CN117230978A - Truss for building construction - Google Patents

Abstract

The invention discloses a truss for building construction, and relates to the field of building construction equipment. The truss comprises a construction platform, a triangular truss and a top hoisting assembly, wherein the triangular truss is fixedly connected to the lower surface of the construction platform, and the top hoisting assembly is fixedly connected between the upper surface of the construction platform and a wall body. This construction is with truss design one kind by the construction platform that the triangular truss constitutes, combine top hoist and mount subassembly realization through the triangular truss with most gravity effect in the wall, and do not need complex structure, do not need a large amount of materials to construct scaffold frame bearing structure from the bottom of the building, can realize freely going up and down etc. through the lift, avoid traditional truss scaffold to be unsuitable for the problem of present high-rise building construction, not only transfer the wall body with most masses, reduce the atress of top hoist and mount subassembly, still can simplify traditional truss construction platform's structure, reduce structural quality, and can go up and down to adjust according to the use needs, facilitate the use.

Description

Truss for building construction

Technical Field

The invention relates to the technical field of building construction equipment, in particular to a truss for building construction.

Background

The truss is a supporting beam structure formed by connecting rod pieces at two ends by using hinges through welding, riveting or bolts, and the rod pieces of the truss are mainly subjected to tension or compression, so that the strength of materials can be fully utilized, the truss can save materials when the span is larger than that of a solid web beam, lighten dead weight and increase rigidity, and is widely used in building construction.

The truss construction platform in the traditional building engineering mostly adopts the mode of falling to the ground scaffold and overhanging scaffold, because of the promotion of city, this kind of structure is not applicable to in the building construction of floor height very much, not only because too high structure needs more materials, and a great deal of defects such as inconvenient, the loaded down with trivial details, the burden that increases the construction team of construction exist in complicated structure simultaneously.

Therefore, the technical staff in the art provides a truss for building construction, helps to solve the problems of the truss for high-rise construction in the prior art, realizes truss installation according to building walls, reduces truss consumables, and facilitates erection construction.

Disclosure of Invention

(one) solving the technical problems

Aiming at the defects of the prior art, the invention provides a truss for building construction, which solves the problems that the truss for building construction in the prior art has more materials, complex structure, complicated construction and time consumption, and self-weight caused by complex structure, more influences the building construction progress and the like.

(II) technical scheme

In order to achieve the above purpose, the invention is realized by the following technical scheme: the utility model provides a truss for construction, includes construction platform, triangular truss and top hoist and mount subassembly, construction platform's lower fixed surface is connected with triangular truss, construction platform's top is fixed to be provided with top hoist and mount subassembly, triangular truss includes triangle unloading frame and mounting, top hoist and mount subassembly includes node and lift, top hoist and mount subassembly and construction platform fixed connection.

Preferably, the construction platform is close to one side of wall body fixedly connected with blotter, the upper surface of construction platform runs through and is provided with down the node, triangle unloads power frame and lift all through lower node and construction platform fixed connection.

Preferably, the right-angle surface of the triangular force unloading frame is arranged in parallel with the wall body, a rubber pad is fixedly arranged on one side, close to the wall body, of the triangular force unloading frame, the other right-angle side of the triangular force unloading frame is fixedly connected with the lower surface of the construction platform, and pressure on the construction platform acts on the side surface of the wall body through the triangular force unloading frame.

Preferably, the fixing piece comprises a reinforcing plate, a wall-in nail and a claw, wherein the reinforcing plate is fixedly connected to one side, close to a wall, of the triangular force unloading frame, the wall-in nail is arranged on the side face of the reinforcing plate in a penetrating mode, and the claw is arranged at one end, penetrating through the wall, of the wall-in nail.

Preferably, the side of going into the wall nail slides and has cup jointed the gasket, just the side threaded connection of going into the wall nail has to support tight nut, the mounting groove with jack catch looks adaptation has been seted up to the side of going into the wall nail, just the side fixedly connected with stopper of jack catch.

Preferably, the side of the triangular force unloading frame, which is close to the wall body, is fixedly provided with a roller, and the side surface of the wall body is fixedly connected with a sliding rail which is matched with the roller.

Preferably, the upper node is a fixed structure fixedly arranged at a high point of the wall body, the upper node comprises a positioning rivet, a mounting lug and a supporting frame, the positioning rivet penetrates through the wall body, the side surface of the positioning rivet is fixedly connected with the mounting lug, and the supporting frame is fixedly arranged between one side, far away from the wall body, of the mounting lug and the wall body.

