CN222270691U - MIC mould for aluminum steel - Google Patents

Abstract

The utility model belongs to the technical field of buildings, and particularly relates to an MIC (many integrated core) die for aluminum steel, which comprises a bottom table, a steel outer die arranged on the bottom table and an aluminum inner die matched with the steel outer die to form a pouring cavity, wherein the aluminum inner die comprises a plurality of spliced plates connected through fasteners, and inclined planes for overlapping adjacent spliced plates are arranged on two sides of each spliced plate. According to the MIC die for aluminum steel, the manner of adopting the aluminum inner die and the steel outer die is adopted, the steel manner is adopted for both the inner die and the outer die in the prior art, the strength of the aluminum spliced plate is ensured while the weight of the inner die is reduced, compared with the traditional steel spliced plate, the aluminum spliced plate has larger area under the same weight, the number of the spliced plates can be reduced, the flatness is higher, the carrying times of workers can be reduced, the aluminum spliced plate has lighter weight under the same area, the damage to the workers is smaller, and the possibility of accidents is reduced.

Description

MIC mould for aluminum steel

[ Field of technology ]

The application belongs to the technical field of buildings, and particularly relates to an MIC (many integrated core) die for aluminum steel.

[ Background Art ]

The prefabricated concrete house construction means that prefabricated steel components are produced in factories, then an outer mold and an inner mold are formed by on-site assembly, and cement is poured between the outer mold and the inner mold to complete the construction mode of the building. However, because the precast concrete house adopts a casting mode of one-step molding, the inner mold of the precast concrete house needs to be disassembled and assembled in a blocking way and is carried in a manual mode, because the density of steel reaches 85 g/cc, the total mass is large, the weight of a worker which can carry the precast concrete house once is limited, the inner mold needs to be precast into a plurality of spliced plates with the weight of 20-30 kg for the worker to carry, and more spliced plates easily influence the flatness of the inner mold, so that the building molding quality is reduced.

In addition, along with the development of the building industry, the requirements of construction units on construction quality and working efficiency are higher and higher, and the problem that the traditional outer die inclines with the bottom table in the construction process can occur.

[ utility model ]

The application provides an MIC die for aluminum steel, which can reduce the number of spliced plates under the same strength in order to solve the problem that the flatness of an internal die is easily reduced because the internal die made of steel needs to be split into more spliced plates in the prior art.

The application is realized by the following technical scheme:

the utility model provides an MIC mould for aluminum steel, includes the base frame, locates steel external mold on the base frame and with steel external mold cooperation forms the aluminium system centre form of pouring the chamber, aluminium system centre form includes a plurality of concatenation plates of being connected through the fastener, the both sides of concatenation plate are equipped with the confession adjacent the lapped inclined plane of concatenation plate.

The MIC die for aluminum steel comprises a first splicing block, a second splicing block, a third splicing block, a fourth splicing block, a fifth splicing block, a sixth splicing block, a seventh splicing block, an eighth splicing block, a ninth splicing block and a tenth splicing block which are sequentially arranged, wherein the first splicing block, the second splicing block and the third splicing block are matched to form a front side plate, the fourth splicing block and the fifth splicing block are matched to form a right side plate, the sixth splicing block, the seventh splicing block and the eighth splicing block are matched to form a rear side plate, and the ninth splicing block and the tenth splicing block are matched to form a left side plate.

The MIC die for aluminum steel further comprises an adjustable diagonal brace for adjusting the included angle of the steel outer die and the aluminum inner die relative to the bottom table, wherein two ends of the adjustable diagonal brace are hinged with the bottom table and the steel outer die respectively.

According to the MIC die for aluminum steel, the adjustable inclined support comprises the main support rod and the auxiliary support rod, the tail ends of the main support rod and the auxiliary support rod are hinged to the bottom table, and the head ends of the main support rod and the auxiliary support rod are respectively hinged to the steel square through back edge of the aluminum inner die and the steel outer die which are connected with the upper side and the steel square through back edge of the steel outer die which are connected with the lower side.

According to the MIC die for aluminum steel, the hinge points of the main support rod and the auxiliary support rod and the bottom table are positioned at one end far away from the steel outer die.

According to the MIC die for aluminum steel, the main supporting rod and the auxiliary supporting rod are telescopic screws.

According to the MIC die for aluminum steel, the adjustable inclined struts are arranged at intervals along the outer side face of the steel outer die.

