional technologies, and the specific structures and the telescopic methods thereof all belong to the prior art and are the inventions of the present invention, so that the details are not repeated herein.

In order to better implement the present invention, as a preferred embodiment, as shown in fig. 1 to 4, the working process of the present invention is as follows: taking a structure of a cast-in-place civil engineering concrete structure 4 with one surface vertical to the ground surface needing maintenance as an example, a winch 3 is installed at the top end of the structure, the invention is hoisted to a certain height by utilizing a steel rope on the winch 3, a fourth expansion part 142 is opened, the fourth expansion part 142 is expanded, after the expansion is completed, a fifth expansion part 143 is opened, the fifth expansion part 143 pushes a third electric suction cup 141 to the cast-in-place civil engineering concrete structure 4, the third electric suction cup 141 automatically adsorbs to the cast-in-place civil engineering concrete structure 4, then the fixation is completed, a power pump 222 is started, the power pump 222 pumps water to a support pipe 211, the water forms atomized water mist from an atomized spray head through a connecting pipe 212 and is sprayed out, after the regional spray is completed, the first expansion part 1134 is opened, the first expansion part 1134 extends out and pushes a first electric suction cup 1135 to the wall surface of the civil engineering concrete structure 4, the first electric suction cup 1135 is automatically sucked to the wall surface of the cast-in-place civil engineering concrete structure 4, the stepping motor 111 is turned on, the stepping motor 111 drives the planetary gear set 112 to rotate, the traveling component 12 arranged on the planetary gear set 112 rotates, the traveling component 12 stops rotating after rotating to the direction of advance, the second expansion part 123 is turned on, the second expansion part 123 extends, after the extension is completed, the third expansion part 124 is turned on, the third expansion part 124 pushes the second electric suction cup 122 to the cast-in-place civil engineering concrete structure 4, the second electric suction cup 122 is automatically sucked to the cast-in-place civil engineering concrete structure 4, and then the fixation is completed, wherein the third electric suction cup 141 on the suction component 14 in the direction opposite to the traveling component 12 is loosened, the fourth expansion part 142 and the fifth expansion part 143 on the loosened third electric suction cup 141 are both retracted to complete the retraction, and the fifth expansion part 143 pushes the third electric suction cup 141 to the civil engineering concrete structure 4 and enables the third electric suction cup 141 and the existing civil engineering concrete structure 4 to be connected to And adsorbing the wall surface of the concrete structure 4 for the civil engineering, loosening the third electric suction cup 141 on one side of the walking component 12, retracting the fourth telescopic part 142 and the fifth telescopic part 143 connected with the third electric suction cup 141, extending the fourth telescopic part 142 and the fifth telescopic part 143 opposite to the walking component 12 at the same time until the whole device walks to a new curing area, after walking is completed, extending the adsorption component 14 on one side of the walking component 12, adsorbing and fixing the adsorption component with the concrete structure 4 for the civil engineering, and finally completing walking and fixing.

According to the scheme, the water spraying component is arranged on the walking component, the adsorption component is used for adsorbing the water spraying component on the side face, pointing to the ground, of the civil engineering concrete structure body, the walking component, the connecting component, the adsorption component and other structures are arranged on the walking component, and meanwhile when the water spraying component needs to walk, the walking component arranged on the rotation component is used for walking, so that the purposes of directional maintenance of a certain area and walking on the civil engineering concrete structure body which is higher and points to the ground are achieved.

The above description is only a preferred embodiment of the present invention and is not intended to limit the present invention, and various modifications and changes may be made by those skilled in the art. Any modification, equivalent replacement, or improvement made within the spirit and principle of the present invention should be included in the protection scope of the present invention.

Claims (10)

1. The utility model provides an energy-saving concrete placement water installation for civil engineering which characterized in that: the concrete structure comprises a walking part (1) and a water spraying part (2), wherein the water spraying part (2) is arranged on the walking part (1), the walking part (1) walks on the side surface of the civil engineering concrete structure body (4) pointing to the ground, and the water spraying part (2) sprays maintenance water mist to the civil engineering concrete structure body (4);

walking part (1) includes runner assembly (11), at least two sets of walking subassembly (12), coupling assembling (13) and at least two sets of absorption components (14), runner assembly (11) and coupling assembling (13) fixed connection, walking subassembly (12) all with coupling assembling (13) fixed connection, walking subassembly (12) drive water spray part (2) and walk on the side on the directional ground of civil engineering concrete structure (4), absorption components (14) symmetry sets up on coupling assembling (13), absorption components (14) are fixed water spray part (2) on the side on the directional ground of civil engineering concrete structure (4), coupling assembling (13) and water spray part (2) fixed connection.