Preferably, the positioning rivets are three groups of three triangular structures, the other two positioning rivets except the end parts of the mounting convex blocks are arranged between the support frame and the wall body, and the side surfaces of the mounting convex blocks are fixedly connected with guide rollers matched with the lifter.

Preferably, the lifter comprises a power motor and a hoisting cable, wherein the power motor is fixedly connected with the upper node, and the hoisting cable is fixedly connected between the power motor and the construction platform.

Preferably, the hoisting cable is fixedly connected to one end, far away from the wall, of the upper surface of the construction platform, and the end part of the hoisting cable is fixedly connected with the power motor output shaft.

Preferably, the side surface of one end of the wall-in nail penetrating through the reinforcing plate is in sliding sleeve connection with a tight wedge block, the inclined surface of the tight wedge block is matched with the inclined surface in contact with the tight wedge block, the tight wedge block is of an elastic deformation structure, and the side surface of the wall-in nail is in threaded connection with a loose prevention sleeve.

Preferably, the anti-loosening sleeve comprises a nut body, an anti-loosening sleeve body and a buckle, wherein threads of the nut body are arranged on the side face of the wall-in nail, the anti-loosening sleeve body is connected with the side face of the nut body in a sliding clamping mode, positioning teeth are arranged on the inner side of the anti-loosening sleeve body, and the buckle is hinged between the nut body and the anti-loosening sleeve body.

The invention discloses a truss for building construction, which has the following beneficial effects:

1. this truss for construction, design a construction platform that constitutes by triangular truss, combine top hoist and mount subassembly realization through triangular truss to with most gravity effect in the wall, and do not need complex structure, do not need a large amount of materials to construct scaffold frame bearing structure from the building bottom, can realize freely going up and down etc. through the lift, avoid traditional truss scaffold to be unsuitable for the problem of present high-rise building construction, not only shift the wall body with most masses, reduce the atress of top hoist and mount subassembly, can also simplify traditional truss construction platform's structure, reduce structural quality, and can go on lifting adjustment according to the use needs, facilitate the use.

2. This truss for construction, construction platform unload the power connection between the power frame and the wall body through the triangle, utilize the characteristic of triangle truss triangle structure, construction platform upper surface receives top hoist and mount subassembly and pulls for construction platform most weight is through the hypotenuse of triangle power frame of unloading on the wall body, thereby also can reduce the atress of top hoist and mount subassembly, is the basis that this equipment used steadily.

3. This truss for construction is provided with gyro wheel and slide rail between the side of triangle unloading force frame and the wall body, avoids equipment lift in-process and the sliding friction between the wall body to cause the damage to the wall body, is provided with the mounting between triangle unloading force frame and the wall body, and it is fixed to triangle unloading force frame and wall body through the mounting, avoids construction platform to take place to rock in the use and influences the construction.

4. This truss for construction, the side screw thread of income wall nail is provided with supports tight nut, runs through behind the wall body one end at income wall nail and sets up the jack catch, through the fastening of income wall nail, guarantees that the jack catch is hugged closely with the wall, avoids because the too big problem that causes the jack catch easily to drop in the use between jack catch and the wall body, combines the stopper that sets up in the jack catch side, guarantees the stability that equipment used.

5. This truss for construction, go up the node and rivet fixedly with the wall body through the location, the rethread installs the lug and carries out the fixed of lift, be provided with the support frame between installation lug tip and wall body to also be provided with the location between support frame and the wall body and rivet, the stability of installing the lug is strengthened through triangle-shaped's principle that has stability, and carries out the direction of hoist cable through the guide roll, avoids hoist cable and equipment between the friction take place to damage.

6. This truss for construction still is provided with the locking external member that prevents to support tight nut and take place not hard up at the income wall nail tip that is used for fixed triangular truss, fasten the back to going into the wall nail, set up the nut body at the tip screw thread of going into the wall nail, reach the appropriate distance between nut body and support tight nut, buckle makes locking cutting ferrule slide forward along the nut body, and then support tight nut through the positioning tooth that its inside set up and tightly spacing, form simultaneously to the two-way spacing of supporting tight nut and nut main part, and the nut body sets up to in reverse with the internal thread of supporting tight nut, and then reach the effect of supporting tight nut spacing.

Drawings

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

FIG. 1 is a schematic diagram of the overall structure of the present invention;

FIG. 2 is a schematic view of the structure of the triangular truss and top hoist assembly of the present invention;

FIG. 3 is a schematic view of a fastener according to the present invention;

FIG. 4 is an enlarged schematic view of the structure of FIG. 2B according to the present invention;

FIG. 5 is an enlarged schematic view of the structure of FIG. 2 at C according to the present invention

Fig. 6 is a cross-sectional view of the overall structure of the present invention.

