CN112025914A - Concrete vibration pouring device for prefabricated components of prefabricated building - Google Patents

Abstract

The invention belongs to the technical field of pouring devices, and discloses a concrete vibration pouring device for prefabricated components of an assembly type building, which comprises an installation bottom plate, wherein two ends of the upper wall of the installation bottom plate are symmetrically connected with vertical rods, the outer wall of each vertical rod is provided with a controller, the top end of each vertical rod is provided with an installation top plate, one side of the top end of each installation top plate is provided with a concrete vibrating bar, the bottom end of each concrete vibrating bar penetrates through the installation top plate and extends to the lower part of the bottom end of the installation top plate, the upper wall of the installation bottom plate is symmetrically provided with sliding grooves, and the insides of the sliding grooves are slidably connected with sliding bars matched with the sliding grooves. The position of prefabricated mould groove is convenient for change as required and the pouring of prefabricated component is carried out, and the flexibility is strong.

Description

Concrete vibration pouring device for prefabricated components of prefabricated building

Technical Field

The invention belongs to the technical field of pouring devices, and particularly relates to a concrete vibration pouring device for prefabricated components of an assembly type building.

Background

The concrete is artificial stone which is prepared by taking cement as a main cementing material, mixing water, sand, stones and chemical additives and mineral admixtures as necessary, uniformly stirring, densely forming, curing and hardening according to a proper proportion, and paving the concrete by pouring.

But present current device of pouring has certain defect, and the precast slab of traditional device of pouring assembles the stability relatively poor, and is difficult to target in place fast accurately, and in addition, traditional device of pouring does not set up effectual flattening structure, is difficult to guarantee the roughness of prefabricated component upper surface wall.

Disclosure of Invention

The invention aims to provide a concrete vibration pouring device for prefabricated components of an assembly type building, which aims to solve the problems that the traditional prefabricated plate is poor in assembling stability and difficult to quickly and accurately position in the background technology, and in addition, an effective flattening structure is not arranged, so that the flatness of the upper surface wall of the component is difficult to ensure.

In order to achieve the purpose, the invention provides the following technical scheme: a concrete vibration pouring device for prefabricated components of an assembly type building comprises an installation bottom plate, wherein two ends of the upper surface wall of the installation bottom plate are symmetrically connected with vertical rods, a controller is installed on the outer surface wall of each vertical rod, an installation top plate is installed at the top end of each vertical rod, a concrete vibrating rod is installed on one side of the top end of the installation top plate, the bottom end of the concrete vibrating rod penetrates through the installation top plate and extends to the lower portion of the bottom end of the installation top plate, sliding grooves are symmetrically formed in the upper surface wall of the installation bottom plate, sliding strips matched with the sliding grooves are slidably connected inside the sliding grooves, the top ends of the sliding strips are connected with a die slot bottom plate, a second hydraulic cylinder is installed at one end of the upper surface wall of the installation bottom plate, the output end of the second hydraulic cylinder is connected with a second hydraulic telescopic rod, one end, far away from the second hydraulic cylinder, of the second hydraulic telescopic rod is connected with the side, and the front end and the rear end of the upper surface wall of the die cavity bottom plate are symmetrically connected with two first die cavity side plates, the bottom ends of the two first die cavity side plates are connected with embedded blocks matched with the embedded grooves, the front wall and the rear wall of the die cavity bottom plate are symmetrically and rotatably connected with fastening screws, the fastening screws are rotatably connected to the inside of the embedded blocks, two ends of one side, opposite to the first die cavity side plates, of the first die cavity side plates are symmetrically provided with second slots, second inserting strips matched with the second inserting strips are inserted in the second slots, two second inserting strips are connected between the second inserting strips, and the die cavity bottom plate, the first die cavity side plates and the second die cavity side plates are combined to form a prefabricated die cavity.

Preferably, the top end of the installation top plate and one side of the concrete vibrating rod are provided with a first hydraulic cylinder, the bottom end of the first hydraulic cylinder is connected with a first hydraulic telescopic rod, and the bottom end of the first hydraulic telescopic rod is provided with a pressing plate.

