CN221219754U - Multifunctional auxiliary tool for embedded part of wall-attached support and die for manufacturing multifunctional auxiliary tool - Google Patents
Multifunctional auxiliary tool for embedded part of wall-attached support and die for manufacturing multifunctional auxiliary tool Download PDFInfo
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- CN221219754U CN221219754U CN202322725279.7U CN202322725279U CN221219754U CN 221219754 U CN221219754 U CN 221219754U CN 202322725279 U CN202322725279 U CN 202322725279U CN 221219754 U CN221219754 U CN 221219754U
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- attached support
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- 238000004519 manufacturing process Methods 0.000 title claims description 14
- 229910000831 Steel Inorganic materials 0.000 claims description 73
- 239000010959 steel Substances 0.000 claims description 73
- 238000004873 anchoring Methods 0.000 claims description 33
- 238000007493 shaping process Methods 0.000 claims description 5
- 210000003205 muscle Anatomy 0.000 claims description 4
- 238000009434 installation Methods 0.000 abstract description 4
- 230000007306 turnover Effects 0.000 abstract description 3
- 238000010276 construction Methods 0.000 description 10
- 230000009194 climbing Effects 0.000 description 5
- 230000007547 defect Effects 0.000 description 3
- 239000000463 material Substances 0.000 description 3
- 238000009435 building construction Methods 0.000 description 2
- 230000000694 effects Effects 0.000 description 2
- 230000002708 enhancing effect Effects 0.000 description 2
- 238000000465 moulding Methods 0.000 description 2
- 238000003466 welding Methods 0.000 description 2
- XAGFODPZIPBFFR-UHFFFAOYSA-N aluminium Chemical compound [Al] XAGFODPZIPBFFR-UHFFFAOYSA-N 0.000 description 1
- 229910052782 aluminium Inorganic materials 0.000 description 1
- 230000009286 beneficial effect Effects 0.000 description 1
- 238000004134 energy conservation Methods 0.000 description 1
- 238000003754 machining Methods 0.000 description 1
- 238000000034 method Methods 0.000 description 1
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Abstract
According to the multifunctional auxiliary tool for the embedded part of the wall-attached support, the mounting holes are formed in the concrete embedded shell, and the embedded part of the wall-attached support is mounted in the mounting holes, so that the positioning volume of the embedded part is increased, and deviation and inclination of the embedded part during concrete pouring are prevented; the embedded shell can isolate the embedded part from the cast-in-place concrete, so that the problem of adhesion between the embedded part and the cast-in-place concrete is effectively solved, the influence of deformation or damage to the embedded part during concrete pouring is prevented, and the turnover rate of the embedded part is improved; when the wall-attached support is dismantled, the embedded part is dismantled from the installation hole, and then the installation hole is plugged by concrete, so that the embedded shell and the floor slab form a whole; the height of the embedded shell is equal to the thickness of the floor slab, and the embedded shell plays a role of a floor slab thickness controller when concrete is poured; the connecting component A on the embedded shell is arranged at the same height as the floor bottom rib, and the connecting component A and the floor bottom rib are fixedly connected, so that the connecting component A plays a role of a floor bottom cushion block.
Description
Technical Field
The utility model relates to the technical field of building construction, in particular to a multifunctional auxiliary tool for an embedded part of a wall-attached support and a die for manufacturing the tool.
Background
In recent years, high-rise office buildings, aluminum mould constructional engineering, super high-rise buildings and the like often adopt an attached integrally-lifting safety protection platform (a climbing frame is described below) as a scaffold limb protection system for main structure construction. The climbing frame is an innovation of double-row floor type outer scaffold, and is a protection platform which is manufactured in factories, assembled on site and positioned by a crane by changing an outer scaffold which is erected manually. The unsafe factors in the building construction are greatly eliminated, and the casualty accident is reduced; covering all the engineering of the outer scaffold which is required to be erected in construction. The method not only greatly reduces manpower, shortens construction period and saves steel, but also contributes to national energy conservation and emission reduction.
