CN217205305U - Aluminum shear wall template device without welding - Google Patents

Abstract

The utility model discloses a there is not welded aluminium system shear wall template device, including concatenation template and determine module, concatenation template right side is provided with the concatenation sideboard, and the shorter avris of concatenation sideboard has seted up the mounting groove, mounting groove internally mounted has transverse connection board for detect concrete hardness determine module sets up in the transverse connection board outer wall, determine module includes square groove, spout, pick-up plate and ejector pad, square inslot wall is provided with the spout. This no welded aluminium system shear wall template device makes the convenient hardness that detects the concrete of staff through the determine module, has reduced the waste of complicated work flow lead to the time, makes construction cycle reduce, increases the device self practicality, through step up the subassembly, has avoided transverse connection board and the inside gap that produces of mounting groove, leads to the moisture loss of shear wall corner concrete, makes shear wall preparation accomplish the back quality and beautifully spend the guarantee to the quality of shear wall has been promoted.

Description

Aluminum shear wall template device without welding

Technical Field

The utility model relates to a shear force wall field specifically is a no welded aluminium system shear force wall template device.

Background

Shear walls are also known as wind resistant walls, seismic walls or structural walls. The wall body mainly bears horizontal load and vertical load (gravity) caused by wind load or earthquake action in a house or a structure, and the structure is prevented from being sheared (sheared) and damaged. The large formwork consists of panels, stiffening ribs, supporting trusses, stabilizing mechanisms, etc. The panels are mostly steel plates or plywood, and can also be assembled by small steel moulds; the stiffening ribs are made of channel steel or angle steel, and the supporting truss is made of channel steel and angle steel.

The current shear wall template device has the not good problem of concrete hardness function of detection, and after the concrete material was inside the shaping, constructor's unable accurate hardness of mastering the concrete can't be demolishd the device at the optimum time, has increased the engineering time, has reduced work efficiency, to above-mentioned problem, carries out technical innovation on current device basis.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide a no welded aluminium system shear wall template device to solve the problem that proposes among the above-mentioned background art.

In order to achieve the above object, the utility model provides a following technical scheme: the utility model provides a there is not welded aluminium system shear wall template device, includes concatenation template and determine module, concatenation template right side is provided with the concatenation sideboard, and the shorter avris of concatenation sideboard has seted up the mounting groove, mounting groove internally mounted has a transverse connection board for detect concrete hardness determine module sets up in the transverse connection board outer wall, determine module includes square groove, spout, pick-up plate and ejector pad, square inslot wall is provided with the spout, and spout one side installs the pick-up plate, the pick-up plate outer wall is provided with the ejector pad, the spout sets up with the axis symmetry of pick-up plate, the size of pick-up plate outer wall is identical with the size of square inslot wall, pick-up plate and spout sliding connection, concatenation sideboard outer wall is provided with and is used for the reinforced (rfd) subassembly that steps up.

Furthermore, the splicing templates are provided with connecting blocks on two sides, and splicing holes are formed in the outer walls of the connecting blocks.

Further, the fixed orifices have been seted up to the concatenation template outer wall, and the fixed orifices is inside to run through and is provided with first threaded rod.

Furthermore, the outside cover of first threaded rod is equipped with and steps up the gasket, and steps up first thread bush of gasket one end fixedly connected with.

Further, it is provided with the support fossil fragments with being close to concatenation template one side to step up the gasket, concatenation template below is provided with the supporting component who is used for increasing stability.

Further, the tightening assembly comprises a second threaded sleeve, a second threaded rod and a rotating block, the second threaded sleeve is connected with the second threaded rod through internal threads, and the rotating block is arranged at the tail end of the second threaded rod.

Further, the supporting component comprises an installation block, a rotating shaft, a connecting sleeve, a supporting plate and a thread groove, the rotating shaft is installed inside the installation block, the connecting sleeve is arranged on the outer wall of the rotating shaft, the supporting plate is arranged at the front end of the connecting sleeve, and the thread groove is formed in the tail end of the supporting plate.

