CN112878586B

CN112878586B - Steel bar framework assembly capable of being rapidly assembled in steel structure building exterior wall cladding

Info

Publication number: CN112878586B
Application number: CN202110091601.8A
Authority: CN
Inventors: 周阳; 张建华; 张振; 赵红鹤; 任丽芳; 王银丽; 代江燕; 何金华; 史特功; 梁创
Original assignee: Individual
Current assignee: Individual
Priority date: 2021-01-23
Filing date: 2021-01-23
Publication date: 2022-02-22
Anticipated expiration: 2041-01-23
Also published as: CN112878586A

Abstract

The invention provides a steel reinforcement framework assembly in a steel structure building exterior wall cladding capable of being assembled quickly. But steel reinforcement skeleton subassembly among rapid Assembly's steel construction building exterior wall cladding includes first steelframe, the second steelframe, pull the mechanism, pushing mechanism and supporting mechanism, dead lever sliding connection is in the inside of spout, the one end of first spring is located the inside one end fixed connection of spout with the dead lever, the other end of first spring and the inner wall fixed connection of spout, the second steelframe is close to and has seted up the fixed orifices with dead lever matched with on the lateral wall of edge, it installs on the lateral wall of first steelframe to pull the mechanism, pushing mechanism installs the inside at the fixed slot, supporting mechanism installs the top at the second steelframe. The steel reinforcement framework assembly in the steel structure building exterior wall cladding capable of being rapidly assembled provided by the invention has the advantages that the steel reinforcement framework can be rapidly installed, the time can be saved, and the steel reinforcement framework can be rapidly disassembled and is convenient to maintain.

Description

Steel bar framework assembly capable of being rapidly assembled in steel structure building exterior wall cladding

Technical Field

The invention relates to the technical field of building materials, in particular to a steel reinforcement framework assembly in a steel structure building exterior wall cladding capable of being rapidly assembled.

Background

The exterior wall cladding is a kind of building material, is the building board used for the outer wall, hang the panel outside the wall body through construction methods such as dry-hanging, etc. in order to reach effects such as decoration or heat preservation, etc., need to use the framework of steel reinforcement to support in the interior of the exterior wall scraper blade.

At present, a plurality of steel bar frameworks are welded on site, so that the time is wasted, and the steel bar frameworks are inconvenient to disassemble and maintain when needed.

Therefore, it is necessary to provide a steel reinforcement frame assembly in a steel structure building exterior wall cladding capable of being assembled quickly to solve the above technical problems.

Disclosure of Invention

The invention aims to provide a steel reinforcement framework assembly in a steel structure building exterior wall cladding, which can quickly install a steel reinforcement framework, save time, quickly disassemble and facilitate maintenance and can be quickly assembled.

In order to solve the technical problem, the steel reinforcement framework assembly in the steel structure building exterior wall cladding capable of being rapidly assembled provided by the invention comprises: the side wall of the first steel frame is provided with fixing grooves which are distributed at equal intervals; the second steel frame is mounted on the side wall of the first steel frame through a fixing mechanism, the fixing mechanism comprises a fixing rod, a first spring and a fixing hole, a sliding groove communicated with the fixing groove is formed in the first steel frame, the fixing rod is connected to the inside of the sliding groove in a sliding mode, one end of the first spring is fixedly connected with one end, located in the sliding groove, of the fixing rod, the other end of the first spring is fixedly connected with the inner wall of the sliding groove, and the side wall, close to the edge, of the second steel frame is provided with the fixing hole matched with the fixing rod; the pulling mechanism is arranged on the side wall of the first steel frame; the pushing mechanism is arranged inside the fixing groove; the supporting mechanism is arranged at the top of the second steel frame;

the supporting mechanism is arranged at the top of the second steel frame and comprises a supporting cylinder, a supporting rod and a pin bolt device, an iron block is fixed inside the lower portion of the supporting cylinder, a clamping groove is formed inside the iron block and the tail end of the supporting cylinder, the iron block is connected with the supporting rod through a compression spring, the other end of the supporting rod is connected with a magnetic head, the outer diameter of the magnetic head is smaller than the inner diameter of the clamping groove, the pin bolt device is inserted into one side of the upper end of the supporting cylinder, a limiting groove is formed in one side of the supporting rod corresponding to the pin bolt device,