Preferably, the lower surface wall of the pressing plate is symmetrically provided with first slots, first inserting strips matched with the first slots are inserted into the first slots, and the bottom ends of the first inserting strips are connected with anti-sticking layers.

Preferably, the cross section of the first slot is of a dovetail structure, and the length of the anti-sticking layer is greater than that of the pressing plate.

Preferably, the outer surface wall of the first die cavity side plate is uniformly provided with assembly part jacks, and the assembly part jacks are of a circular structure.

Preferably, four mounting holes are symmetrically formed in the four corners of the upper surface wall of the mounting base plate, and the number of the mounting holes is four.

Preferably, a material guiding assembly is fixed between the two upright rods at the same side, and comprises a material guiding bottom plate and baffles, wherein the baffles are positioned on two sides of the upper surface wall of the material guiding bottom plate.

Preferably, the upper wall of the material guide bottom plate is provided with an arc-shaped groove, and the inner wall of the arc-shaped groove is smooth and has no protrusion.

Preferably, the outer cover of the first hydraulic cylinder is provided with a protective cover, and the outer wall of the protective cover is provided with heat dissipation holes.

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

(1) according to the invention, the movable installation of the prefabricated mould groove is realized through the matching of the sliding groove, the sliding strip, the second hydraulic cylinder and the second hydraulic telescopic rod, the second hydraulic telescopic rod is driven to stretch by the hydraulic motion of the second hydraulic cylinder, the sliding strip can move along the sliding groove, the position of the prefabricated mould groove can be conveniently changed according to the requirement to pour the prefabricated component, and the flexibility is strong.

(2) According to the invention, through the matching of the second inserting strips, the second inserting grooves, the embedding blocks and the like, the quick and accurate installation of the prefabricated mold groove is realized, when the prefabricated mold groove is assembled, the embedding blocks can be firstly inserted into the embedding grooves, then the fixing screws are screwed to fix the first mold groove side plate, and then the second inserting strips are inserted into the second inserting grooves to fix the second mold groove side plate.

(3) According to the invention, by additionally arranging the first hydraulic cylinder, the first hydraulic telescopic rod and the pressing plate, after concrete is injected into the prefabricating die groove, the first hydraulic telescopic rod can be driven to stretch by utilizing the hydraulic motion of the first hydraulic cylinder, and then the upper surface wall of the concrete is extruded by utilizing the pressing plate, so that the flatness of the upper surface wall of the prefabricated part can be effectively increased, and the quality of the part is improved.

(4) The anti-sticking layer is additionally arranged, so that concrete can be effectively prevented from being stuck on the pressing plate, the service life of the pressing plate is prolonged, in addition, the anti-sticking layer is inserted and installed through the matching of the first slot and the first inserting strip, when the anti-sticking layer needs to be replaced, only the anti-sticking layer needs to be pulled out, and the first inserting strip is pulled out from the first slot, so that the anti-sticking layer is fast and convenient to detach and install, and time and labor are saved.

Drawings

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

FIG. 2 is a top view of a first cavity side plate in accordance with the present invention;

FIG. 3 is a top view of the mounting plate of the present invention;

FIG. 4 is a side view of the platen of the present invention;

FIG. 5 is a side view of a release layer of the present invention;

FIG. 6 is a top view of the die cavity bottom plate of the present invention;

FIG. 7 is a side view of the material guide assembly of the present invention;

FIG. 8 is an enlarged view of portion A of FIG. 2;

in the figure: 1. mounting a bottom plate; 2. erecting a rod; 3. a controller; 4. installing a top plate; 5. a first hydraulic cylinder; 6. a first hydraulic telescopic rod; 7. pressing a plate; 8. an anti-sticking layer; 9. a concrete vibrating rod; 10. a second hydraulic cylinder; 11. a second hydraulic telescopic rod; 12. a slide bar; 13. a chase bottom plate; 14. a first chase side plate; 15. fastening screws; 16. an assembly member receptacle; 17. a second chase side plate; 18. a first slot; 19. a chute; 20. mounting holes; 21. a first slip; 22. a second slip; 23. caulking grooves; 24. a second slot; 25. an insert block; 26. a material guiding assembly; 261. a material guide bottom plate; 262. a baffle plate; 27. an arc-shaped groove.