However, in engineering application, a plurality of attachment forms exist under different working conditions. The structure quality and the look and feel of the structure floor are not affected by the conventional structure floor, but when the structure floor is attached in an overhanging mode, the embedded part of the wall-attached support is embedded in the concrete floor (the embedded part is fixed on the template by steel nails), and the screw rod end is isolated from the concrete by adopting a PVC sleeve, so that the defect is obvious: 1. the sleeve is not firmly embedded, and the damage or deformation inclination is easily caused before, during and after concrete pouring, so that the installation and the use are affected; 2. after the climbing frame climbs, the bottom of the embedded part of the wall-attached support is firmly bonded with concrete, and when the embedded part is removed, the floor slab concrete is easily pulled to be broken, so that the repairing cost is increased, and the forming quality and the appearance of the concrete are affected; 3. partial sleeve damage causes the screw to adhere tightly with the concrete and can not be removed normally; 4. the PVC pipe needs to be chiseled off first and then the hole is repaired when the later repair of the PVC sleeve region is carried out, and the construction cost is high.
The utility model is researched and proposed for overcoming the defects of the prior art.
Disclosure of utility model
For the prior art mentioned above, as the wall-attached support embedded part is embedded in the concrete floor slab (fixed on the template by steel nails), and the screw end is isolated from the concrete by adopting a PVC sleeve, the defects are obvious: 1. the sleeve is not firmly embedded, and the damage or deformation inclination is easily caused before, during and after concrete pouring, so that the installation and the use are affected; 2. after the climbing frame climbs, the bottom of the embedded part of the wall-attached support is firmly bonded with concrete, and when the embedded part is removed, the floor slab concrete is easily pulled to be broken, so that the repairing cost is increased, and the forming quality and the appearance of the concrete are affected; 3. partial sleeve damage causes the screw to adhere tightly with the concrete and can not be removed normally; 4. the PVC pipe needs to be chiseled off first and then the hole is repaired when the later repair of the PVC sleeve region is carried out, and the construction cost is high.
The technical scheme adopted for solving the technical problems is as follows:
The utility model provides a multifunctional auxiliary tool of wall-attached support built-in fitting, includes the pre-buried casing of concrete, be equipped with the mounting hole that is used for placing wall-attached support built-in fitting in the pre-buried casing of concrete, when the pre-buried casing of concrete is used for preventing to pour the floor, the concrete that flows causes damage or deformation slope to wall-attached support built-in fitting, the height of the pre-buried casing of concrete is close or equal with the thickness of floor, be equipped with on the pre-buried casing of concrete and be used for connecting fixed connecting element A with the floor end muscle, connecting element A and the equal high setting of floor end muscle.
The multifunctional auxiliary tool for the embedded part of the wall-attached support comprises the connecting component A and the anchoring steel bars B, wherein the anchoring steel bars A and the anchoring steel bars B are arranged at two sides of the mounting hole at intervals, the anchoring steel bars A and the anchoring steel bars B penetrate through the concrete embedded shell and extend outwards towards two sides of the concrete embedded shell, and the anchoring steel bars A and the anchoring steel bars B are parallel to the floor bottom bars.
The multifunctional auxiliary tool for the embedded part of the wall-attached support comprises the concrete embedded shell, wherein the concrete embedded shell comprises the rectangular shell and the trapezoid shell, the short bottom edge of the trapezoid shell is communicated with the rectangular shell, and the anchoring steel bars A and B are arranged on the rectangular shell.
The multifunctional auxiliary tool for the embedded part of the wall-attached support comprises the rectangular positioning hole and the sleeve hole which are sequentially communicated, wherein the rectangular positioning hole is used for being matched with the embedded part of the wall-attached support, so that the embedded part of the wall-attached support is locked in the sleeve hole, the width of the rectangular positioning hole is larger than the aperture of the sleeve hole, and the rectangular positioning hole is positioned at the bottom of the concrete embedded shell.
