CN214834184U

CN214834184U - Novel green energy-conserving construction of building roofing pea gravel concrete protective layer device

Info

Publication number: CN214834184U
Application number: CN202120872187.XU
Authority: CN
Inventors: 汪贞华
Original assignee: Shandong Zhihua Construction Engineering Group Co ltd
Current assignee: Shandong Zhihua Construction Engineering Group Co ltd
Priority date: 2021-04-26
Filing date: 2021-04-26
Publication date: 2021-11-23
Anticipated expiration: 2031-04-26

Abstract

The utility model belongs to the technical field of building roof construction, in particular to a novel green energy-saving construction device for a building roof fine-stone concrete protective layer, which comprises a split frame, wherein the split frame is fixedly arranged on a building roof and is used for pouring fine-stone concrete, two symmetrically-distributed installation frames are fixedly arranged at the top of the split frame, and a pouring assembly for accommodating and pouring the fine-stone concrete is fixedly arranged between the two installation frames, in the utility model, a grouting box is pushed to drive the two installation frames to drive the grouting box and a plurality of pouring pipes at the bottom to move above the split frame, and the fine-stone concrete in the grouting box is continuously dispersed and discharged downwards into the split frame by the pouring pipes in the moving process, thereby realizing the rapid dispersed pouring work of the concrete without holding the pouring pipes by hands and continuously moving by workers to finish the pouring work of the concrete, reducing the operation steps, the workload and the operation difficulty of workers are reduced, and the construction efficiency is improved.

Description

Novel green energy-conserving construction of building roofing pea gravel concrete protective layer device

Technical Field

The utility model belongs to the technical field of the building roofing construction, concretely relates to novel green energy-conserving construction of building roofing pea gravel concrete protective layer device.

Background

The novel building is a building constructed by using a new generation of building materials, the waterproof layer can be laid on the roof of the existing novel building to increase the waterproof performance of the building, a fine stone concrete protective layer can be laid on the waterproof layer, natural and artificial damage to the building roof and the waterproof layer is reduced through the protective layer, the service life of the waterproof layer is prolonged, and the use safety of the building roof is guaranteed.

SUMMERY OF THE UTILITY MODEL

At present, the construction work of the roof fine aggregate concrete protective layer is generally carried out manually, a partition frame is placed according to requirements to reserve partition seams during construction, then a steel bar net is placed, concrete is poured in the partition seams, a worker needs to hold a pouring pipe with hands during pouring, the partition seams are large, the worker needs to continuously move the pouring pipe in the partition seams to fill the partition seams with the concrete, a long scraping ruler needs to be used for scraping the concrete after pouring, the operation steps are complicated, the workload and the operation difficulty of the worker are increased, and the construction efficiency is reduced. The utility model provides a novel building roofing pea gravel concrete protective layer green energy-conserving construction device has the work load that reduces the workman and the operation degree of difficulty, characteristics that the efficiency of construction is high.

The utility model provides a following technical scheme: including cutting apart the frame, cut apart the frame and set firmly on the building roof and be used for pouring the pea gravel concrete, cut apart the frame top and set firmly two installing framves that are the symmetric distribution, two set firmly between the installing frame and be used for holding and pour the subassembly of pouring of pea gravel concrete, it sets firmly the subassembly of strickleing off that is used for strickleing off pea gravel concrete to pour subassembly back lateral wall.

The mounting frame is of a v-21274-shaped structure, two inner rods which are symmetrically distributed and used for connecting the pouring component are fixedly arranged in the mounting frame, and the outer side wall of the mounting frame is in threaded connection with a bolt used for fixing the position of the pouring component.

The bottom of the mounting frame is fixedly provided with a roller for connecting the cutting frame, the top of the cutting frame is provided with a moving groove for accommodating the corresponding roller, and the roller is connected inside the corresponding moving groove in a rolling manner.

The pouring assembly comprises a grouting box, a plurality of pouring pipes and two connecting blocks, the grouting box is located between the two mounting frames and used for containing fine aggregate concrete, and the pouring pipes are fixedly arranged at the bottom of the grouting box and used for discharging the fine aggregate concrete into the partition frames.

The two connecting blocks are fixedly arranged at the bottoms of the left side wall and the right side wall of the grouting box respectively and are used for connecting the two mounting frames, the two connecting blocks are positioned inside the two mounting frames respectively, and the connecting blocks are connected to the outer sides of the corresponding two inner rods in a sliding manner.

