CN212613768U - Grouting device - Google Patents

Abstract

The utility model relates to a building engineering construction field, especially a cementer. The grouting area comprises a first enclosing block and a second enclosing block, wherein the first enclosing block and the second enclosing block are ferromagnetic metal components, magnets are arranged at the end part of the first enclosing block and the end part of the second enclosing block, and the first enclosing block and the second enclosing block can be enclosed into a rectangular grouting area through the attraction effect of the magnets. The device of the utility model is simple to install, saves time, and the part can be used many times, and it is extravagant to reduce the material.

Description

Grouting device

Technical Field

The utility model relates to a building engineering construction field, especially a cementer.

Background

In high-rise building reinforced concrete structure, there is shaped steel bottom in shear force wall, the post work progress, there is 50 mm's space in the middle of shaped steel base and the raft roof, after shaped steel handling installation, in order to guarantee shaped steel base's stability and straightness that hangs down, before pouring upper portion shear force wall, post concrete, should fill up with the no shrink grout material of high strength in the 50mm space under the base, grout after the multi-purpose flitch is consolidated at present, it is inconvenient to consolidate. And shaped steel cross-sectional dimension is various, and every shaped steel all need use the flitch to consolidate, need make different flitches, leads to the construction progress slow, and the flitch can not used many times, causes the flitch extravagant.

SUMMERY OF THE UTILITY MODEL

The utility model aims to solve the problems of long time consumption and material waste of the medium-sized steel base grouting in the prior art, and provides a grouting device.

In order to realize the purpose, the utility model discloses a technical scheme be:

a grouting device. The grouting area comprises a first enclosing block and a second enclosing block, wherein the first enclosing block and the second enclosing block are ferromagnetic metal components, magnets are arranged at the end part of the first enclosing block and the end part of the second enclosing block, and the first enclosing block and the second enclosing block can be enclosed into a rectangular grouting area through the attraction effect of the magnets.

The first surrounding block and the second surrounding block are made of ferromagnetic metal materials, such as iron, nickel, cobalt and the like. The first surrounding block and the second surrounding block can be attracted by the magnets, the heights of the first surrounding block and the second surrounding block are set as required, the first surrounding block and the second surrounding block are connected into a rectangular grouting area through the attraction effect of the magnets, and the connection and the disassembly are simple. Through adjusting first enclose the piece and follow the second encloses the axial position that sets up of piece and the second encloses the piece and follows the first axial size that sets up the region that the position adjustment encloses that encloses, the event not the grouting area of equidimension can all use the utility model discloses a cementer. The utility model discloses the device installation is simple with the dismantlement, and the component can reuse, avoids the material extravagant.

Preferably, the second enclosing block comprises first section steel and second section steel, the second section steel can slide in the first section steel, and the first section steel is provided with a locking component.

Shaped steel is easily obtained, and the low price, and shaped steel be iron material can attract with the magnet mutually, through second shaped steel is in the slip in the first shaped steel is adjusted second encloses piece length, locking part is used for fixing the relative position of first shaped steel and second shaped steel.

Preferably, the first enclosing block side and the second section steel side are provided with scales, and the zero scale of the second section steel is the end of the second section steel exposed out of the first section steel.

Only the first enclosing block and the second section steel contact the grouting area, the first section steel only plays a role in containing the second section steel, so that scales are arranged on the side face of the first enclosing block and the side face of the second section steel only, and the size of the enclosed area can be accurately controlled by setting the scales. When the device encloses into the grout region, for the convenience of reading, set the connecting end of first enclosing piece and first shaped steel as zero scale department.

Preferably, the first magnet is arranged on the end face of the zero-scale end of the first enclosing block, and the second magnet is arranged on the end face of the zero-scale end of the second shaped steel.

In order to facilitate reading, the zero scale is a joint, so that only the magnet is arranged at the zero scale instead of the magnets arranged on the end surfaces of the first surrounding block or the second profile steel, and materials are saved; secondly, the connecting part is prevented from being mistakenly arranged when the grouting device is installed.