The utility model provides a mould for making improve multi-functional appurtenance of wall-attached support built-in fitting, includes the mould casing, be equipped with the shaping chamber that is used for placing wall-attached support built-in fitting in the mould casing, the shaping chamber is used for cooperating with the mould casing, so that form between mould casing and the wall-attached support built-in fitting and pour the chamber, pour the chamber and be used for forming including above arbitrary multi-functional appurtenance of wall-attached support built-in fitting, be equipped with on the mould casing and supply the concrete to get into the opening A who pours the intracavity, still be equipped with on the mould casing and supply connecting element A to get into the connecting element preformed hole of pouring the intracavity.
The die for manufacturing the multifunctional auxiliary tool for improving the embedded part of the wall-attached support is characterized in that the die shell is formed by encircling four steel die parts with the same structure, and a connecting component B for enabling the steel die parts to be detachably connected is arranged between every two adjacent steel die parts.
The connecting component B comprises the bolt sleeves arranged on the steel mould parts, the bolt sleeves on adjacent steel mould parts are combined to form the bolt cylinder, and the connecting component B also comprises the bolts correspondingly arranged with the bolt cylinder, and the bolts are matched with the bolt cylinder to enable the adjacent steel mould parts to be connected and fixed.
The mold for manufacturing the multifunctional auxiliary tool for improving the embedded part of the wall-attached support is characterized in that the bottom of the mold shell is provided with the opening B and the bottom steel plate mold, and the bottom steel plate mold is used for closing the opening B.
The beneficial effects of the utility model are as follows:
1. According to the multifunctional auxiliary tool for improving the embedded part of the wall-attached support, the mounting holes are formed in the concrete embedded shell, and the embedded part of the wall-attached support is mounted in the mounting holes, so that the volume of the embedded part is increased, the embedded part has larger positioning volume when being embedded on cast-in-place concrete of a floor slab, and the embedded part is prevented from being deviated and inclined when being poured with concrete, and the mounting and the use of the embedded part are influenced; the embedded shell can isolate the embedded part from the cast-in-place concrete, so that the problem that the embedded part is difficult to disassemble due to adhesion between the cast-in-place concrete and the embedded part is effectively solved, the embedded part is prevented from being deformed or damaged during concrete pouring, the embedded part is protected, and the turnover rate of the embedded part is effectively improved; when the wall-attached support is dismantled, the embedded part is only required to be dismantled from the mounting hole, and then the mounting hole is plugged by concrete, so that the construction is convenient, the embedded shell and the floor slab are integrated, the structure of the floor slab is not damaged, the integrity of a finished product of the floor slab is ensured, the repair cost is reduced, and the forming quality and the appearance of the floor slab are ensured; the height of the embedded shell is similar to or equal to the thickness of the floor slab, so that the embedded shell can play a role of a floor slab thickness controller when concrete is poured, the embedded shell is convenient for a worker to control the height, and the pouring thickness of the floor slab is ensured; the connecting member A on the embedded shell is arranged at the same height as the floor bottom rib, and the floor bottom rib is erected on the connecting member A and fixedly connected with the connecting member A, so that the connecting member A can play a role of a cushion block at the bottom of the floor, and the thickness of a concrete protection layer formed between the bottom rib and the floor template is ensured.
2. The utility model discloses a die for manufacturing a multifunctional auxiliary tool for improving an embedded part of a wall-attached support, which comprises a die shell, wherein a forming cavity is formed in the die shell, an opening A communicated with the forming cavity is formed in the die shell, a constructor places the embedded part of the wall-attached support into the forming cavity through the opening A, a pouring cavity is formed between the die shell and the embedded part of the wall-attached support, then a connecting member A is assembled on a connecting member preformed hole (specifically, an anchoring steel bar A and an anchoring steel bar B penetrate through the die shell through the connecting member preformed hole and extend outwards towards two sides of the connecting member preformed hole), then concrete is poured into the pouring cavity through the opening A, and after the multifunctional auxiliary tool of the embedded part of the wall-attached support is formed in the pouring cavity, the multifunctional auxiliary tool of the wall-attached support is removed from the die shell, so that the multifunctional auxiliary tool is simple in structure and convenient to operate.
The utility model will be further described with reference to the drawings and detailed description.