Compared with the prior art, the beneficial effects of the utility model are that: according to the non-welded aluminum shear wall template device, workers can conveniently detect the hardness of concrete through the detection assembly, time waste caused by a complex work flow is reduced, the construction period is reduced, the practicability of the device is improved, gaps between the transverse connecting plate and the interior of the mounting groove are avoided through the tightening assembly, water loss of concrete at the corner of the shear wall is caused, the quality and the attractiveness of the shear wall after the manufacturing of the shear wall are guaranteed, and the quality of the shear wall is improved;

1. the utility model discloses a detection subassembly, square groove, spout, pick-up plate and ejector pad's setting, can reach the purpose of convenient detection concrete hardness, after the concrete is stereotyped in inside, promote the pick-up plate through the ejector pad and slide in spout one side, make the pick-up plate move upwards, whether the hardness of accessible square groove detection concrete self reaches the requirement afterwards, if reach the requirement can dismantle the device, the subassembly makes the convenient hardness that detects the concrete of staff, the waste of time that leads to has reduced complicated work flow, make the construction cycle reduce, increase the device self practicality;

2. the utility model discloses a set up of subassembly, second thread bush, second threaded rod and turning block steps up fixedly to the transverse connection board, transverse connection board is installed the back and is not laminated rather than the inner wall in the mounting groove inside, twist clockwise through the turning block and move the second threaded rod, make the second threaded rod move inside through the second thread bush, thereby carry out reinforcement treatment to the transverse connection board, avoided transverse connection board and mounting groove inside to produce the gap, lead to the moisture loss of shear force wall corner concrete, make quality and aesthetic measure obtain the guarantee after the shear force wall preparation is accomplished, thereby the quality of shear force wall has been promoted;

3. the utility model discloses a setting of supporting component, installation piece, axis of rotation, adapter sleeve, backup pad and thread groove can effectually support the concatenation template, and the back is accomplished in concatenation template and the installation of concatenation sideboard, through the inside axis of rotation of installation piece, with backup pad decurrent, makes backup pad and ground contact, installs self through the thread groove, and the backup pad of both sides has increased self stability, has promoted the device self security.

Drawings

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

FIG. 2 is a schematic structural view of the support assembly of the present invention;

FIG. 3 is a schematic structural view of the detecting assembly of the present invention;

fig. 4 is a schematic view of a connection structure of a first threaded rod and a first threaded sleeve according to the present invention;

fig. 5 is an enlarged schematic view of a portion a in fig. 1 according to the present invention.

In the figure: 1. splicing the templates; 2. connecting blocks; 3. splicing holes; 4. a fixing hole; 5. a first threaded rod; 6. tightening the gasket; 7. a first threaded sleeve; 8. a support keel; 9. splicing the side plates; 10. mounting grooves; 11. a transverse connecting plate; 12. a clamping assembly; 1201. a second threaded sleeve; 1202. a second threaded rod; 1203. rotating the block; 13. a detection component; 1301. a square groove; 1302. a chute; 1303. detecting a plate; 1304. a push block; 14. a support assembly; 1401. mounting blocks; 1402. a rotating shaft; 1403. connecting sleeves; 1404. a support plate; 1405. a thread groove.