Preferably, the first steel rail comprises two first surrounding blocks and two second surrounding blocks, the first surrounding blocks and the second surrounding blocks are arranged in a staggered mode, and the first surrounding blocks are connected to the end portions, close to the second steel, of the first steel.

If two first surrounding blocks and two second surrounding blocks form a rectangular grouting area, the first surrounding blocks and the second surrounding blocks are arranged in a staggered mode, namely the two first surrounding blocks are arranged oppositely, the two second surrounding blocks are arranged oppositely, the first surrounding blocks are connected to the end portion, close to the second section steel, of the first section steel, so that the locking part on the first section steel can be loosened without disassembling the device, the first surrounding blocks are pulled along the length direction of the second surrounding blocks, the grouting area surrounded by the device can be enlarged or reduced, the size of the grouting area can be adjusted more conveniently, meanwhile, the grouting area can be measured by scales, and the size can be determined conveniently.

Preferably, the first surrounding block, the first section steel and the second section steel are rectangular steel pipe members.

Rectangular steel pipe component is comparatively common, and the cross-section is great, can hold bold magnet in the rectangular steel pipe for junction intensity is high, connects closely.

Preferably, any one of the first enclosure blocks may be replaced by the second enclosure block, or any one of the second enclosure blocks may be replaced by the first enclosure block.

Can all adopt first enclosure piece to form and wait to water the region, perhaps all adopt the second enclosure piece to form and wait to water the region, the installation form of cementer is more nimble.

To sum up, owing to adopted above-mentioned technical scheme, the beneficial effects of the utility model are that:

1. the components are connected through the attraction effect of the magnet, so that the installation and the disassembly are simple, the field can be quickly assembled, and the time is saved;

2. the grouting areas with different sizes can use the grouting device of the utility model, which can be repeatedly used and save materials;

3. the scale is arranged, so that the size of the enclosed area can be accurately controlled.

4. Any one of the first surrounding blocks can be replaced by the second surrounding block, or any one of the second surrounding blocks can be replaced by the first surrounding block, so that the installation form of the grouting device is more flexible.

Drawings

Fig. 1 is a schematic structural view of a first enclosure in embodiment 1;

FIG. 2 is a schematic structural view of a second enclosure in embodiment 1;

fig. 3 is a schematic structural view of a grouting device according to the present invention in embodiment 1;

the labels in the figure are: 1-a first enclosing block, 11-a first magnet, 2-a second enclosing block, 21-a first section steel, 22-a second section steel, and 23-a second magnet.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention more clearly understood, the present invention is further described in detail below with reference to the accompanying drawings and embodiments. It should be understood that the specific embodiments described herein are for purposes of illustration only and are not intended to limit the invention.

Example 1

As shown in fig. 3, a grouting device comprises a first surrounding block 1 and a second surrounding block 2, wherein the first surrounding block 1 and the second surrounding block 2 are ferromagnetic metal components, magnets are arranged at the end portions of the first surrounding block 1 and the second surrounding block 2, and the first surrounding block 1 and the second surrounding block 2 can surround a rectangular grouting area through the attraction of the magnets.