Drawings
FIG. 1 is a schematic side view of a multifunctional auxiliary tool for improving wall-attached support embedments of the present utility model;
FIG. 2 is a schematic cross-sectional view taken along line A-A of FIG. 1;
FIG. 3 is a schematic cross-sectional view of FIG. 1 taken along line B-B;
FIG. 4 is a schematic front view of a mold for making a multifunctional auxiliary tool for enhancing wall-mount embedments of the present utility model;
FIG. 5 is an exploded view of the mold housing of the present utility model;
FIG. 6 is a schematic top view of a mold for making a multifunctional auxiliary tool for enhancing wall mount embedments of the present utility model;
Fig. 7 is a schematic cross-sectional view of fig. 6 along line C-C.
Detailed Description
Embodiments of the present utility model will be described in detail below with reference to the accompanying drawings.
As shown in fig. 1 to 3, the multifunctional auxiliary tool for the wall-attached support embedded part of the embodiment comprises a concrete embedded shell 1, wherein a mounting hole 3 for placing the wall-attached support embedded part 2 is formed in the concrete embedded shell 1, the concrete embedded shell 1 is used for preventing the wall-attached support embedded part 2 from being damaged or deformed and inclined by flowing concrete when a floor slab is poured, the height of the concrete embedded shell 1 is similar to or equal to the thickness of the floor slab, a connecting member A4 for connecting and fixing with a floor slab bottom rib is arranged on the concrete embedded shell 1, and the connecting member A4 is arranged at the same height as the floor slab bottom rib; according to the multifunctional auxiliary tool for improving the embedded part of the wall-attached support, the mounting holes are formed in the concrete embedded shell, and the embedded part of the wall-attached support is mounted in the mounting holes, so that the volume of the embedded part is increased, the embedded part has larger positioning volume when being embedded on cast-in-place concrete of a floor slab, and the embedded part is prevented from being deviated and inclined when being poured with concrete, and the mounting and the use of the embedded part are influenced; the embedded shell can isolate the embedded part from the cast-in-place concrete, so that the problem that the embedded part is difficult to disassemble due to adhesion between the cast-in-place concrete and the embedded part is effectively solved, the embedded part is prevented from being deformed or damaged during concrete pouring, the embedded part is protected, and the turnover rate of the embedded part is effectively improved; when the wall-attached support is dismantled, the embedded part is only required to be dismantled from the mounting hole, and then the mounting hole is plugged by concrete, so that the construction is convenient, the embedded shell and the floor slab are integrated, the structure of the floor slab is not damaged, the integrity of a finished product of the floor slab is ensured, the repair cost is reduced, and the forming quality and the appearance of the floor slab are ensured; the height of the embedded shell is similar to or equal to the thickness of the floor slab, so that the embedded shell can play a role of a floor slab thickness controller when concrete is poured, the embedded shell is convenient for a worker to control the height, and the pouring thickness of the floor slab is ensured; the connecting member A on the embedded shell is arranged at the same height as the floor bottom rib, and the floor bottom rib is erected on the connecting member A and fixedly connected with the connecting member A, so that the connecting member A can play a role of a cushion block at the bottom of the floor, and the thickness of a concrete protection layer formed between the bottom rib and the floor template is ensured.
Specifically, the embedded shell is formed by pouring concrete which is the same as the concrete for pouring the floor slab, so that the cohesive force between the shaped floor slab and the embedded shell is increased, the integrity between the multifunctional auxiliary tool for the wall-attached support embedded part and the floor slab is enhanced, and the problem that cracks or damages occur due to pulling crack between the embedded shell and the floor slab when the embedded part is removed is avoided.