According to the MIC die for aluminum steel, the inclined planes on two sides of the spliced plate are symmetrical with each other at the middle point of the spliced plate.

The MIC die for aluminum steel also comprises a safety net arranged at the top of the steel outer die, wherein the safety net is L-shaped.

The MIC die for aluminum steel further comprises the supporting rods, wherein the two ends of the supporting rods are respectively connected with the safety net and the steel outer die, and one ends, connected with the safety net, of the supporting rods are far away from the steel outer die.

Compared with the prior art, the application has the following advantages:

According to the MIC die for aluminum steel, the manner of adopting the aluminum inner die and the steel outer die is adopted, the steel manner of both the inner die and the outer die in the prior art is replaced, the strength of the aluminum spliced plate is ensured while the weight of the inner die is reduced, the aluminum spliced plate is larger than the traditional steel spliced plate in area under the same weight, the number of the spliced plate is further reduced, the flatness of splicing the inner die is improved, the carrying times of workers can be reduced, the aluminum spliced plate is lighter in weight under the same area, the damage to the workers is smaller, and the possibility of accidents is reduced.

[ Description of the drawings ]

In order to more clearly illustrate the technical solutions of the embodiments of the present application, the drawings required for the description of the embodiments will be briefly described below, and it is apparent that the drawings in the following description are only some embodiments of the present application, and other drawings may be obtained according to these drawings without inventive effort for a person skilled in the art.

FIG. 1 is a top view of an embodiment of the present application;

FIG. 2 is a top view of an inner mold in an embodiment of the application;

fig. 3 is an enlarged view at a in fig. 1;

Fig. 4 is a B-B direction view of fig. 1.

[ Detailed description ] of the invention

In order to make the technical scheme and beneficial effects of the technical problem solved by the application more clear, the application 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 scope of the application.

Referring to fig. 1 to 4, an MIC mold for aluminum steel includes a base table 1, a steel outer mold 2 disposed on the base table 1, and an aluminum inner mold 4 cooperating with the steel outer mold 2 to form a pouring cavity 3, wherein the aluminum inner mold 4 includes a plurality of splice plates 41 connected by fasteners, and inclined surfaces 6 for overlapping adjacent splice plates 41 are disposed on two sides of the splice plates 41.

According to the MIC die for aluminum steel, the manner of adopting the aluminum inner die and the steel outer die is adopted, the steel manner is adopted for both the inner die and the outer die in the prior art, the strength of the aluminum inner die is ensured while the weight of the inner die is reduced, compared with the traditional steel spliced plates, the aluminum spliced plates have larger area under the same weight, the number of the spliced plates can be reduced, the flatness is higher, the carrying times of workers can be reduced, the aluminum spliced plates have lighter weight and less damage to the workers under the same area, the possibility of accidents is reduced, and the inclined plane can improve the connection stability between the spliced plates, so that the spliced plates are firmly combined together, and the stability and the bearing capacity of the integral structure are enhanced. Secondly, the inclined plane design is also helpful for reducing stress concentration phenomenon generated at the joint of the plates, dispersing pressure, reducing the risks of fatigue and damage of materials and prolonging the service life.

Further, as a preferred embodiment of the present invention, but not limited thereto, the present invention further comprises an adjustable diagonal brace 5 for adjusting the included angle between the steel outer mold 2 and the aluminum inner mold 4 relative to the bottom frame 1, wherein two ends of the adjustable diagonal brace 5 are hinged to the bottom frame 1 and the steel outer mold 2, respectively.

In this embodiment, with the help of the straightness measuring apparatu that hangs down, through the length of adjustment bracing, observe the number of degrees of measuring apparatu, can adjust steel external mold and aluminium system centre form and bottom table to the vertical state effectively, make it can adapt to different operating condition and plate shape in a flexible way to greater suitability and flexibility have been provided. The splicing process is optimized, the assembly efficiency and quality of the structure are improved, the possibility caused by assembly errors is reduced, and powerful guarantee is provided for the stability and reliability of the whole structure.

Further, as a preferred embodiment of the present invention, but not limited thereto, the adjustable diagonal support 5 includes a main support bar 51 and a sub support bar 52, wherein the ends of the main support bar 51 and the sub support bar 52 are hinged to the base table 1, and the head ends of the main support bar 51 and the sub support bar 52 are respectively hinged to a steel square through back bar connecting the inner aluminum mold 4 and the outer steel mold 2 at the upper side and a steel square through back bar connecting the inner aluminum mold 4 and the outer steel mold 2 at the lower side.