Detailed Description

As shown in fig. 1-2, in a non-welded aluminum shear wall formwork device, a splicing side plate 9 is arranged on the right side of a splicing formwork 1, a mounting groove 10 is formed in the shorter side of the splicing side plate 9, a transverse connecting plate 11 is installed inside the mounting groove 10, a fastening component 12 for reinforcement is arranged on the outer wall of the splicing side plate 9, connecting blocks 2 are arranged on both sides of the splicing formwork 1, a splicing hole 3 is formed in the outer wall of each connecting block 2, a fixing hole 4 is formed in the outer wall of the splicing formwork 1, a supporting keel 8 is arranged on one side of the fastening gasket 6 close to the splicing formwork 1, a supporting component 14 for increasing stability is arranged below the splicing formwork 1, the supporting component 14 comprises a mounting block 1401, a rotating shaft 1402, a connecting sleeve 1403, a supporting plate 1404 and a threaded groove 1405, a rotating shaft 1402 is installed inside the mounting block 1401, a connecting sleeve 1403 is arranged on the outer wall of the rotating shaft 1402, and a supporting plate 1404 is arranged at the front end of the connecting sleeve 1403, the tail end of the supporting plate 1404 is provided with a thread groove 1405, firstly, the transverse connecting plate 11 is arranged in an installation groove 10 in the splicing side plate 9, then the splicing template 1 and the transverse connecting plate 11 are mutually and fixedly installed through a splicing hole 3 on one side of the connecting block 2, secondly, the first threaded rod 5 is arranged in a fixed hole 4, the supporting keel 8 is arranged outside the first threaded rod 5, then, the tightening gasket 6 and the first threaded sleeve 7 are screwed to fix the splicing template 1 and the splicing side plate 9, after the installation of the splicing template 1 and the splicing side plate 9 is finished, the supporting plate 1404 is downwards rotated through a rotating shaft 1402 in the installation block 1401 to enable the supporting plate 1404 to be in contact with the ground, the self is installed through the thread groove 1405, the supporting plates 1404 on the two sides increase the stability of the self, and the safety of the device is improved;

as shown in fig. 3, a detecting component 13 for detecting concrete hardness is arranged on the outer wall of the transverse connecting plate 11, the detecting component 13 comprises a square groove 1301, a sliding groove 1302, a detecting plate 1303 and a pushing block 1304, the inner wall of the square groove 1301 is provided with the sliding groove 1302, one side of the sliding groove 1302 is provided with the detecting plate 1303, the outer wall of the detecting plate 1303 is provided with the pushing block 1304, the sliding groove 1302 is symmetrically arranged on the central axis of the detecting plate 1303, the size of the outer wall of the detecting plate 1303 is matched with that of the inner wall of the square groove 1301, the detecting plate 1303 is connected with the sliding groove 1302 in a sliding manner, after concrete is shaped internally, the detecting plate is pushed 1303 to slide on one side of the sliding groove 1302 through the pushing block 1304, so that the detecting plate 1303 is moved upwards, and then whether the hardness of the concrete reaches the requirement can be detected through the square groove 1301, if the device is required to be disassembled, the component enables workers to conveniently detect the hardness of the concrete, the time waste caused by a complex working process is reduced, the construction period is reduced, and the practicability of the device is improved;

as shown in fig. 4-5, the tightening assembly 12 includes a second thread sleeve 1201, a second thread rod 1202 and a rotating block 1203, the second thread sleeve 1201 is connected with the second thread rod 1202 through threads inside the second thread sleeve 1201, the rotating block 1203 is arranged at the end of the second thread rod 1202, the first thread rod 5 is arranged inside the fixing hole 4 in a penetrating manner, the tightening gasket 6 is sleeved outside the first thread rod 5, one end of the tightening gasket 6 is fixedly connected with the first thread sleeve 7, the transverse connecting plate 11 is not attached to the inner wall of the mounting groove 10 after being mounted, the second thread rod 1202 is screwed clockwise through the rotating block 1203, so that the second thread rod 1202 moves inwards through the second thread sleeve 1201, the transverse connecting plate 11 is reinforced, a gap between the transverse connecting plate 11 and the inside of the mounting groove 10 is avoided, water loss of concrete at the corner of the shear wall is caused, and the quality and the beauty of the shear wall are guaranteed after the shear wall is manufactured, thereby improving the quality of the shear wall.