the pin bolt device comprises a pin bolt head and a pin shaft, wherein an extension spring is sleeved on the pin shaft, two ends of the extension spring are respectively connected and fixed on the pin bolt head and the outer wall of the supporting cylinder, the tail end of the pin shaft is wedge-shaped, the outer surface of the tail end of the pin shaft is composed of a first inclined plane and a second inclined plane, a bayonet is arranged at the joint of the first inclined plane and the second inclined plane,

a through hole is arranged at one side of the iron block close to the pin bolt device, a mandril is inserted into the through hole, the outer diameter of the mandril is larger than the diameter of the through hole, the tail end of the mandril is in a conical shape, the top end of the mandril is in a wedge shape with the same inclination as the tail end of the pin shaft,

the conical tail end of the ejector rod penetrates through the through hole to extend out of the iron block, when the ejector rod is completely ejected into the iron block, the ejector rod moves upwards, the conical tail end of the ejector rod pushes the pin to move axially outside the supporting cylinder, and the pin shaft is completely separated from the limiting groove.

Preferably, the pulling mechanism comprises a pulling rope and a pulling ring, one end of the pulling rope is fixedly connected with one end of the fixed rod inside the sliding groove, the other end of the pulling rope penetrates through the side wall of the first steel frame to extend outwards, and the pulling ring is fixedly installed at the extending end of the pulling rope.

Preferably, the supporting mechanism comprises a supporting cylinder, a supporting rod and a fixing bolt, the supporting cylinder is fixedly installed at the top of the second steel frame, the supporting rod is connected inside the supporting cylinder in a sliding mode, and the fixing bolt is connected to the side wall of the fixing cylinder in a threaded mode.

Preferably, the supporting mechanism further comprises a magnetic head and a threaded hole, the magnetic head is rotatably connected to the top of the supporting rod, and the threaded hole matched with the magnetic head is formed in the bottom of the second steel frame.

Preferably, the pushing mechanism comprises a pushing block and a second spring, the pushing block is connected to the inside of the fixing groove in a sliding mode, and the second spring is fixedly connected between the side wall of the pushing plate and the inner wall of the fixing groove.

Preferably, the end of the second steel frame, which is in contact with the fixing rod, is of an arc structure matched with the fixing rod.

Preferably, the first and second inclined surfaces are parallel, the first inclined surface being closer to the pin head than the second inclined surface.

Preferably, the side walls of the two ends of the second steel frame can be provided with anti-slip lines.

Preferably, the inner wall of one side of the supporting cylinder, which is opposite to the pin bolt device, is provided with a semi-annular limiting sleeve, and the part of the supporting rod, which extends into the supporting cylinder, is limited between the limiting sleeve and the ejector rod.

Compared with the prior art, the steel reinforcement framework assembly in the steel structure building exterior wall cladding capable of being rapidly assembled provided by the invention has the following beneficial effects:

1. the invention provides a steel reinforcement framework assembly in a steel structure building exterior wall cladding capable of being quickly assembled, wherein the end part of a second steel frame is inserted into a fixing groove of a first steel frame, then a fixing rod is driven by a first spring to be bounced into a fixing hole on the second steel frame to fix the second steel frame, so that the quick assembly is realized, when the second steel frame and the first steel frame need to be disassembled, the fixing rod is pulled by a pull rope to be separated from the fixing hole, and at the moment, a pushing mechanism can push the second steel frame out of the fixing groove, so that the steel reinforcement framework can be quickly assembled, the time can be saved, and the steel reinforcement framework can be quickly disassembled to be convenient for maintenance;

2. according to the invention, a series of linkage can be realized by pulling the pin bolt head of the support mechanism at the bottommost end, and all the support mechanisms are rapidly assembled and combined, so that two adjacent groups of second steel frames can be supported, the stability is improved, the steel bar framework can be rapidly installed, the time can be saved, and the steel bar framework can be rapidly disassembled and is convenient to maintain.