In this embodiment, the connection member A4 includes anchor bars a41 and anchor bars B42 that are disposed at two sides of the mounting hole 3 at intervals, where the anchor bars a41 and B42 each penetrate through the concrete embedded casing 1 and extend outward toward two sides thereof, and the anchor bars a41 and B42 are both parallel to the floor bottom bars; the lengths of the anchoring steel bars A and the anchoring steel bars B, which extend out of the embedded shell, meet the anti-seismic direct anchoring length, ensure the stability of the embedded multifunctional auxiliary tool of the wall-attached support embedded part in the floor slab, and specifically, the anchoring steel bars A and the anchoring steel bars B are connected and fixed with the floor slab bottom bars in a binding wire mode, and the anti-seismic direct anchoring device is simple in structure and convenient to operate; the anchoring steel bars A and the anchoring steel bars B are parallel to the floor bottom bars, so that the connection area of the anchoring steel bars and the floor bottom bars is increased, and the connection stability between the anchoring steel bars A and the floor bottom bars is ensured; the floor bottom ribs are erected on the anchoring steel bars, so that the embedded shell plays a role of a cushion block at the bottom of the floor under the action of the anchoring steel bars, and the thickness of a concrete protection layer formed between the bottom ribs and the floor templates is ensured.
In this embodiment, the concrete embedded casing 1 includes a rectangular casing 11 and a trapezoidal casing 12, a short bottom edge of the trapezoidal casing 12 is communicated with the rectangular casing 11, and the anchoring steel bars a41 and B42 are disposed on the rectangular casing 11; the contact area between the rectangular shell and the bottom of the bottom plate pouring template is increased, so that the embedded shell can be more firmly positioned in the bottom plate pouring template, and the embedded shell is not easy to deform and incline when concrete is poured; the upper portion of pre-buried casing adopts the trapezoidal structure of falling, plays the drawknot effect between trapezoidal both sides limit and the floor concrete, further improves the steadiness of being connected between pre-buried casing and the shaping floor, when demolishing pouring template or built-in fitting, avoids taking place to pull between pre-buried casing and the floor to split and appear the crack, the concrete drops or damage scheduling problem takes place.
Specifically, the trapezoid shell 12 is isosceles trapezoid, and the design is adopted to optimize the drawknot of the trapezoid shell in the floor.
In this embodiment, the mounting hole 3 includes a rectangular positioning hole 31 and a sleeve hole 32 that are sequentially communicated, the rectangular positioning hole 31 is used for being matched with the wall-attached support embedded part 2 so as to lock the wall-attached support embedded part 2 in the sleeve hole 32, the width of the rectangular positioning hole 31 is larger than the aperture of the sleeve hole 32, and the rectangular positioning hole 31 is located at the bottom of the concrete embedded shell 1; the wall-attached support embedded part comprises a sleeve part and a positioning seat arranged at the bottom of the sleeve part, wherein the shape of the sleeve part is matched with that of the sleeve hole, the shape of the positioning seat is matched with that of the rectangular positioning hole, and the positioning seat is matched with the rectangular positioning hole to ensure the stability of the sleeve part in the mounting hole and avoid the sleeve part connected with the climbing frame screw from falling out of the sleeve hole to cause a safety problem.
As shown in fig. 4 to 7, a mold for manufacturing a multifunctional auxiliary tool for improving a wall-attached support embedded part of the present embodiment includes a mold housing 5, a molding cavity for placing a wall-attached support embedded part 2 is provided in the mold housing 5, the molding cavity is used for being matched with the mold housing 5, so that a pouring cavity 6 is formed between the mold housing 5 and the wall-attached support embedded part 2, the pouring cavity 6 is used for forming the multifunctional auxiliary tool for improving the wall-attached support embedded part, an opening a51 for allowing concrete to enter the pouring cavity 6 is provided in the mold housing 5, and a connecting member preformed hole 52 for allowing a connecting member A4 to enter the pouring cavity 6 is further provided in the mold housing 5; the utility model discloses a die for manufacturing a multifunctional auxiliary tool for improving an embedded part of a wall-attached support, which comprises a die shell, wherein a forming cavity is formed in the die shell, an opening A communicated with the forming cavity is formed in the die shell, a constructor places the embedded part of the wall-attached support into the forming cavity through the opening A, a pouring cavity is formed between the die shell and the embedded part of the wall-attached support, then a connecting member A is assembled on a connecting member preformed hole (specifically, an anchoring steel bar A and an anchoring steel bar B penetrate through the die shell through the connecting member preformed hole and extend outwards towards two sides of the connecting member preformed hole), then concrete is poured into the pouring cavity through the opening A, and after the multifunctional auxiliary tool of the embedded part of the wall-attached support is formed in the pouring cavity, the multifunctional auxiliary tool of the wall-attached support is removed from the die shell, so that the multifunctional auxiliary tool is simple in structure and convenient to operate.