Fig. 7 is a schematic structural view of the anti-loosening sleeve according to the present invention.

Fig. 8 is a side view of the construction of the anti-loosening kit of the present invention.

In the figure: 1. a construction platform; 2. triangular truss; 201. a triangular force unloading frame; 202. a fixing member; 2021. a reinforcing plate; 2022. wall nailing; 2023. a claw; 3. a top hoist assembly; 301. an upper node; 3011. positioning and riveting; 3012. mounting the protruding blocks; 3013. a support frame; 302. a lifter; 3021. a power motor; 3022. hoisting the cable; 4. a cushion pad; 5. a lower node; 6. rubber cushion; 7. a gasket; 8. tightly supporting the nut; 9. a mounting groove; 10. a limiting block; 11. a roller; 12. a slide rail; 13. a guide roller; 14. abutting the wedge block; 15. an anti-loosening sleeve; 1501. a nut body; 1502. locking clamping sleeve; 1503. a buckle; 16. positioning teeth.

Detailed Description

For the purpose of making the objects, technical solutions and advantages of the embodiments of the present invention more clear, the technical solutions in the embodiments of the present invention are clearly and completely described, and it is obvious that the described embodiments are some embodiments of the present invention, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the invention without making any inventive effort, are intended to be within the scope of the invention.

The embodiment of the invention discloses a truss for building construction.

According to the drawing 1 shows, including construction platform 1, triangular truss 2 and top hoist and mount subassembly 3, the lower surface fixedly connected with triangular truss 2 of construction platform 1, fixedly connected with top hoist and mount subassembly 3 between the upper surface of construction platform 1 and the wall body, one side that construction platform 1 is close to the wall body fixedly connected with blotter 4.

One right-angle side of the triangular truss 2 is fixedly connected with the lower surface of the construction platform 1, and the other right-angle side is opposite to the wall body, so that most of the mass of the construction platform 1 is acted on the side surface of the wall body through the inclined side of the triangular truss 2 under the lifting action of the top lifting assembly 3, the burden of the top lifting assembly 3 is reduced, lifting and lifting of the construction platform 1 through the top lifting assembly 3 are realized, and the construction platform 1 is close to one side of the wall body, which is provided with a buffer cushion 4 to avoid friction damage to the wall body structure in the lifting process.

According to the figure 2, the lower surface of the construction platform 1 is fixedly connected with a triangular truss 2, a top hoisting assembly 3 is fixedly arranged above the construction platform 1, the triangular truss 2 comprises a triangular force unloading frame 201 and a fixing piece 202, the top hoisting assembly 3 comprises an upper node 301 and a lifter 302, and the top hoisting assembly 3 is fixedly connected with the construction platform 1.

The triangle that sets up in construction platform 1 below unloads the power frame 201 cooperation top hoist and mount subassembly 3, realizes transferring construction platform 1 most gravity to the wall body, and the triangle is unloaded power frame 201 and is fixed through mounting 202 and wall at working height, can keep the stability of construction platform 1 during operation to the inboard of triangle is unloaded power frame 201 is provided with the strengthening rib structure.

The single triangular truss 2 can only transfer partial pressure of the construction platform 1 to the wall surface, and is required to be matched with the action of the top hoisting assembly 3, an upper node 301 is fixedly arranged at a high point of a high-rise construction building, the upper node 301 is used for installing a lifter 302, and the lifter 302 is used for connecting the upper node 301 with the construction platform 1.

The lifter 302 also uses the triangular truss 2 to perform component force when the construction platform 1 is hoisted in the air under the gravity action of the burden part construction platform 1, so that the construction platform 1 is prevented from acting in the upper and lower directions.

The upper surface of the construction platform 1 is provided with a lower node 5 in a penetrating manner, the triangular force unloading frame 201 and the lifter 302 are fixedly connected with the construction platform 1 through the lower node 5, the lower node 5 for installing the lifter 302 is arranged on the upper surface of the construction platform 1, and the stability of connection between the construction platform 1 and the lifter 302 is enhanced.

According to fig. 3-4, the fixing member 202 includes a reinforcing plate 2021, a wall-penetrating nail 2022 and a claw 2023, the reinforcing plate 2021 is fixedly connected to one side of the triangular unloading frame 201, which is close to the wall, the wall-penetrating nail 2022 is penetrated through the side surface of the reinforcing plate 2021, and the claw 2023 is arranged at one end of the wall penetrating the wall, which is penetrated by the wall-penetrating nail 2022.