2. The energy-saving concrete pouring device for civil engineering construction according to claim 1, characterized in that: rotating assembly (11) include step motor (111), planetary gear set (112) and mount (113), step motor (111) are fixed to be set up on coupling assembling (13), the power take off of step motor (111) is perpendicular with the side on the directional ground of civil engineering concrete structure (4), the power take off of step motor (111) rotates with the one end of mount (113) to be connected, the other end of mount (113) adsorbs on the side on the directional ground of civil engineering concrete structure (4), planetary gear set (112) the sun gear sets up on step motor (111) power take off shaft.

3. The energy-saving concrete pouring device for civil engineering construction according to claim 2, characterized in that: mount (113) are including fixed plate (1131), turning block (1132), support body (1133), first pars contractilis (1134) and first electric chuck (1135), fixed setting on support body (1133) of fixed plate (1131), be provided with embedded anticreep recess on the face of fixed plate (1131), embedded anticreep recess internal rotation on fixed plate (1131) is provided with turning block (1132), the one end and support body (1133) fixed connection of first pars contractilis (1134), the other end and first electric chuck (1135) fixed connection, first electric chuck (1135) are automatic to be adsorbed on the side on the directional ground of civil engineering concrete structure (4).

4. The energy-saving concrete pouring device for civil engineering construction according to claim 2, characterized in that: walking subassembly (12) is including connecting outer tube (121), second electric suction cup (122), second pars contractilis (123) and third pars contractilis (124), the one end of connecting outer tube (121) and the interior ring gear fixed connection of planetary gear set (112), second pars contractilis (123) are cup jointed in connecting outer tube (121), the one end and third pars contractilis (124) vertical fixation of second pars contractilis (123), the one end of third pars contractilis (124) is fixed and is provided with second electric suction cup (122), second electric suction cup (122) are automatic to be adsorbed on the directional ground's of civil engineering concrete structure (4) side.

5. The energy-saving concrete pouring device for civil engineering construction according to claim 1, characterized in that: adsorption component (14) include third electric suction cup (141), fourth pars contractilis (142) and fifth pars contractilis (143), the one end and the coupling assembling (13) of fourth pars contractilis (142), the other end and fifth pars contractilis (143) vertical fixation, the fixed third electric suction cup (141) that is provided with of one end of fifth pars contractilis (143), third electric suction cup (141) automatic absorption is on the directional ground side of civil engineering concrete structure (4).

6. The energy-saving concrete pouring device for civil engineering construction according to claim 1, characterized in that: coupling assembling (13) are including connecting plate (131) and support (132), install adsorption component (14) and runner assembly (11) on support (132), connecting plate (131) are fixed to be set up on support (132), fixed water spray part (2) that is provided with on connecting plate (131).

7. The energy-saving concrete pouring device for civil engineering construction according to claim 6, characterized in that: the water spraying component (2) comprises a water spraying assembly (21) and a water supply assembly (22), the water spraying assembly (21) and the water supply assembly (22) are both arranged on the connecting plate (131), and the water spraying assembly (21) is communicated with the water supply assembly (22) through a pipeline.

8. The energy-saving concrete pouring device for civil engineering construction according to claim 7, characterized in that: the water spray assembly (21) comprises a supporting pipe (211) and a plurality of connecting pipes (212), one end of the supporting pipe (211) is fixedly connected with the connecting plate (131) in a sealing mode, the other end of the supporting pipe is communicated with the water supply assembly (22) through a pipeline, the connecting pipes (212) are circumferentially and uniformly distributed on the supporting pipe (211), the connecting pipes (212) are communicated with the supporting pipe (211), each connecting pipe (212) is provided with a plurality of atomizing spray heads, and spray nozzles of the atomizing spray heads on the connecting pipes (212) all point to the side face of the civil engineering concrete structure body (4) pointing to the ground.

9. The energy-saving concrete pouring device for civil engineering construction according to claim 8, characterized in that: the water supply assembly (22) comprises a water storage tank (221) and a power pump (222), the water storage tank (221) is fixedly arranged on the connecting plate (131), the power pump (222) is placed in the water storage tank (221), and the power pump (222) is communicated with the supporting pipe (211) through a pipeline.

10. The energy-saving concrete pouring device for civil engineering construction according to claim 1, characterized in that: the concrete structure is characterized by further comprising a winch (3), wherein the winch (3) is fixedly arranged at the top end of the civil engineering concrete structure body (4), and the winch (3) is fixedly connected with the connecting assembly (13) through a steel rope.

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