Specifically, before the embedded part of the wall-attached support is placed into the forming cavity, the outer side of the embedded part of the wall-attached support can be coated with a layer of film, and when the wall-attached support is dismounted, the multifunctional auxiliary tool of the embedded part of the wall-attached support and the embedded part of the wall-attached support are more easily separated, so that the structure of a floor slab is not damaged.
In this embodiment, the mold housing 5 is formed by surrounding four steel mold parts 53 with the same structure, and a connecting member B54 for detachably connecting the two steel mold parts 53 is disposed between the adjacent steel mold parts 53; by adopting the design of the combined die, the combined assembly of the die shells is facilitated, and the assembly cost of the die shells is reduced; the transportation volume of the mould shell is effectively reduced.
In this embodiment, the connecting member B54 includes a pin sleeve 55 disposed on the steel mold part 53, and the pin sleeves 55 on adjacent steel mold parts 53 are combined to form a pin cylinder 57, and the connecting member B54 further includes a pin 56 disposed corresponding to the pin cylinder 57, where the pin 56 is used to cooperate with the pin cylinder 57 to connect and fix the adjacent steel mold parts 53; when adjacent steel mould parts are connected, each bolt sleeve is communicated with the corresponding bolt sleeve on the adjacent steel mould parts to form a bolt cylinder, then each bolt is inserted into the corresponding bolt cylinder, and the adjacent steel mould parts can be connected and fixed, the bolt connection mode is convenient to operate, and the connection strength is stable and reliable.
Specifically, the number of the pin sleeves on the steel mold part is three, the three pin sleeves are arranged in parallel at intervals, the two pin sleeves are respectively arranged at the top and the bottom of the steel mold part, the rest pin sleeves are arranged in the middle area of the steel mold part, and in the embodiment, the assembly positions of the rest pin sleeves on the steel mold part are flush with the joint of the rectangular shell and the trapezoid shell; the bolt sleeves on the four steel mould parts have the same structure and the same implementation mode.
The steel mould part can be manufactured by welding residual steel plates on a construction site, and preferably adopts steel plates with the thickness of 3 mm; the bolt sleeve can also be manufactured by welding a residual steel plate on a construction site, the bolt is manufactured by adopting on-site scrap steel bars, the anchor steel bars are also manufactured by adopting on-site scrap steel bars, and then a multifunctional auxiliary tool for pouring residual tailings into the embedded part of the wall-attached support is poured by adopting concrete; by adopting the design, most of manufacturing materials are found in the construction site, so that the transportation cost and the material cost are reduced, the materials are saved, and the environment-friendly material-saving effect is achieved.
In this embodiment, an opening B58 and a bottom steel plate mold 59 are provided at the bottom of the mold housing 5, and the bottom steel plate mold 59 is used for closing the opening B58; the structure for simplifying the mould shell 5 is simpler, and the manufacturing mould shell 5 is simpler, guarantees the machining precision of mould shell 5, reduces manufacturing cost.
The foregoing examples are provided to further illustrate the technical contents of the present utility model for the convenience of the reader, but are not intended to limit the embodiments of the present utility model thereto, and any technical extension or re-creation according to the present utility model is protected by the present utility model. The protection scope of the utility model is subject to the claims.
Claims (8)
1. The utility model provides a multifunctional auxiliary tool of wall-attached support built-in fitting which characterized in that: including pre-buried casing of concrete (1), be equipped with in pre-buried casing of concrete (1) and be used for placing mounting hole (3) of attaching wall support built-in fitting (2), when pre-buried casing of concrete (1) is used for preventing to pour the floor, the concrete that flows causes damage or deformation slope to attaching wall support built-in fitting (2), the height of pre-buried casing of concrete (1) is close or equal with the thickness of floor, be equipped with on the pre-buried casing of concrete (1) and be used for connecting fixed connecting element A (4) with the floor end muscle, connecting element A (4) are high with the floor end muscle etc. and are set up.