Drawings

Fig. 1 is one of schematic structural diagrams of a steel reinforcement cage assembly in a steel structure building exterior wall cladding capable of being rapidly assembled according to the present invention;

fig. 2 is a second schematic structural view of a steel reinforcement cage assembly in the steel structure building exterior wall cladding capable of being rapidly assembled according to the present invention;

FIG. 3 is one of the schematic structural views of the interior portion of the first steel frame shown in FIG. 1;

FIG. 4 is a second schematic view of the internal structure of the first steel frame shown in FIG. 1;

FIG. 5 is a schematic structural view of the support mechanism;

FIG. 6 is a schematic sectional view of the supporting mechanism;

FIG. 7 is a top view of the support cylinder;

FIG. 8 is an enlarged view of a portion of FIG. 6;

FIG. 9 is a schematic structural view of a pin;

fig. 10 is a schematic view of the installation of a plurality of support mechanisms.

Detailed Description

The invention is further described with reference to the following figures and embodiments.

Example 1

As shown in fig. 1-4, the steel reinforcement framework assembly in the steel structure building exterior wall cladding capable of being rapidly assembled comprises: first steelframe 1, second steelframe 2, drag mechanism 9, pushing mechanism 4 and supporting mechanism 5, set up the fixed slot 6 that the equidistance distributes on the lateral wall of first steelframe 1, second steelframe 2 is installed on the lateral wall of first steelframe 1 through fixed establishment 3, fixed establishment 3 includes dead lever 31, first spring 32 and fixed orifices 33, spout 7 that is linked together with fixed slot 6 is seted up to the inside of first steelframe 1, dead lever 31 sliding connection is in the inside of spout 7, the one end of first spring 32 is located the inside one end fixed connection of spout 7 with dead lever 31, the other end of first spring 32 and the inner wall fixed connection of spout 7, second steelframe 2 is close to and has seted up on the lateral wall of edge with dead lever 31 matched with fixed orifices 33.

The pulling mechanism 9 comprises a pulling rope 91 and a pulling ring 92, one end of the pulling rope 91 is fixedly connected with one end of the fixing rod 31 inside the sliding chute 7, the other end of the pulling rope 91 penetrates through the side wall of the first steel frame 1 to extend outwards, and the pulling ring 92 is fixedly installed at the extending end of the pulling rope 91.

The end of the second steel frame 2 contacting the fixing rod 31 is an arc structure matched with each other.

The side walls of the two ends of the second steel frame 2 can be provided with anti-skid grains 8.

It should be noted that: the end part of the second steel frame 2 is inserted into the fixing groove 6 on the side wall of the first steel frame 4, at this time, the second steel frame 2 extrudes the fixing rod 31 which is matched with the end surface and is in an arc structure to the inside of the sliding groove 7, and compresses the first spring 32, when the fixing hole 33 on the side wall of the second steel frame 2 moves to a position which is flush with the fixing rod 32, the first spring 32 is forced to be relieved to drive the fixing rod 31 to be bounced into the fixing hole 33, so that the second steel frame 2 is fixed in the fixing groove 6 of the first steel frame 1, and the first steel frame 1 and the second steel frame 2 are installed together, and the anti-skid veins 8 on the side wall of the two ends of the second steel frame 2 can improve the friction force with the fixing groove 6, prevent the second steel frame 2 from rolling to further improve the stability, when the second steel frame 2 needs to be detached from the first steel frame 1, the pull ring 92 pulls the pull rope 91 to drive the fixing rod 31 to move to be separated from the fixing hole 33 and retract into the inside of the sliding groove 7, so that the second steel frame 2 and thus the fixing groove 6 can be taken out.

Push mechanism 4 includes ejector pad 41 and second spring 42, ejector pad 41 sliding connection is in the inside of fixed slot 6, second spring 42 fixed connection is between the lateral wall of ejector pad 41 and the inner wall of fixed slot 6, still can extrude ejector pad 41 and make the compression of second spring 42 when injecting second steelframe 2 into fixed slot 6 on first steelframe 1 inside, when pulling stay cord 91 drives dead lever 31 and breaks away from fixed orifices 33, second spring 42 can the atress relieve and drive ejector pad 41 and remove automatic second steelframe 2 release fixed slot 6, be convenient for take out second steelframe 2.