Common ferromagnetic metals include iron, cobalt, nickel and the like, wherein iron is the most common, so that the grouting device can be made of section steel. As shown in fig. 1-2, the first surrounding block 1 and the second surrounding block 2 can be rectangular steel pipes, the rectangular steel pipes are easy to obtain and cheap as common section steel, and have large cross sections, and large magnets can be accommodated in the rectangular steel pipes, so that the strength of the joints is high, and the joints are tightly connected. Due to the fact that the section size of the grouted section steel base is various, the first enclosing block 1 can be a rectangular steel pipe with the size of 850 multiplied by 50 multiplied by 32 multiplied by 2mm, the first section steel 21 can be a rectangular steel pipe with the size of 500 multiplied by 50 multiplied by 32 multiplied by 2mm, the second section steel 22 can be a rectangular steel pipe with the size of 500 multiplied by 48 multiplied by 30 multiplied by 2mm, the section size of the second section steel 22 is slightly smaller than that of the first section steel 21, the second section steel 22 can be placed in the first section steel 21, and the second section steel 22 can slide relative to the first section steel 21 according to actual needs, so that the length of the second enclosing block 2 is controlled. In order to fix the positions of the first section steel 21 and the second section steel 22, a locking component may be provided, that is, a hole with a diameter of 10mm is provided on the top surface of the end part of the first section steel 21 close to the second section steel 22, a nut with a diameter of 10mm is placed on the hole, the hole corresponds to the nut hole, and the nut is welded and fixed with the first section steel 21. For example, when the second section steel 22 is protruded from the first section steel 21, a quick release bolt of phi 10 is screwed into the nut until the second section steel 22 is pressed against the bottom surface of the first section steel 21 in order to fix the positions of the second section steel 22 and the first section steel 21. In order to accurately control the area of the enclosed grouting area, scales may be provided on the first enclosing block 1 and the second section steel 22, for convenience of reading, the zero scale of the first enclosing block 1 may be any one of two ends, and the zero scale of the second section steel 22 is the end of the second section steel 22 exposed out of the first section steel 21. In order to facilitate reading, the zero scale position is a joint, so that only the end face of the zero scale end of the first enclosing block 1 is provided with the first magnet 11, the end face of the zero scale end of the second deformed steel 22 is provided with the second magnet 23, and the end faces of the first enclosing block 1 or the second deformed steel 22 are not provided with magnets, so that materials are saved; secondly, the connecting part is prevented from being mistakenly arranged when the grouting device is installed. The grouting area is usually rectangular, so it needs two the first surrounding block 1 and two the second surrounding block 2, can with the first surrounding block 1 and the second surrounding block 2 are crisscross to be set up, first surrounding block 1 connect in first shaped steel 21 is close to the tip of second shaped steel 22, so connect, can not take apart the device the condition, loosen on the first shaped steel 21 locking part, follow the second encloses the length direction pulling of block 2 the first surrounding block 1, can enlarge or reduce the grouting area that the device enclosed for it is more convenient to adjust the size in grouting area, and the device that connects is shown in fig. 3. In fig. 3, any one of the first surrounding blocks 1 can be replaced by the second surrounding block 2, or any one of the second surrounding blocks 2 can be replaced by the first surrounding block 1, so that the installation form of the grouting device is more flexible.

The above description is only exemplary of the present invention and should not be taken as limiting the scope of the present invention, as any modifications, equivalents, improvements and the like made within the spirit and principles of the present invention are intended to be included within the scope of the present invention.

Claims (7)

1. The grouting device is characterized by comprising a first surrounding block (1) and a second surrounding block (2), wherein the first surrounding block (1) and the second surrounding block (2) are ferromagnetic metal components, magnets are arranged at the end part of the first surrounding block (1) and the end part of the second surrounding block (2), and the first surrounding block (1) and the second surrounding block (2) can surround a rectangular grouting area through the attraction of the magnets.

2. A grouting device as claimed in claim 1, characterised in that said second surrounding block (2) comprises a first section steel (21) and a second section steel (22), said second section steel (22) being slidable in said first section steel (21), said first section steel (21) being provided with locking means.

3. A grouting device according to claim 2, characterised in that the side of the first surrounding block (1) and the side of the second section steel (22) are provided with scales, and the zero scale of the second section steel (22) is the end of the second section steel (22) exposed out of the first section steel (21).

4. A grouting device according to claim 3, characterised in that the zero-scale end surface of the first surrounding block (1) is provided with a first magnet (11), and the zero-scale end surface of the second section steel (22) is provided with a second magnet (23).

5. A grouting device according to claim 4, characterised in that it comprises two said first enclosing blocks (1) and two said second enclosing blocks (2), said first enclosing blocks (1) and second enclosing blocks (2) being staggered, said first enclosing blocks (1) being connected to the ends of said first section steel (21) close to said second section steel (22).

6. A grouting device according to any one of claims 2-5, characterised in that the first surrounding block (1), the first profile steel (21) and the second profile steel (22) are all rectangular steel pipe members.

7. A grouting device according to any one of claims 1-5, characterised in that any one of said first panels (1) can be replaced by said second panel (2), or any one of said second panels (2) can be replaced by said first panel (1).

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