In this embodiment, first, the ends of the primary and secondary support rods are hinged to the base table so that the diagonal support can be firmly secured to the base table, effectively maintaining the stability of the overall structure. Secondly, the head ends of the main supporting rod and the auxiliary supporting rod are respectively hinged with the steel square back edge connected above the aluminum inner die and the steel outer die and the steel square back edge connected below the aluminum inner die and the steel outer die, reliable connection with the die is achieved, the accuracy and stability of the installation process are ensured, the splicing process is optimized, the assembly efficiency and quality of the structure are improved, and powerful guarantee is provided for the stability and reliability of the whole structure.

Further, as a preferred embodiment of the present solution, and not by way of limitation, the hinge points of the primary support rod 51 and the secondary support rod 52 with the base table 1 are located at the end remote from the steel outer mould 2.

In the embodiment, the interference of the adjustable diagonal brace on the steel outer die can be effectively reduced, so that the assembly process is smoother, the interference and collision between the adjustable diagonal brace and the outer die are reduced, and the stability of the structure and the assembly accuracy are ensured. Secondly, the stability and the supporting effect of the diagonal bracing are enhanced at the position far away from the hinge point of the outer die, so that the diagonal bracing can bear load in the assembly process more effectively, and the safety of the whole structure is ensured.

Further, as a preferred embodiment of the present invention, but not limited thereto, the main support bar 51 and the auxiliary support bar 52 are telescopic screws.

In this embodiment, the telescopic screw has high reliability, simple structure, and easy installation and use. The characteristics enable the telescopic screw to play an important role in the fields of engineering construction, mechanical manufacturing and the like, and provide a flexible and efficient solution for various projects.

Further, as a preferred embodiment of the present embodiment, but not limited to, a plurality of the adjustable diagonal braces 5 are disposed at intervals along the outer side surface of the steel outer mold 2.

In the embodiment, the surfaces of the steel outer die can be uniformly supported through the distribution of the adjustable inclined struts, so that the load in the assembly process is effectively dispersed, the bearing pressure of a single inclined strut is reduced, and the stability of the whole structure is improved. Secondly, the design that the interval set up makes the bracing can cover the most surface of steel external mold, has prevented the deformation or the damage of external mold effectively, has guaranteed going on smoothly of concatenation process. In addition, the setting of a plurality of bracing still can mutually support for adjustment and fixed process are more accurate and reliable, have improved the accuracy of assembly.

Further, as a preferred embodiment of the present solution, not by way of limitation, the inclined surfaces 6 on both sides of the splice plate 41 are symmetrical to each other with the midpoint of the splice plate 41.

In this embodiment, through the symmetry setting on inclined plane, guaranteed equilibrium and stability of concatenation plate when connecting, avoided because of the distortion or the deformation condition that the plate installation is inhomogeneous and lead to, guaranteed overall structure's steadiness, secondly, the design of symmetry inclined plane has still simplified the concatenation process for the installation operation is more simple and convenient and high-efficient, has reduced human error's possibility, has improved the assembly accuracy of concatenation plate.

Further, as a preferred embodiment of the present invention, but not limited thereto, a safety net 100 is provided at the top of the steel outer mold 2, and the safety net 100 has an L shape.

In this embodiment, the safety net can prevent effectively that the accident from falling or falling the condition that takes place in the concatenation in-process, has ensured staff's safety. Secondly, the L-shaped design enables the safety net to cover the top and the side face of the steel outer die at the same time, so that omnibearing protection is provided, materials or tools are effectively prevented from sliding off the die plate, and smooth splicing work is guaranteed. In addition, the design of L shape safety net also is convenient for install and dismantle, can not cause extra interference to the concatenation process, has guaranteed the high efficiency and the security of construction.

Further, as a preferred embodiment of the present embodiment, but not limited thereto, a support bar 200 is further included, both ends of which are respectively connected to the safety net 100 and the steel outer mold 2, and one end of the support bar 200 connected to the safety net 100 is remote from the steel outer mold 2.