After all the second steelframes 2 are all installed on first steelframe 1, connect adjacent two sets of second steelframes 2 respectively with supporting mechanism 5 to can live adjacent two sets of second steelframes 2, improve stability.

Example 2

As shown in fig. 5-9, in order to further improve the assembly efficiency of the steel bar framework assembly, the supporting mechanism 5 is pre-assembled on the second steel frame 2 at a reasonable position in advance in a unified manner, for example, by welding or screwing, because the supporting mechanism 5 is pre-assembled on the second steel frame 2 and does not need to be disassembled during the assembly and disassembly of the steel bar framework assembly, this embodiment does not need to describe its specific installation manner and does not consider the pre-assembly time problem, therefore, this embodiment focuses on solving the assembly and disassembly efficiency problem of the steel bar framework assembly during specific use, in this embodiment, the supporting mechanism 5 specifically includes a supporting cylinder 51, a supporting rod 52, a pin bolt device 53, an iron block 55 is fixed inside the supporting cylinder 51, and the iron block 55 and the end of the supporting cylinder 51 form a slot 56, the iron block 55 is connected to the supporting rod 52 through a compression spring 57, the other end of the supporting rod 52 is connected to a magnetic head 54, the outer diameter of the magnetic head 54 is smaller than the inner diameter of the slot 56, a pin device 53 is inserted into one side of the upper end of the support cylinder 51, a limit slot 521 is formed in one side of the support rod 52 corresponding to the pin device 53, the pin device 53 further specifically comprises a pin head 531 and a pin shaft 532, the pin shaft 532 is sleeved with an extension spring 533, two ends of the extension spring 533 are respectively connected and fixed to the pin head 531 and the outer wall of the support cylinder 51, the pin shaft 532 can be inserted into the limit slot 521 under the action of the extension spring 533, the tail end of the pin shaft 532 is wedge-shaped, the outer surface of the tail end of the pin shaft 532 is composed of a first inclined surface 5321 and a second inclined surface 5322, a bayonet 534 is arranged at the connection position of the first inclined surface 5321 and the second inclined surface 5322, when the pin shaft 532 is inserted into the limit slot 521, the bayonet 534 is blocked at the edge angle of the limit slot 521, a through hole is formed in one side of the support rod 52, which is close to the pin device 53, a push rod 58 is inserted into the through hole, the outer diameter of the ejector rod 58 is larger than the diameter of the through hole, the tail end of the ejector rod 58 is conical, the top end of the ejector rod 58 is in a wedge shape with the same inclination as the tail end of the pin shaft 532, the top end of the ejector rod 58 is in wedge fit with the tail end of the pin shaft 532, when the ejector rod 58 moves upwards, the pin shaft 532 can be pushed to move outwards from the support cylinder 51 through the wedge-shaped tail end of the ejector rod 58, and then the pin shaft 532 is separated from the limiting groove 521.

The conical tail end of the ejector rod 58 of the second steel frame supporting mechanism 5 penetrates through the through hole to extend out of the iron block 55, when the ejector rod 58 is completely ejected into the iron block 55, the ejector rod 58 moves upwards, and the conical tail end of the ejector rod 58 pushes the pin shaft 532 to move outwards of the supporting cylinder 51, so that the pin shaft 532 is completely separated from the limiting groove 521.

As shown in fig. 10, all the supporting mechanisms 5 are installed on the second steel frame 2 in advance, after all the second steel frames 2 are installed on the first steel frame 1, the pin head 531 on the lowest supporting mechanism 5e is pulled out outwards, the compression spring 57 is released elastically, the supporting rod 5 moves upwards, after the fixing rod 31 is bounced into the fixing hole 33, the degree of freedom of the second steel frame 2 is 0, all the supporting mechanisms 5 correspond up and down, and the magnetic head 54 attracts the iron block 55 on the adjacent upper supporting mechanism 5f, so that the iron block 55 on the supporting mechanism 5f is tightly attached to the magnetic head of the supporting mechanism 5e, and further the ejector rod 58 on the supporting mechanism 5f is pushed upwards, so that the ejector rod 58 pushes the pin 532 to move outwards from the supporting cylinder 51, so that the pin 532 is separated from the limiting groove 521, and further the supporting rod 52 on the supporting mechanism 5f is released, so that the iron block 55 on the supporting mechanism 5g on the adjacent upper end of the supporting mechanism 5f is tightly attached to the magnetic head of the supporting mechanism 5f, further release bracing piece upward movement on the supporting mechanism 5g to take place the combined action, concatenate all supporting mechanism 5 fast and fix on second steelframe 2, this application can realize a series of linkages through the round pin bolt head 531 of the supporting mechanism 5 of outside pulling rib skeleton subassembly bottom, assembles the combination rapidly with all supporting mechanism 5, has improved the installation effectiveness greatly, has saved manpower and installation time for traditional skeleton subassembly is installed one by one.

