阅读说明：本技术 一种防叠压侧滑的建筑新材料预制楼板及工艺 (Novel building material prefabricated floor slab capable of preventing overlapping and sideslip and process ) 是由 彭买琼 于 2021-09-10 设计创作，主要内容包括：本发明公开涉及建筑材料技术领域,具体为一种防叠压侧滑的建筑新材料预制楼板及工艺,包括楼板和四个放置杆,所述楼板对称贯穿开设有四个安装孔,该装置通过将楼板开设有四个对称的安装孔,在安装孔内插接相配合的金属筒,然后通过放置杆插接安装孔内对楼板整体进行限位防侧滑固定,同时避免放置杆与安装孔直接接触,造成楼板的安装孔磨损严重,影响楼板的使用安全,通过在插接筒上端一体设置间隔环,在楼板与楼板之间进行叠加时,两个楼板之间始终保持一定的间隙,避免直接接触摩擦,然后在间隔环上开设有吊装孔,方便楼板的堆放和转运,同时安装组件可进行拆卸或者保留,提高楼板的强度和使用多样性。(The invention discloses a novel building material prefabricated floor slab capable of preventing overlapping and sideslip and a process, which relate to the technical field of building materials, and particularly relates to a novel building material prefabricated floor slab capable of preventing overlapping and sideslip and a process, wherein the floor slab is symmetrically penetrated and provided with four mounting holes, the device is provided with the four symmetrical mounting holes by arranging the floor slab with four metal cylinders which are matched in the mounting holes in an inserting way, then the whole floor slab is limited and fixed in a sideslip-preventing way by arranging the rods in the inserting mounting holes, meanwhile, the direct contact between the placing rods and the mounting holes is avoided, the mounting holes of the floor slab are seriously worn, and the use safety of the floor slab is influenced, a spacing ring is integrally arranged at the upper end of the inserting cylinder, when the floor slab and the floor slab are overlapped, a certain gap is always kept between the two floor slabs, the direct contact friction is avoided, then hoisting holes are arranged on the spacing ring, the stacking and the transportation of the floor slab are convenient, and simultaneously, a mounting assembly can be disassembled or kept, the strength and the use diversity of the floor slab are improved.)

1. The utility model provides a prevent overlapping and press prefabricated floor of building new material and technology that sideslips, includes floor (1) and four and places pole (2), its characterized in that: floor (1) symmetry is run through and is seted up four mounting holes (3), and equal vertical grafting is equipped with the installation component in mounting hole (2), and one side grafting is equipped with adjusting part in the installation component, and the symmetry is equipped with a plurality of spacing subassemblies between adjusting part and the installation component, and spacing subassembly one side is connected with adjusting part, and the opposite side all runs through one side setting in installation component one side grafting mounting hole (3).

2. The new material for building precast floor of preventing overlap side-sliding according to claim 1, characterized in that: the mounting assembly comprises a sleeve (4) and an inserting cylinder (5), one side of the sleeve (4) is inserted into the mounting hole (3), and one side of the inserting cylinder (5) is inserted into the sleeve (4).

3. The new material for building precast floor of preventing overlap side-sliding according to claim 2, characterized in that: the adjusting assembly comprises an adjusting barrel (6), one side of the adjusting barrel (6) is inserted into the inserting barrel (5) through a bearing, a square groove (7) is formed in one side of the adjusting barrel (6), and the inserting adjusting barrel (6) is arranged on the placing rod (2).

4. The new building material precast floor of the anti-overlap sideslip of claim 3, characterized in that: a spacer ring (8) is arranged at the upper end of one side of the inserting sleeve (4) of the inserting sleeve (5), the spacer ring (8) penetrates through one side of the sleeve (4) and is symmetrically provided with two hoisting holes (9), and the upper end of the spacer ring (8) is arranged in an inserting square groove (7).

5. The new building material precast floor of the anti-overlap sideslip of claim 3, characterized in that: the limiting assembly comprises limiting screws (10), the inserting cylinder (5) is inserted into the sleeve (4) and symmetrically provided with a plurality of threaded holes (11) on one side, and the limiting screws (10) are horizontally inserted into the threaded holes (11) respectively.

6. The new building material precast floor of the anti-overlap sideslip of claim 3, characterized in that: the adjusting cylinder (6) is inserted into the inserting cylinder (5), one side of the adjusting cylinder is uniformly sleeved with the toothed plate (12), two adjacent toothed plates (12) are respectively provided with an adjusting groove (13), and the lower ends of the adjusting grooves (13) are respectively and symmetrically provided with a plurality of connecting gear teeth (14).