Detailed Description

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

Referring to fig. 1-8, the present invention provides the following technical solutions: a concrete vibration pouring device for prefabricated components of an assembly type building comprises a mounting base plate 1, two ends of the upper surface wall of the mounting base plate 1 are symmetrically connected with upright rods 2, a controller 3 is installed on the outer surface wall of the upright rods 2, the type of the controller 3 is CPU226, a mounting top plate 4 is installed at the top end of each upright rod 2, a concrete vibrating rod 9 is installed on one side of the top end of the mounting top plate 4, the concrete vibrating rod 9 is electrically connected with the controller 3, the bottom end of the concrete vibrating rod 9 penetrates through the mounting top plate 4 and extends to the lower portion of the bottom end of the mounting top plate, sliding grooves 19 are symmetrically formed in the upper surface wall of the mounting base plate 1, sliding strips 12 matched with the sliding grooves 19 are slidably connected inside the sliding grooves 19, the top ends of the sliding strips 12 are connected with a die cavity base plate 13, a second hydraulic cylinder 10 is installed at one end of the upper surface wall of the mounting base plate 1, a second hydraulic telescopic rod 11 is connected with the output end of the second hydraulic cylinder, the second hydraulic telescopic rod 11 is driven to stretch by hydraulic motion of the second hydraulic cylinder 10, the slide bar 12 can move along the sliding groove 19, the pouring of a prefabricated component can be conveniently carried out by changing the position of a prefabricated die groove according to needs, the flexibility is strong, the front end and the rear end of the upper wall of the die groove bottom plate 13 are symmetrically provided with the caulking grooves 23, the front end and the rear end of the upper wall of the die groove bottom plate 13 are symmetrically connected with two first die groove side plates 14, the bottom ends of the two first die groove side plates 14 are both connected with the embedded blocks 25 matched with the caulking grooves 23, the front wall and the rear wall of the die groove bottom plate 13 are symmetrically screwed and connected with the fastening screws 15, the fastening screws 15 are screwed and connected to the inner parts of the embedded blocks 25, the two ends of one opposite side of the two first die groove side plates 14 are symmetrically provided with the second inserting grooves 24, the second inserting strips 22 matched with the second inserting strips 24 are inserted in the second inserting strips 22, chase bottom plate 13, first chase curb plate 14 and second chase curb plate 17 combination constitute prefabricated chase, when the prefabricated chase of equipment, can insert earlier abaculus 25 and establish in caulking groove 23, then fasten fastening screw 15 in order to fix first chase curb plate 14 soon, insert the strip 22 with the second afterwards and establish in second slot 24, fix second chase curb plate 17 with the installation, whole assembling process convenient and fast, can once accurately target in place, and the prefabricated chase of equipment is strong in stability.

Further, install 4 tops of roof and be located one side of concrete vibrting spear 9 and install first pneumatic cylinder 5, the bottom of first pneumatic cylinder 5 is connected with first hydraulic telescoping rod 6, clamp plate 7 is installed to first hydraulic telescoping rod 6's bottom, pour into the prefabricated die cavity back into at the concrete, the hydraulic motion drive first hydraulic telescoping rod 6 of usable first pneumatic cylinder 5 is flexible, and then utilize clamp plate 7 extrusion concrete's last surface wall, can effectively increase the roughness of prefabricated component upper surface wall.

Further, first slot 18 has been seted up to the lower surface wall symmetry of clamp plate 7, and the inside of first slot 18 is inserted and is equipped with rather than the first cutting 21 of assorted, and the bottom of first cutting 21 is connected with antiseized layer 8, when antiseized layer 8 need be changed, only need pull out antiseized layer 8 outward, with first cutting 21 follow first slot 18 in extract can, lift and the installation all swiftly convenient, labour saving and time saving.