The working principle of the steel reinforcement framework assembly in the steel structure building exterior wall cladding capable of being rapidly assembled provided by the invention is as follows:

when the steel reinforcement framework needs to be installed, the end part of the second steel frame 2 is inserted into the fixing groove 6 on the side wall of the first steel frame 4, at this time, the second steel frame 2 will extrude the fixing rod 31, which is matched with the end surface thereof and is of an arc structure, into the chute 7 and compress the first spring 32, and also extrude the push block 41 and compress the second spring 42, when the fixing hole 33 on the side wall of the second steel frame 2 moves to a position flush with the fixing rod 32, the first spring 32 will be forced to release to drive the fixing rod 31 to be bounced into the fixing hole 33 to fix the second steel frame 2 in the fixing groove 6 of the first steel frame 1, so that the first steel frame 1 and the second steel frame 2 are installed together, and the anti-skid veins 8 on the side wall of the two ends of the second steel frame 2 can improve the friction force with the fixing groove 6, prevent the second steel frame 2 from rolling and further improve the stability, when the second steel frame 2 needs to be detached from the first steel frame 1, pull 92 through the pull ring and move stay cord 91, make stay cord 91 drive dead lever 31 remove the inside that breaks away from fixed orifices 33 and withdrawal spout 7, second spring 42 can the atress relieve and drive ejector pad 41 and remove automatic second steelframe 2 release fixed slot 6 this moment, thereby can take out second steelframe 2 the inside of fixed slot 6, after all second steelframes 2 are all installed on first steelframe 1, the round pin of the supporting mechanism 5 of the bottommost of pulling is tied head 531 and is realized a series of linkages, assemble the combination rapidly with all supporting mechanism 5, thereby can live adjacent two sets of second steelframe 2 supports, and the stability is improved, thereby can install not only can save time fast framework of steel reinforcement, and also can dismantle the maintenance of being convenient for fast.

In the description of the present invention, it should be noted that the terms "center", "upper", "lower", "left", "right", "vertical", "horizontal", "inner", "outer", etc., indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings, and are only for convenience of description and simplicity of description, but do not indicate or imply that the device or element being referred to must have a particular orientation, be constructed and operated in a particular orientation, and thus, should not be construed as limiting the present invention.

The above description is only an embodiment of the present invention, and not intended to limit the scope of the present invention, and all modifications of equivalent structures and equivalent processes, which are made by using the contents of the present specification and the accompanying drawings, or directly or indirectly applied to other related technical fields, are included in the scope of the present invention.

Claims

1. The utility model provides a but steel reinforcement skeleton subassembly in rapid Assembly's steel construction building exterior wall cladding which characterized in that includes:

the steel frame comprises a first steel frame (1), wherein fixing grooves (6) are formed in the side wall of the first steel frame (1) and are distributed at equal intervals;

the second steel frame (2) is mounted on the side wall of the first steel frame (1) through a fixing mechanism (3), the fixing mechanism (3) comprises a fixing rod (31), a first spring (32) and a fixing hole (33), a sliding groove (7) communicated with the fixing groove (6) is formed in the first steel frame (1), the fixing rod (31) is connected to the inside of the sliding groove (7) in a sliding mode, one end of the first spring (32) is fixedly connected with one end, located in the sliding groove (7), of the fixing rod (31), the other end of the first spring (32) is fixedly connected with the inner wall of the sliding groove (7), and the side wall, close to the edge, of the second steel frame (2) is provided with the fixing hole (33) matched with the fixing rod (31);