The working principle is as follows: when the non-welded aluminum shear wall template device is used, firstly, the transverse connecting plate 11 is installed in the installation groove 10 in the splicing side plate 9, then the splicing template 1 and the transverse connecting plate 11 are mutually and fixedly installed through the splicing hole 3 on one side of the connecting block 2, secondly, the first threaded rod 5 is installed in the fixing hole 4, the supporting keel 8 is installed outside the first threaded rod 5, then, the tightening gasket 6 and the first threaded sleeve 7 are screwed to fix the splicing template 1 and the splicing side plate 9, after the splicing template 1 and the splicing side plate 9 are installed, the supporting plate 1404 is rotated downwards through the rotating shaft 1402 in the installation block 1401 to enable the supporting plate 1404 to be in contact with the ground, then, the self is installed through the threaded groove 1405, the stability of the supporting plates 1404 on two sides is improved, the safety of the device is improved, after concrete is internally shaped, the detecting plate 1303 is pushed to slide on one side of the sliding groove 1302 through the push block 1304, the detection plate 1303 is moved upwards, then whether the hardness of the concrete per se meets the requirement can be detected through the square groove 1301, if the hardness meets the requirement, the device can be disassembled, the transverse connection plate 11 is not attached to the inner wall of the installation groove 10 after being installed, the second threaded rod 1202 is screwed clockwise through the rotating block 1203, the second threaded rod 1202 is moved inwards through the second threaded sleeve 1201, and therefore the transverse connection plate 11 is reinforced, and the aluminum shear wall template device without welding is based on the working principle.

Claims (7)

1. The non-welded aluminum shear wall template device comprises a splicing template (1) and a detection assembly (13), and is characterized in that a splicing side plate (9) is arranged on the right side of the splicing template (1), a mounting groove (10) is formed in the shorter side of the splicing side plate (9), a transverse connecting plate (11) is mounted inside the mounting groove (10), the detection assembly (13) for detecting the hardness of concrete is arranged on the outer wall of the transverse connecting plate (11), the detection assembly (13) comprises a square groove (1301), a sliding groove (1302), a detection plate (1303) and a push block (1304), a sliding groove (1302) is formed in the inner wall of the square groove (1301), the detection plate (1303) is mounted on one side of the sliding groove (1302), the outer wall of the detection plate (1303) is provided with the push block (1304), the sliding groove (1302) is symmetrically arranged with the central axis of the detection plate (1303), the size of the outer wall of the detection plate (1303) is matched with the size of the inner wall of the square groove (1301), the detection plate (1303) is in sliding connection with the sliding groove (1302), and a clamping assembly (12) for reinforcing is arranged on the outer wall of the splicing side plate (9).

2. The weldless aluminum shear wall template device according to claim 1, wherein the splicing template (1) is provided with connecting blocks (2) at two sides, and the outer wall of each connecting block (2) is provided with splicing holes (3).

3. The weldless aluminum shear wall template device as claimed in claim 1, wherein fixing holes (4) are formed in the outer wall of the splicing template (1), and first threaded rods (5) penetrate through the fixing holes (4).

4. The weldless aluminum shear wall formwork device according to claim 3, wherein a clamping gasket (6) is sleeved outside the first threaded rod (5), and one end of the clamping gasket (6) is fixedly connected with a first threaded sleeve (7).

5. A weldless aluminium shear wall form assembly according to claim 4, characterized in that the clamping washer (6) is provided with a support keel (8) at the side close to the splice form (1), and a support assembly (14) for stability is provided under the splice form (1).

6. The weldless aluminum shear wall template device according to claim 1, wherein the clamping assembly (12) comprises a second threaded sleeve (1201), a second threaded rod (1202) and a rotating block (1203), the second threaded sleeve (1201) is internally threaded with the second threaded rod (1202), and the rotating block (1203) is arranged at the tail end of the second threaded rod (1202).

7. The non-welded aluminum shear wall template device according to claim 5, wherein the supporting component (14) comprises a mounting block (1401), a rotating shaft (1402), a connecting sleeve (1403), a supporting plate (1404) and a thread groove (1405), the rotating shaft (1402) is mounted inside the mounting block (1401), the connecting sleeve (1403) is arranged on the outer wall of the rotating shaft (1402), the supporting plate (1404) is arranged at the front end of the connecting sleeve (1403), and the thread groove (1405) is formed in the tail end of the supporting plate (1404).

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