The scraping component comprises a fixing frame, a scraper and a screw rod, the fixing frame is of a v-21274-shaped structure, the fixing frame is fixedly connected to the rear side wall of the grouting box and used for installing the scraper and the screw rod, and the screw rod is in threaded connection with the inside of the top end of the fixing frame and used for connecting the scraper and adjusting the position of the scraper up and down.

The inner part of the fixing frame is slidably provided with two guide rods which are symmetrically distributed, and the bottom ends of the guide rods are fixedly connected with the top end of the scraper.

The top end of the grouting box is fixedly connected with two fasteners used for connecting and fixing the grout discharging pipe.

The utility model has the advantages that:

1. the utility model discloses in, set up two installing frames of slidable mounting at cutting apart the frame top, install between two installing frames by the grout box, pour the subassembly of pouring that pipe and link block are constituteed, the during operation promotes the grout box and can make a plurality of pouring pipe that two installing frames drive grout box and bottom remove cutting apart the frame top, a plurality of pouring pipe is removed the in-process and is lasted the downward dispersion of fine aggregate concrete in the grout box and discharge and cut apart the frame, the quick dispersion of concrete is pour the work, do not need the handheld pouring pipe of workman and continuously move the pouring work of accomplishing the concrete, operation steps are reduced, workman's work load and the operation degree of difficulty have been reduced, construction efficiency is improved.

2. The utility model discloses in, the subassembly of strickleing off on the lateral wall is installed behind the grout box in the setting, the subassembly of strickleing off comprises mount, scraper blade and screw rod, and the grout box removes and pours work cutting apart the frame top, and the scraper blade scrapes the concrete after pouring from the rear, can scrape the work of strickleing off to the concrete when pouring, does not need the workman to carry out the exclusive operation after pouring, has reduced operating procedure, has improved the efficiency of construction.

3. The utility model discloses in, install two connecting blocks on the grout box and be the interior pole outside of sliding connection respectively in two inside installing frames, the grout box can reciprocate under the cooperation of connecting block and interior pole, and come fixed position through the bolt on the installing frame, the scraper blade can reciprocate in the mount under the drive of the screw rod of spiro union in the mount, conveniently carry out the grout box, the position control and the fixed work of pouring pipe and scraper blade, make the device can adapt to the different construction demands of cutting apart the frame, the applicability is improved, the convenience of construction has been strengthened.

The parts of the device not involved are the same as or can be implemented using prior art.

Drawings

Fig. 1 is a schematic front view of a cross-sectional structure of the present invention;

FIG. 2 is a schematic diagram of the right-side cross-sectional structure of the present invention;

fig. 3 is a schematic rear view of the present invention;

fig. 4 is the utility model discloses well installing frame and pouring assembly's schematic structure.

In the figure: 1. dividing the frame; 11. a moving groove; 2. installing a frame; 21. an inner rod; 22. a bolt; 23. a roller; 3. pouring the assembly; 31. grouting boxes; 311. a fastener; 32. pouring a pipe; 33. connecting blocks; 4. a strike-off assembly; 41. a fixed mount; 411. a guide bar; 42. a squeegee; 43. a screw.

Detailed Description

Referring to fig. 1-4, the present invention provides the following technical solutions: including cutting apart frame 1, cutting apart frame 1 and setting firmly on the building roof and be used for pouring the pea gravel concrete, cutting apart 1 top of frame and set firmly two installing framves 2 that are the symmetric distribution, set firmly between two installing framves 2 and be used for holding and pour the subassembly 3 of pouring of pea gravel concrete, pour 3 rear side walls of subassembly and set firmly the subassembly 4 of strickleing off that is used for strickleing off the pea gravel concrete.

In this embodiment: the partition frame 1 is a partition frame for existing roof construction, is a rectangular frame-shaped structure formed by welding a plurality of rectangular stainless steel rods, is high in structural strength, and is internally provided with a reinforcing mesh and a cushion block so as to facilitate construction work.

The top of the partition frame 1 is provided with two symmetrically-distributed installation frames 2, the installation frames 2 are of three-steel-plate welded structure (21274) and high in structural strength, the idler wheels 23 at the bottoms of the installation frames 2 are installed inside the corresponding moving grooves 11 at the top of the partition frame 1, and after the installation frames 2 are stressed, the idler wheels 23 can move inside the corresponding moving grooves 11, so that the moving work of the installation frames 2 is realized, and the smoothness of the installation frames 2 during moving is improved.