the pulling mechanism (9), the pulling mechanism (9) is installed on the side wall of the first steel frame (1); the pulling mechanism (9) comprises a pulling rope (91) and a pulling ring (92), one end of the pulling rope (91) is fixedly connected with one end, located in the sliding groove (7), of the fixed rod (31), the other end of the pulling rope (91) penetrates through the side wall of the first steel frame (1) to extend outwards, and the pulling ring (92) is fixedly installed at the extending end of the pulling rope (91);

the pushing mechanism (4), the said pushing mechanism (4) is installed inside fixed slot (6);

the supporting mechanism (5) is installed at the top of the second steel frame (2), the supporting mechanism (5) comprises a supporting cylinder (51), a supporting rod (52) and a pin bolt device (53), an iron block (55) is fixed inside the lower portion of the supporting cylinder (51), a clamping groove (56) is formed inside the tail end of the iron block (55) and the supporting cylinder (51), the iron block (55) is connected with the supporting rod (52) through a compression spring (57), the other end of the supporting rod (52) is connected with a magnetic head (54), the outer diameter of the magnetic head (54) is smaller than the inner diameter of the clamping groove (56), the pin bolt device (53) is inserted into one side of the upper end of the supporting cylinder (51), and a limiting groove (521) is formed in one side, corresponding to the pin bolt device (53), of the supporting rod (52);

the pin bolt device (53) comprises a pin bolt head (531) and a pin shaft (532), wherein an extension spring (533) is sleeved on the pin shaft (532), two ends of the extension spring (533) are respectively connected and fixed to the pin bolt head (531) and the outer wall of the support cylinder (51), the tail end of the pin shaft (532) is in a wedge shape, the outer surface of the tail end of the pin shaft (532) is composed of a first inclined surface (5321) and a second inclined surface (5322), and a bayonet (534) is arranged at the joint of the first inclined surface (5321) and the second inclined surface (5322);

a through hole is formed in one side, close to the pin bolt device (53), of the iron block (55), a push rod (58) is inserted into the through hole, the outer diameter of the push rod (58) is larger than the diameter of the through hole, the tail end of the push rod (58) is conical, and the top end of the push rod (58) is in a wedge shape with the same inclination as that of the tail end of the pin shaft (532);

the conical tail end of the ejector rod (58) penetrates through the through hole to extend out of the iron block (55), when the ejector rod (58) is completely ejected into the iron block (55), the ejector rod (58) moves upwards, and the conical tail end of the ejector rod (58) pushes the pin shaft (532) to move outwards of the supporting cylinder (51), so that the pin shaft (532) is completely separated from the limiting groove (521).

2. The steel reinforcement cage assembly in a quick-assemblable steel structure building exterior wall cladding as claimed in claim 1, wherein the pushing mechanism (4) comprises a pushing block (41) and a second spring (42), the pushing block (41) is slidably connected inside the fixing groove (6), and the second spring (42) is fixedly connected between a side wall of the pushing block (41) and an inner wall of the fixing groove (6).

3. The steel reinforcement framework assembly in the exterior wall cladding of the steel structure building capable of being rapidly assembled according to claim 1, wherein one end of the second steel frame (2) contacting the fixing rod (31) is an arc structure which is matched with each other.

4. The steel reinforcement cage assembly in a quick-assemblable steel structure building cladding panel according to claim 1, wherein the first inclined surface (5321) and the second inclined surface (5322) are parallel, and the first inclined surface (5321) is closer to the pin head (531) than the second inclined surface (5322).

5. The steel reinforcement framework assembly in the fast-assembly steel structure building exterior wall cladding of claim 1, characterized in that, the lateral wall of the two ends of the second steel frame (2) can have anti-skid lines (8).

6. The steel reinforcement framework assembly in the steel structure building exterior wall cladding capable of being rapidly assembled according to claim 1, wherein a semi-annular limiting sleeve (59) is arranged on the inner wall of one side of the supporting cylinder (51) opposite to the pin bolt device (53), and the part of the supporting rod (52) extending into the supporting cylinder (51) is limited between the limiting sleeve (59) and the ejector rod (58).