Further, the cross section of the first slot 18 is a dovetail structure, the length of the anti-sticking layer 8 is greater than that of the pressing plate 7, and the stability of the first inserting strip 21 can be improved by the design of the first slot 18 with the dovetail structure, so that the first inserting strip 21 can only be pulled out and taken down from the side edge of the pressing plate 7.

Furthermore, assembly part jacks 16 are uniformly formed in the outer surface wall of the first die cavity side plate 14, the assembly part jacks 16 are of a circular structure, and accessories such as reinforcing ribs can be added through the assembly part jacks 16, so that the die cavity side plate is convenient and practical.

Further, the mounting holes 20 have been seted up to four corner positions of the upper surface wall of mounting plate 1 symmetry, and four have been seted up altogether to mounting holes 20, can effectively fix mounting plate 1 stable through mounting holes 20, and then can guarantee the device's stability.

Further, be fixed with guide subassembly 26 between two pole settings 2 of homonymy, guide subassembly 26 includes guide bottom plate 261 and baffle 262, and baffle 262 is located the upper surface wall both sides of guide bottom plate 261, and the concrete flows to the chase bottom plate 13 through the guide subassembly 26 that comprises guide bottom plate 261 and baffle 262 on, and convenient and practical, wherein baffle 262 can effectively block the concrete, avoids the concrete to flow from the both sides of guide bottom plate 261.

Further, the arc-shaped groove 27 is formed in the upper wall of the material guide bottom plate 261, the inner wall of the arc-shaped groove 27 is smooth and does not have a protrusion, the inner wall is smooth and does not have the protrusion arc-shaped groove 27, so that concrete can slide down conveniently, and concrete blockage is avoided.

Further, the protective cover is covered outside the first hydraulic cylinder 5, heat dissipation holes are formed in the outer wall of the protective cover, the first hydraulic cylinder 5 can be effectively protected by the protective cover, collision and damage of the first hydraulic cylinder are avoided, heat dissipation holes formed in the protective cover are convenient for heat to dissipate, and heat accumulation is avoided.

The working principle and the using process of the invention are as follows: when the invention is used, the hydraulic motion of the second hydraulic cylinder 10 can be used for driving the second hydraulic telescopic rod 11 to extend and contract, so that the slide bar 12 at the bottom end of the die cavity bottom plate 13 moves along the sliding groove 19, the prefabricated die cavity moves to one side close to the material guide component 26, then concrete is added, the concrete can flow into the prefabricated die cavity along the material guide bottom plate 261 provided with the arc-shaped groove 27, the baffle 262 can effectively block the concrete to prevent the concrete from flowing out from two sides of the material guide bottom plate 261, after the concrete is added, the prefabricated die cavity can be moved to be right below the concrete vibrating bar 9, the concrete vibrating bar 9 is used for vibrating the concrete to prevent the concrete from dispersing, then the prefabricated die cavity can be moved to be below the pressing plate 7, the hydraulic motion of the first hydraulic cylinder 5 is used for driving the first hydraulic telescopic rod 6 to extend and contract, and the pressing plate 7 provided with the anti-sticking layer 8 is used for extruding the upper surface wall of the concrete, can effectively increase the roughness of prefabricated component upper surface wall, wherein, when antiseized layer 8 need be changed, only need pull out antiseized layer 8 outward, with first cutting 21 extract in first slot 18 can, lift off and the installation is all swift convenient, time saving and labor saving, furthermore, when the prefabricated die cavity of equipment, can insert earlier the abaculus 25 of first die cavity curb plate 14 bottom and establish in caulking groove 23, then fasten screw 15 in order to fix first die cavity curb plate 14 soon, insert second cutting 22 afterwards and establish in second slot 24, fix second die cavity curb plate 17 with the installation, whole assembling process convenient and fast, can once accurately target in place, and the prefabricated die cavity stability of equipment is strong.