2. The wall-attached support embedded part multifunctional auxiliary tool according to claim 1, wherein: the connecting member A (4) comprises anchoring steel bars A (41) and anchoring steel bars B (42) which are arranged at two sides of the mounting hole (3) at intervals, wherein the anchoring steel bars A (41) and the anchoring steel bars B (42) penetrate through the concrete embedded shell (1) and extend outwards towards two sides of the concrete embedded shell, and the anchoring steel bars A (41) and the anchoring steel bars B (42) are parallel to floor bottom ribs.
3. The wall-attached support embedded part multifunctional auxiliary tool according to claim 2, wherein: the concrete embedded shell (1) comprises a rectangular shell (11) and a trapezoid shell (12), the short bottom edge of the trapezoid shell (12) is communicated with the rectangular shell (11), and the anchoring steel bars A (41) and the anchoring steel bars B (42) are arranged on the rectangular shell (11).
4. The wall-attached support embedded part multifunctional auxiliary tool according to claim 1, wherein: the mounting hole (3) comprises a rectangular positioning hole (31) and a sleeve hole (32) which are communicated in sequence, wherein the rectangular positioning hole (31) is used for being matched with the wall-attached support embedded part (2) so that the wall-attached support embedded part (2) is locked in the sleeve hole (32), the width of the rectangular positioning hole (31) is larger than the aperture of the sleeve hole (32), and the rectangular positioning hole (31) is located at the bottom of the concrete embedded shell (1).
5. A mould for making attach wall support built-in fitting multi-functional appurtenance, its characterized in that: including mould casing (5), be equipped with the shaping chamber that is used for placing wall-attached support built-in fitting (2) in mould casing (5), the shaping chamber is used for cooperating with mould casing (5), so that form between mould casing (5) and the wall-attached support built-in fitting (2) and pour chamber (6), pour chamber (6) and be used for forming including the wall-attached support built-in fitting multifunctional auxiliary tool of any one of claims 1 to 4, be equipped with on mould casing (5) and supply concrete to get into opening A (51) in pouring chamber (6), still be equipped with on mould casing (5) and supply connecting element A (4) to get into connecting element preformed hole (52) in pouring chamber (6).
6. The mold for manufacturing the multifunctional auxiliary tool for the wall-attached support embedded part according to claim 5, wherein: the die shell (5) is formed by encircling four steel die parts (53) with the same structure, and a connecting component B (54) for detachably connecting the two steel die parts is arranged between every two adjacent steel die parts (53).
7. The mold for manufacturing the multifunctional auxiliary tool for the wall-attached support embedded part according to claim 6, wherein: the connecting component B (54) comprises a bolt sleeve (55) arranged on the steel mould part (53), the bolt sleeves (55) on adjacent steel mould parts (53) are combined to form a bolt cylinder (57), the connecting component B (54) further comprises a bolt (56) which is arranged corresponding to the bolt cylinder (57), and the bolt (56) is used for being matched with the bolt cylinder (57) so as to enable the adjacent steel mould parts (53) to be connected and fixed.
8. The mold for manufacturing the multifunctional auxiliary tool for the wall-attached support embedded part according to claim 5, wherein: the bottom of the die shell (5) is provided with an opening B (58) and a bottom steel plate die (59), and the bottom steel plate die (59) is used for closing the opening B (58).
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
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CN202322725279.7U CN221219754U (en) | 2023-10-11 | 2023-10-11 | Multifunctional auxiliary tool for embedded part of wall-attached support and die for manufacturing multifunctional auxiliary tool |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
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CN202322725279.7U CN221219754U (en) | 2023-10-11 | 2023-10-11 | Multifunctional auxiliary tool for embedded part of wall-attached support and die for manufacturing multifunctional auxiliary tool |
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CN221219754U true CN221219754U (en) | 2024-06-25 |
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CN202322725279.7U Active CN221219754U (en) | 2023-10-11 | 2023-10-11 | Multifunctional auxiliary tool for embedded part of wall-attached support and die for manufacturing multifunctional auxiliary tool |
Country Status (1)
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CN (1) | CN221219754U (en) |
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2023
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