7. The novel building material precast floor slab capable of preventing the overlap side slip according to claim 5 or 6, wherein: limiting screw (10) are pegged graft and are arranged in a grafting section of thick bamboo (5) one side and all peg graft and arrange in adjustment tank (13) and set up, and limiting screw (10) are pegged graft and are arranged in adjustment tank (13) one side and all cup joint and be equipped with adjusting gear (15), and adjusting gear (15) lower extreme teeth of a cogwheel are connected with connecting teeth of a cogwheel (14).

8. The new material for construction precast floor of preventing overlap side-sliding according to claim 7, characterized in that: a plurality of round holes (16) are symmetrically formed in one side of the socket mounting hole (3) of the sleeve (4), and one side of each limit screw (10) penetrates through the round holes (16) respectively and is arranged on one side of the socket mounting hole (3) through threads.

9. The new material for construction precast floor of preventing overlap side-sliding according to claim 7, characterized in that: the limiting screw (10) is inserted into the adjusting groove (13), the center of one side of the limiting screw is horizontally arranged, a guide groove (17) is formed in the center of the inner side of the adjusting groove (13), a plurality of guide rods (18) are horizontally arranged on one side of the adjusting groove (13), and one side of each guide rod (18) is inserted into the corresponding guide groove (17) respectively.

10. A process for preparing a precast floor slab with new building materials for preventing overlap-pressure sideslip according to any one of claims 1-9, which comprises the following steps:

the method comprises the following steps: when in use, the sleeve (4) and the inserting cylinder (5) corresponding to the mounting hole (3) are taken out and respectively inserted into the mounting hole (3), and the inserting cylinder (5) is inserted into the sleeve (4);

step two: then, the adjusting cylinder (6) movably inserted in the inserting cylinder (5) rotates to drive the plurality of toothed wheel plates (12) to rotate;

step three: the rotation of the plurality of toothed plates (12) drives the connected connecting gear teeth (14) to rotate and contact with the adjusting gear (15) sleeved by the adjusting screw (10);

step four: further controlling the adjusting screw (10) to penetrate through the round hole (16) through the thread of the threaded hole (11) and be inserted into one side in the mounting hole (3);

step five: then, the floor is horizontally hoisted through a hoisting hole (9) at one side of the inserting cylinder (5), and then the placing rod (2) is sleeved through the adjusting cylinder (6);

step six: spacer ring (8) one side is pegged graft and is arranged in standing groove (7), makes to have certain gap between two floor (1), avoids the friction, waits for the next time to transport or use, with the principle carry on the hookup hole of hoist (9) can, if necessary then with the principle the rotation regulation section of thick bamboo (6) take out the installation component can.

Technical Field

The invention relates to the technical field of building materials, in particular to a novel building material prefabricated floor slab capable of preventing overlapping and sideslip and a process.

Background

The precast floor slab is made in advance, and is used for a floor slab for building construction, the precast floor slab cannot be sold immediately after being produced, a batch of precast floor slabs need to be stacked and stored, when the precast floor slabs in the prior art are stored and stacked, the surface of the floor slab is easily abraded, the stacked parts are easily corroded after long-term stacking, the later-stage use safety of the floor slab is affected, meanwhile, the height of the floor slab after stacking is higher, side slipping is easily caused when the floor slab is inspected and observed on a sale site, and the operation is very inconvenient in the stacking and shipping processes.

Disclosure of Invention

The invention aims to provide a novel building material prefabricated floor slab capable of preventing overlapping and side slipping and a process, and aims to solve the problems in the background technology.

In order to achieve the purpose, the invention provides the following technical scheme: the utility model provides a prevent overlapping and press prefabricated floor of building new material and technology that sideslips, includes floor and four and places the pole, four mounting holes have been seted up in the floor symmetry run through, and equal vertical grafting is equipped with the installation component in the mounting hole, and one side grafting is equipped with adjusting part in the installation component, and the symmetry is equipped with a plurality of spacing subassemblies between adjusting part and the installation component, and spacing subassembly one side is connected with adjusting part, and the opposite side all runs through the setting of one side in the installation component one side grafting mounting hole.

Preferably, the mounting assembly comprises a sleeve and an inserting cylinder, one side of the sleeve is inserted in the mounting hole, and one side of the inserting cylinder is inserted in the sleeve.

Preferably, the adjusting component comprises an adjusting cylinder, one side of the adjusting cylinder is inserted and arranged in the inserting cylinder through a bearing, a square groove is formed in one side of the adjusting cylinder, and the adjusting cylinder is inserted and arranged through a placing rod.

Preferably, the upper end of one side of the inserting sleeve of the inserting cylinder is provided with a spacing ring, the spacing ring penetrates through one side of the sleeve and is symmetrically provided with two hoisting holes, and the upper end of the spacing ring is inserted into the square groove.