The reinforcing plate 2021 is fixedly connected with the triangular force-unloading frame 201, the wall-in nails 2022 are installed through the reinforcing plate 2021, the triangular force-unloading frame 201 and the wall body are fixedly installed through the wall-in nails 2022, after the wall-in nails 2022 are installed on the wall body, the clamping claws 2023 are installed on the rear side of the wall body, and the connection stability of the wall-in nails 2022 and the wall body is enhanced.

The side of the wall-in nail 2022 is sheathed with a gasket 7 in a sliding manner, the side of the wall-in nail 2022 is connected with a tightening nut 8 in a threaded manner, the side of the wall-in nail 2022 is provided with a mounting groove 9 matched with the claw 2023, and the side of the claw 2023 is fixedly connected with a limiting block 10.

The setting supports and tightly tightens up nut 8 and is used for installing behind the jack catch 2023 to go into wall nail 2022 tightly, avoids jack catch 2023 installation unstable and landing, and jack catch 2023 installs through mounting groove 9 and into wall nail 2022 to be provided with stopper 10 cooperation and install in jack catch 2023 side, set up gasket 7 between adjacent movable structure, not only can increase the connection effect between the movable structure, can also form the smooth structure that makes things convenient for spacing between the uneven face.

According to fig. 5-6, the right angle surface of the triangular force-unloading frame 201 is parallel to the wall, and a rubber pad 6 is fixedly arranged on one side of the triangular force-unloading frame 201 close to the wall, and the other right angle edge of the triangular force-unloading frame 201 is fixedly connected with the lower surface of the construction platform 1, and the pressure on the construction platform 1 acts on the side surface of the wall through the triangular force-unloading frame 201.

The triangle unloads power frame 201 and is close to wall body one side and sets up cushion 6, avoids going up and down the in-process and bump with the wall body and cause the damage, and the triangle unloads power frame 201 is close to the fixed gyro wheel 11 that is provided with in one side of wall body, and wall body side fixedly connected with and gyro wheel 11 looks adaptation's slide rail 12, the gyro wheel 11 and the slide rail 12 structure of setting between triangle power frame 201 and wall body change the contact relation between triangle power frame 201 and the wall body, conveniently carry out construction platform 1's lift adjustment.

The upper node 301 is a fixed structure fixedly arranged at a high point of the wall body, the upper node 301 comprises a positioning rivet 3011, a mounting lug 3012 and a supporting frame 3013, the positioning rivet 3011 penetrates through the wall body, the side face of the positioning rivet 3011 is fixedly connected with the mounting lug 3012, and the supporting frame 3013 is fixedly arranged between one side, far away from the wall body, of the mounting lug 3012 and the wall body.

The positioning rivets 3011 are three groups of three in a triangular structure, the other two positioning rivets 3011 except the end part of the mounting lug 3012 are arranged between the supporting frame 3013 and the wall body, and the side surface of the mounting lug 3012 is fixedly connected with a guide roller 13 matched with the lifter 302.

The location is riveted 3011 and is run through the wall body setting, fix between with the wall body, set up installation lug 3012 at location is riveted 3011 tip, carry out the installation of lift 302 through installation lug 3012 to set up support frame 3013 at the tip of installation lug 3012, support frame 3013 connects between wall body and installation lug 3012, supports the tip of installation lug 3012, avoids installation lug 3012 unilateral atress to lead to the problem of damage easily.

The guide roller 13 is arranged on the side face of the mounting lug 3012, and the guide roller 13 is used for guiding the connection between the lifter 302 and the construction platform 1, so that the lifter 302 is prevented from being damaged due to serious friction with other structures in the lifting process of the construction platform 1 controlled by the lifter 302.

The lifter 302 includes a power motor 3021 and a hoisting cable 3022, the power motor 3021 is fixedly connected with the upper node 301, and the hoisting cable 3022 is fixedly connected between the power motor 3021 and the construction platform 1.

Hoist cable 3022 fixed connection keeps away from the one end of wall body at construction platform 1 upper surface, hoist cable 3022's tip and power motor 3021 output shaft fixed connection, and one side that construction platform 1 kept away from the wall body is connected to hoist cable 3022, utilizes the characteristic of triangle structure, carries out the split to the gravity that construction platform 1 received, reinforcing equipment's stability in use.

According to fig. 4, 7 and 8, the wall stud 2022 is slidably sleeved on the side surface penetrating through one end of the reinforcement plate 2021, the inclined surface of the abutting wedge 14 is adapted to the inclined surface contacting with the abutting wedge 14, the abutting wedge 14 is of an elastic deformation structure, and the side surface of the wall stud 2022 is in threaded connection with a locking sleeve 15.