A pouring assembly 3 consisting of a grouting box 31, a plurality of pouring pipes 32 and two connecting blocks 33 is arranged between the two mounting frames 2, the grouting box 31 is a hollow rectangular frame structure formed by welding a plurality of steel plates, the grouting box 31 can inject and contain fine stone concrete, the number of the pouring pipes 32 is a plurality, the plurality of pouring pipes 32 are linearly arranged at the bottom of the grouting box 31, the pouring pipes 32 can linearly discharge the fine stone concrete in the grouting box 31 downwards into the partition frame 1 to complete the fine stone concrete pouring, the two connecting blocks 33 are respectively arranged in the two mounting frames 2, the connecting blocks 33 are slidably connected to the outer sides of the two inner rods 21 in the mounting frames 2, the inner rods 21 are solid steel rods, the connecting blocks 33 are hollow rectangular blocks with two through holes in the inner parts, the structural strength is high, the inner rods 21 are arranged in the two through holes, realized the connection work between connecting block 33 and the installing frame 2, bolt 22 on the 2 outer walls of installing frame can withstand connecting block 33 and keep away from a lateral wall of grout box 31, can carry out the rigidity work to connecting block 33, fixes connecting block 33 inside installing frame 2, and then will pour subassembly 3 and two installing frames 2 and connect fixedly together, has improved the holistic structural strength of device.

The top end of the grouting box 31 is fixed with two fasteners 311, the fasteners 311 are steel plates with arc-shaped clamping grooves inside, the fasteners 311 are used for installing and fixing a slurry discharge pipe for injecting fine aggregate concrete during working, the structural strength is high, the stability of the slurry discharge pipe during working is improved, when the grouting box 31 is pushed, the grouting box 31 and the two installation frames 2 are simultaneously stressed, the installation frames 2 drive the grouting box 31 and the plurality of pouring pipes 32 to move above the partition frame 1, the plurality of pouring pipes 32 continuously and dispersedly discharge the fine aggregate concrete inside the grouting box 31 downwards to different areas in the partition frame 1 during moving, the rapid dispersed pouring work of the concrete is realized, a worker only needs to push the grouting box 31 to move the pouring pipes 32 above the partition frame 1 to complete the pouring work, and does not need to hold the pouring pipes 32 by hand and continuously move to complete the pouring work of the concrete, the operation steps are reduced, the workload and the operation difficulty of workers are reduced, the construction efficiency is improved, the grout outlet pipe arranged inside the fastener 311 can extend along with the movement of the grout box 31, and the working smoothness of the device is improved.

The rear side wall of the grouting box 31 is provided with the strickling component 4 consisting of a fixed frame 41, a scraper 42 and a screw 43, the fixed frame 41 is a '21274' structure formed by welding three hollow rectangular steel blocks, the fixed frame 41 is fixed on the rear side wall of the grouting box 31, the scraper 42 is a steel plate and is positioned in the fixed frame 41, the top end of the scraper 42 is connected with the bottom end of the screw 43 in the fixed frame 41, the firmness of the integral structure of the strickling component 4 and the stability in use are improved, when the grouting box 31 moves above the partition frame 1 to perform pouring work, the strickling component 4 moves above the partition frame 1 along with the scraper, the bottom of the scraper 42 is lower than the height of an outlet of the pouring pipe 32, therefore, the scraper 42 can scrape the concrete after pouring from the rear side, the strickling work can be performed on the concrete while pouring, workers do not need to perform separate operation after pouring, and operation steps are reduced, the workload of workers is reduced, and the construction efficiency is improved.

Grout box 31 under the cooperation between two connecting blocks 33 and the interior pole 21 that corresponds, can reciprocate between two installing frames 2, change the exit end of pouring pipe 32 and cut apart the interval between the frame 1, and come the fixed position through bolt 22, it can make scraper blade 42 reciprocate inside mount 41 to rotate screw rod 43, conveniently carry out grout box 31, the position control and the fixed work of pouring pipe 32 and scraper blade 42, make the device can adapt to the different construction demands of cutting apart frame 1, the suitability is improved, the convenience of construction has been strengthened.