Preferably, the limiting assembly comprises a limiting screw, the inserting cylinder is inserted into the sleeve, a plurality of threaded holes are symmetrically formed in one side of the inserting cylinder, and the limiting screws are horizontally inserted into the threaded holes respectively.

Preferably, an adjusting cylinder is inserted and arranged in an inserting cylinder, one side of the adjusting cylinder is uniformly sleeved and connected with a toothed plate, two adjacent toothed plates are both provided with adjusting grooves, and a plurality of connecting gear teeth are symmetrically arranged on the lower end of each adjusting groove in a uniform body mode.

Preferably, the limiting screw is inserted in the inserting cylinder, one side of the limiting screw is inserted in the adjusting groove, the adjusting gear is sleeved on one side of the limiting screw in the adjusting groove, and the gear teeth at the lower end of the adjusting gear are connected with the connecting gear teeth.

Preferably, a plurality of round holes are symmetrically formed in one side of the sleeve inserting mounting hole, and one side of each limiting screw penetrates through the round holes respectively and is arranged on one side of the threaded inserting mounting hole.

Preferably, the limiting screw is inserted and arranged in the adjusting groove, the center of one side of the limiting screw is horizontally arranged, the guide groove is formed in the center of the adjusting groove, a plurality of guide rods are horizontally arranged in the adjusting groove, and one side of each guide rod is respectively inserted and arranged in the guide grooves.

A novel building material precast floor slab process for preventing overlapping and side slipping comprises the following steps:

the method comprises the following steps: when in use, the sleeve and the inserting cylinder corresponding to the mounting hole are taken out and respectively inserted into the mounting hole, and the inserting cylinder is inserted into the sleeve;

step two: then, the adjusting cylinder movably inserted in the inserting cylinder rotates to drive the plurality of toothed wheel plates to rotate;

step three: the rotation of the plurality of pinion plates drives the connected connecting gear teeth to rotate and contact with the adjusting gear sleeved by the adjusting screw;

step four: the adjusting screw is further controlled to penetrate through the round hole through the thread of the threaded hole and be inserted into one side in the mounting hole;

step five: then horizontally hoisting the floor slab through a hoisting hole on one side of the inserting cylinder, and then sleeving a placing rod through an adjusting cylinder;

step six: spacer ring one side is pegged graft and is arranged in the standing groove, makes to have certain gap between two floors, avoids the friction, waits for next time to transport or use, with the principle carry on the hookup hole of hoist can, if necessary then with the principle the rotary adjusting section of thick bamboo take out the installation component can.

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

1. the device is characterized in that four symmetrical mounting holes are formed in the floor slab, the matched metal cylinders are inserted in the mounting holes, then the floor slab is integrally limited and fixed in a lateral sliding prevention manner by inserting the placing rods into the mounting holes, and meanwhile, the placing rods are prevented from being in direct contact with the mounting holes, so that the mounting holes of the floor slab are seriously abraded, and the use safety of the floor slab is influenced;

2. the spacer ring is integrally arranged at the upper end of the splicing barrel, so that when the floor slabs are stacked, a certain gap is always kept between the two floor slabs, direct contact friction is avoided, hoisting holes are formed in the spacer ring, the floor slabs are convenient to stack and transport, the mounting assembly can be detached or reserved, and the strength and the use diversity of the floor slabs are improved;

drawings

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

FIG. 2 is a schematic view of portion A of FIG. 1 according to the present invention;

FIG. 3 is a schematic view of the portion B of FIG. 1 according to the present invention;

fig. 4 is a schematic perspective view of the floor slab of the present invention.

In the figure: floor 1, place pole 2, mounting hole 3, sleeve 4, a section of thick bamboo 5, adjust a section of thick bamboo 6, square groove 7, spacer ring 8, hole for hoist 9, stop screw 10, screw hole 11, teeth of a cogwheel board 12, adjustment tank 13, connecting teeth of a cogwheel 14, adjusting gear 15, round hole 16, guide way 17, guide bar 18.