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

Claims (9)

1. The utility model provides a device is pour in concrete vibration of prefabricated component of prefabricated building which characterized in that: the concrete vibrating device comprises an installation bottom plate (1), wherein two ends of the upper surface wall of the installation bottom plate (1) are symmetrically connected with upright rods (2), a controller (3) is installed on the outer surface wall of each upright rod (2), an installation top plate (4) is installed at the top end of each upright rod (2), a concrete vibrating rod (9) is installed on one side of the top end of each installation top plate (4), the bottom end of each concrete vibrating rod (9) penetrates through the installation top plate (4) and extends to the lower side of the bottom end of the installation top plate, sliding grooves (19) are symmetrically formed in the upper surface wall of the installation bottom plate (1), sliding strips (12) matched with the sliding grooves are slidably connected inside the sliding grooves (19), the top ends of the sliding strips (12) are connected with a die slot bottom plate (13), a second hydraulic cylinder (10) is installed at one end of the upper surface wall of the installation bottom plate (1), and the output end, one end, far away from the second hydraulic cylinder (10), of the second hydraulic telescopic rod (11) is connected with the side wall of the die cavity bottom plate (13), the front end and the rear end of the upper wall of the die cavity bottom plate (13) are symmetrically provided with caulking grooves (23), the front end and the rear end of the upper wall of the die cavity bottom plate (13) are symmetrically connected with two first die cavity side plates (14), the bottom ends of the two first die cavity side plates (14) are both connected with embedded blocks (25) matched with the caulking grooves (23), the front wall and the rear wall of the die cavity bottom plate (13) are symmetrically screwed and connected with fastening screws (15), the fastening screws (15) are screwed and connected to the inner parts of the embedded blocks (25), the two ends, opposite to one side of the two first die cavity side plates (14), are symmetrically provided with second inserting grooves (24), second inserting strips (22) matched with the second inserting strips are inserted in the second inserting strips (24), and second die cavity side plates (17) are connected between the two opposite second inserting strips (22), the die cavity bottom plate (13), the first die cavity side plate (14) and the second die cavity side plate (17) are combined to form a prefabricated die cavity.

2. The concrete vibration casting device for the prefabricated building components of the fabricated building as claimed in claim 1, wherein: install roof (4) top and be located one side of concrete vibrting spear (9) and install first pneumatic cylinder (5), the bottom of first pneumatic cylinder (5) is connected with first hydraulic telescoping rod (6), clamp plate (7) are installed to the bottom of first hydraulic telescoping rod (6).

3. The concrete vibration casting device for the prefabricated building components of the fabricated building as claimed in claim 2, wherein: first slots (18) are symmetrically formed in the lower surface wall of the pressing plate (7), first inserting strips (21) matched with the first slots (18) are inserted into the first slots (18), and anti-sticking layers (8) are connected to the bottom ends of the first inserting strips (21).

4. The concrete vibration casting device for the prefabricated building components of the fabricated building as claimed in claim 3, wherein: the cross section of the first slot (18) is of a dovetail structure, and the length of the anti-sticking layer (8) is larger than that of the pressing plate (7).

5. The concrete vibration casting device for the prefabricated building components of the fabricated building as claimed in claim 1, wherein: the outer surface wall of the first die cavity side plate (14) is uniformly provided with assembly part inserting holes (16), and the assembly part inserting holes (16) are of a circular structure.

6. The concrete vibration casting device for the prefabricated building components of the fabricated building as claimed in claim 1, wherein: four corners of the upper surface wall of the mounting base plate (1) are symmetrically provided with four mounting holes (20), and the number of the mounting holes (20) is four.

7. The concrete vibration casting device for the prefabricated building components of the fabricated building as claimed in claim 1, wherein: a material guiding assembly (26) is fixed between the two vertical rods (2) on the same side, the material guiding assembly (26) comprises a material guiding bottom plate (261) and baffles (262), and the baffles (262) are located on two sides of the upper surface wall of the material guiding bottom plate (261).

8. The concrete vibration casting device for the prefabricated building components of the fabricated building as claimed in claim 7, wherein: an arc-shaped groove (27) is formed in the upper wall of the material guide bottom plate (261), and the inner wall of the arc-shaped groove (27) is smooth and free of protrusions.

9. The concrete vibration casting device for the prefabricated building components of the fabricated building as claimed in claim 2, wherein: the outer cover of the first hydraulic cylinder (5) is provided with a protective cover, and heat dissipation holes are formed in the outer wall of the protective cover.

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