Two guide rods 411 which are symmetrically distributed are arranged in the fixing frame 41 in a sliding mode, the bottom ends of the guide rods 411 are fixedly connected with the top end of the scraper 42, the guide rods 411 are hollow steel rods, when the scraper 42 moves up and down in the fixing frame 41, the guide rods 411 move up and down in the fixing frame 41 along with the scraper, the scraper 42 can always keep a linear moving state through the two guide rods 411, and the position adjustment and the use stability of the scraper 42 are improved.

The utility model discloses a theory of operation and use flow: during construction, the partition frame 1 is installed on a roof, then two installation frames 2 and a pouring assembly 3 are installed on the partition frame 1, two grout pipes are clamped into two fasteners 311, fine stone concrete is discharged into a grouting box 31 for temporary storage, and then is linearly discharged downwards into the partition frame 1 through a plurality of pouring pipes 32, a worker pushes the grouting box 31, the installation frame 2 drives the grouting box 31 and the plurality of pouring pipes 32 to move above the partition frame 1, the fine stone concrete is continuously and dispersedly discharged downwards into different areas in the partition frame 1, the rapid dispersion pouring work of the concrete is realized, operation steps are reduced, the workload and operation difficulty of the worker are reduced, the construction efficiency is improved, the scraping assembly 4 moves above the partition frame 1 along with the grouting box 31, a scraper 42 can scrape the poured concrete from the rear side, and can scrape the concrete while pouring, the independent operation of workers after pouring is not needed, and the construction efficiency is improved.

Claims

1. The utility model provides a novel green energy-conserving construction of building roofing pea gravel concrete protective layer device which characterized in that: including cutting apart the frame, cut apart the frame and set firmly on the building roof and be used for pouring the pea gravel concrete, cut apart the frame top and set firmly two installing framves that are the symmetric distribution, two set firmly between the installing frame and be used for holding and pour the subassembly of pouring of pea gravel concrete, it sets firmly the subassembly of strickleing off that is used for strickleing off pea gravel concrete to pour subassembly back lateral wall.

2. The novel green energy-saving construction device for the building roof fine aggregate concrete protective layer as claimed in claim 1, is characterized in that: the mounting frame is of a v-21274h-shaped structure, two inner rods which are symmetrically distributed and used for connecting the pouring component are fixedly arranged inside the mounting frame, and the outer side wall of the mounting frame is in threaded connection with a bolt used for fixing the position of the pouring component.

3. The novel green energy-saving construction device for the building roof fine aggregate concrete protective layer as claimed in claim 1, is characterized in that: the bottom of the mounting frame is fixedly provided with a roller which is used for being connected with the cutting frame, the top of the cutting frame is provided with a moving groove which is used for accommodating the corresponding roller, and the roller is connected inside the corresponding moving groove in a rolling manner.

4. The novel green energy-saving construction device for the building roof fine aggregate concrete protective layer as claimed in claim 2, is characterized in that: the pouring assembly comprises a grouting box, a plurality of pouring pipes and two connecting blocks, the grouting box is located between the two mounting frames and used for containing fine aggregate concrete, and the pouring pipes are fixedly arranged at the bottom of the grouting box and used for discharging the fine aggregate concrete to the inside of the partition frame.

5. The novel green energy-saving construction device for the building roof fine aggregate concrete protective layer as claimed in claim 4, is characterized in that: the two connecting blocks are fixedly arranged at the bottoms of the left side wall and the right side wall of the grouting box respectively and are used for connecting the two mounting frames, the two connecting blocks are located in the two mounting frames respectively, and the connecting blocks are connected to the outer sides of the corresponding two inner rods in a sliding mode.

6. The novel green energy-saving construction device for the building roof fine aggregate concrete protective layer as claimed in claim 4, is characterized in that: the scraping component comprises a fixing frame, a scraper and a screw rod, the fixing frame is of a v-21274-shaped structure, the fixing frame is fixedly connected to the rear side wall of the grouting box and used for installing the scraper and the screw rod, and the screw rod is in threaded connection with the inside of the top end of the fixing frame and used for connecting the scraper and adjusting the position of the scraper up and down.

7. The novel green energy-saving construction device for the building roof fine aggregate concrete protective layer as claimed in claim 6, is characterized in that: the inside slidable mounting of mount has two guide arms that are the symmetric distribution, the guide arm bottom with scraper blade top fixed connection.

8. The novel green energy-saving construction device for the building roof fine aggregate concrete protective layer as claimed in claim 4, is characterized in that: the top end of the grouting box is fixedly connected with two fasteners used for connecting and fixing the grout discharge pipe.