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. 1-4, the present invention provides a novel building material prefabricated floor slab with anti-overlapping side-slipping function and a process thereof: the floor comprises a floor 1 and four placing rods 2, wherein four mounting holes 3 are symmetrically arranged in the floor 1 in a penetrating manner, mounting components are vertically inserted into the mounting holes 2 and comprise sleeves 4 and inserting cylinders 5, one side of each sleeve 4 is inserted into the corresponding mounting hole 3, one side of each inserting cylinder 5 is inserted into the corresponding sleeve 4, one side of each inserting cylinder 5 is inserted into the corresponding sleeve, an adjusting component is inserted into one side of each mounting component and comprises an adjusting cylinder 6, one side of each adjusting cylinder 6 is inserted into the corresponding inserting cylinder 5 through a bearing, a square groove 7 is formed in one side of each adjusting cylinder 6, the corresponding adjusting cylinder 6 is inserted into the corresponding placing rod 2, a spacing ring 8 is arranged at the upper end of one side of each inserting cylinder 5, the spacing rings 8 symmetrically penetrate through one sides of the sleeves 4 and are provided with two hoisting holes 9, the upper ends of the spacing rings 8 are inserted into the square grooves 7, and a plurality of limiting components are symmetrically arranged between the adjusting components and the mounting components, the limiting component comprises a limiting screw 10, a plurality of threaded holes 11 are symmetrically formed in one side of an inserting cylinder 5 inserted in a sleeve 4, the plurality of limiting screws 10 are horizontally inserted in the plurality of threaded holes 11 respectively, one side of the limiting component is connected with an adjusting component, the other side of the limiting component penetrates through one side of an inserting mounting hole 3 in one side of the mounting component, an adjusting cylinder 6 is inserted in the inserting cylinder 5, one side of the adjusting cylinder is uniformly sleeved with a pinion plate 12, two adjacent pinion plates 12 are respectively provided with an adjusting groove 13, the lower end of the adjusting groove 13 is uniformly and symmetrically provided with a plurality of connecting pinion teeth 14, one side of the limiting screw 10 inserted in the inserting cylinder 5 is inserted in the adjusting groove 13, one side of the limiting screw 10 inserted in the adjusting groove 13 is sleeved with an adjusting gear 15, the pinion teeth at the lower end of the adjusting gear 15 are connected with the connecting pinion teeth 14, a guide groove 17 is horizontally formed in the center of one side of the limiting screw 10 inserted in the adjusting groove 13, equal integrative level in one side is equipped with a plurality of guide bars 18 in the adjustment tank 13, and pegs graft respectively on one side of a plurality of guide bars 18 and arrange in a plurality of guide ways 17 and set up, a plurality of round holes 16 have been seted up to one side symmetry in the sleeve 4 grafting mounting hole 3, and a plurality of stop screw 10 one side run through respectively a plurality of round holes 16 and pass through the setting of screw grafting mounting hole 3 one side.

A novel building material precast floor slab process for preventing overlapping and side slipping comprises the following steps:

the method comprises the following steps: when in use, the sleeve 4 and the inserting cylinder 5 corresponding to the mounting hole 3 are taken out and respectively inserted into the mounting hole 3, and the inserting cylinder 5 is inserted into the sleeve 4;

step two: then, the adjusting cylinder 6 movably inserted in the inserting cylinder 5 rotates to drive the plurality of toothed wheel plates 12 to rotate;

step three: the rotation of the plurality of toothed plates 12 drives the connected connecting gear teeth 14 to rotate and contact with the adjusting gear 15 sleeved by the adjusting screw 10;

step four: further controlling the adjusting screw 10 to penetrate through the circular hole 16 through the thread of the threaded hole 11 and be inserted into one side of the mounting hole 3;

step five: then, the floor slab is horizontally hoisted through a hoisting hole 9 on one side of the inserting cylinder 5, and then the placing rod 2 is sleeved through the adjusting cylinder 6;

step six: spacer ring 8 one side is pegged graft and is arranged in standing groove 7, makes to have certain gap between two floor 1, avoids the friction, waits for next time to transport or use, and the same reason carry out the hookup hole for hoist 9 can, if necessary then can with the same reason the rotation regulation section of thick bamboo 6 take out the installation component can.

The working principle is as follows: when in use, the sleeve 4 and the inserting cylinder 5 corresponding to the mounting hole 3 are taken out and respectively inserted into the mounting hole 3, the inserting cylinder 5 is inserted into the sleeve 4, then the adjusting cylinder 6 which is movably inserted into the inserting cylinder 5 rotates to drive the plurality of wheel toothed plates 12 to rotate, the plurality of wheel toothed plates 12 rotate to drive the connected connecting wheel teeth 14 to rotate and contact with the adjusting gear 15 sleeved by the adjusting screw 10, further the adjusting screw 10 is controlled to penetrate through the thread of the threaded hole 11 and penetrate through the round hole 16 to be inserted into one side of the mounting hole 3, then the floor slab is horizontally hoisted through the hoisting hole 9 at one side of the inserting cylinder 5, then the placing rod 2 is sleeved through the adjusting cylinder 6, one side of the spacing ring 8 is inserted into the placing groove 7, so that a certain gap exists between the two floor slabs 1, friction is avoided, the next transfer or use is waited, and the hoisting hole 9 is hooked in the same way, if necessary, the adjusting cylinder 6 can be rotated to take out the mounting component.

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.