In this embodiment, the bracing piece provides extra support and stability, has strengthened the structure of safety net, makes it more firmly fix on steel external mold, has prevented effectively that the accident is not hard up or the slope, has ensured staff's safety. Secondly, the design of bracing piece makes the safety net can bear bigger external pressure, has strengthened its anti-carrying capacity, has prevented external force impact or extrusion that probably takes place in the concatenation in-process, has promoted safety net's stability and reliability. In addition, the supporting rods can be adjusted according to the requirements, so that the safety net is suitable for different working conditions and plate shapes, and the applicability and flexibility of the safety net are improved.

The working principle of this embodiment is as follows:

Under the condition of equal weight, aluminum plate is bigger in the area of steel sheet compared with, and workman's single aluminum plate area that can carry is also bigger, and then reduces the quantity of concatenation plate for the roughness is higher, when the dismouting centre form, can also reduce workman's transport number of times, and under equal area, aluminium system concatenation plate quality is lighter, and is less to workman's injury, reduces accident's possibility, improves security and practicality.

The embodiments provided above in connection with the specific disclosure are not intended to limit the practice of the application to those descriptions. The present application should be considered as the protection scope of the present application, if the structure of the method is similar to that of the present application, or if several technical deductions or substitutions are made on the premise of the present application.

Claims (10)

1. An aluminum-steel MIC mold, characterized in that it comprises a base (1), a steel outer mold (2) arranged on the base (1), and an aluminum inner mold (4) that cooperates with the steel outer mold (2) to form a casting cavity (3), wherein the aluminum inner mold (4) comprises a plurality of splicing plates (41) connected by fasteners, and both sides of the splicing plates (41) are provided with inclined surfaces (6) for overlapping adjacent splicing plates (41). 2. The aluminum-steel MIC mold according to claim 1, characterized in that the plurality of splicing plates (41) include a first splicing block (411), a second splicing block (412), a third splicing block (413), a fourth splicing block (414), a fifth splicing block (415), a sixth splicing block (416), a seventh splicing block (417), an eighth splicing block (418), a ninth splicing block (419) and a tenth splicing block (410) which are arranged in sequence, wherein the first splicing block (411) The connecting block (411), the second connecting block (412) and the third connecting block (413) cooperate to form a front side panel (7), the fourth connecting block (414) and the fifth connecting block (415) cooperate to form a right side panel (8), the sixth connecting block (416), the seventh connecting block (417) and the eighth connecting block (418) cooperate to form a rear side panel (9), and the ninth connecting block (419) and the tenth connecting block (410) cooperate to form a left side panel (10). 3. The aluminum-steel MIC mold according to claim 1 is characterized in that it also includes an adjustable diagonal brace (5) for adjusting the angle between the steel outer mold (2) and the aluminum inner mold (4) relative to the base (1), and the two ends of the adjustable diagonal brace (5) are respectively hinged to the base (1) and the steel outer mold (2). 4. An aluminum-steel combined MIC mold according to claim 3, characterized in that the adjustable diagonal brace (5) includes a main support rod (51) and a secondary support rod (52), the ends of the main support rod (51) and the secondary support rod (52) are hinged to the base (1), and the head ends of the main support rod (51) and the secondary support rod (52) are respectively hinged to the steel square back ribs connecting the aluminum inner mold (4) and the steel outer mold (2) at the top and the steel square back ribs connecting the aluminum inner mold (4) and the steel outer mold (2) at the bottom. 5. An aluminum-steel combined MIC mold according to claim 4, characterized in that the hinge points of the main support rod (51) and the auxiliary support rod (52) with the base (1) are located at an end away from the steel outer mold (2). 6. The aluminum-steel combined MIC mold according to claim 4, characterized in that the main support rod (51) and the auxiliary support rod (52) are both telescopic screw rods. 7. An aluminum-steel MIC mold according to claim 3, characterized in that a plurality of said adjustable diagonal braces (5) are arranged at intervals along the outer side surface of said steel outer mold (2). 8. An aluminum-steel combined MIC mold according to claim 2, characterized in that the inclined surfaces (6) on both sides of the splicing plate (41) are symmetrical to each other about the midpoint of the splicing plate (41). 9. The aluminum-steel MIC mold according to claim 1, characterized in that it also includes a safety net (100) arranged on the top of the steel outer mold (2), and the safety net (100) is L-shaped. 10. An aluminum-steel combined MIC mold according to claim 9, characterized in that it also includes a support rod (200) with two ends respectively connected to the safety net (100) and the steel outer mold (2), and the end of the support rod (200) connected to the safety net (100) is away from the steel outer mold (2).