The anti-loosening sleeve 15 comprises a nut main body 1501, an anti-loosening sleeve 1502 and a buckle 1503, wherein the nut main body 1501 is arranged on the side face of a wall-in nail 2022 in a threaded manner, the anti-loosening sleeve 1502 is slidably clamped on the side face of the nut main body 1501, positioning teeth 16 are arranged on the inner side of the anti-loosening sleeve 1502, and the buckle 1503 is hinged between the nut main body 1501 and the anti-loosening sleeve 1502

Example 1: the utility model provides a truss for construction, includes construction platform 1, triangular truss 2 and top hoist and mount subassembly 3, and the lower fixed surface of construction platform 1 is connected with triangular truss 2, and the top of construction platform 1 is fixed to be provided with top hoist and mount subassembly 3, and triangular truss 2 includes triangle unloading frame 201 and mounting 202.

One side of the construction platform 1, which is close to a wall body, is fixedly connected with a buffer cushion 4, the upper surface of the construction platform 1 is provided with a lower node 5 in a penetrating manner, and the triangular force unloading frame 201 and the lifter 302 are fixedly connected with the construction platform 1 through the lower node 5.

The right angle face of the triangular force unloading frame 201 is arranged in parallel with the wall body, a rubber mat 6 is fixedly arranged on one side, close to the wall body, of the triangular force unloading frame 201, the other right angle side of the triangular force unloading frame 201 is fixedly connected with the lower surface of the construction platform 1, and pressure on the construction platform 1 acts on the side face of the wall body through the triangular force unloading frame 201.

The fixing piece 202 comprises a reinforcing plate 2021, wall-in nails 2022 and clamping claws 2023, wherein the reinforcing plate 2021 is fixedly connected to one side, close to a wall, of the triangular force unloading frame 201, the wall-in nails 2022 are arranged on the side face of the reinforcing plate 2021 in a penetrating mode, and the clamping claws 2023 are arranged at one end, penetrating through the wall, of the wall-in nails 2022.

The side of the wall-in nail 2022 is sheathed with a gasket 7 in a sliding manner, the side of the wall-in nail 2022 is connected with a tightening nut 8 in a threaded manner, the side of the wall-in nail 2022 is provided with a mounting groove 9 matched with the claw 2023, and the side of the claw 2023 is fixedly connected with a limiting block 10.

The side of the triangular force unloading frame 201, which is close to the wall body, is fixedly provided with a roller 11, and the side surface of the wall body is fixedly connected with a sliding rail 12 which is matched with the roller 11.

The triangular force unloading frame 201 with a right triangle shape can decompose the force received by one right angle side into acting force along the inclined side through the inclined side, and the gravity of the construction platform 1 can be decomposed by matching with the top hoisting component 3, so that the construction platform 1 is separated from a lengthy bottom support scaffold structure and is suspended.

The construction platform 1 is provided with the blotter 4 near wall body one side, still sets up the cushion 6 in the triangle is unloaded the power frame 201 side, can avoid going up and down to take place between equipment and the wall body in the regulation and collide damage structure and wall body, sets up the lower node 5 at construction platform 1 upper surface, installs through lower node 5 and top hoist and mount subassembly 3 and is connected, avoids the problem that the structure stress point damages more easily.

The triangular force-unloading frame 201 is fixed with the wall body through the fixing piece 202, the wall-in nails 2022 are reinforced through the clamping claws 2023, shaking is avoided in the using process of the equipment, and after the clamping claws 2023 are installed through the installation grooves 9, the triangular force-unloading frame 201 and the wall body are fastened through the abutting nuts 8.

The roller 11 and the sliding rail 12 are arranged between the triangular force-unloading frame 201 and the wall body, and the wall body and the equipment structure are prevented from being damaged through rolling contact.

Example 2: the utility model provides a truss for construction, includes construction platform 1, triangular truss 2 and top hoist and mount subassembly 3, and the lower fixed surface of construction platform 1 is connected with triangular truss 2, and the top of construction platform 1 is fixed to be provided with top hoist and mount subassembly 3, and top hoist and mount subassembly 3 includes node 301 and lift 302, top hoist and mount subassembly 3 and construction platform 1 fixed connection.

The upper node 301 is a fixed structure fixedly arranged at a high point of the wall body, the upper node 301 comprises a positioning rivet 3011, a mounting lug 3012 and a supporting frame 3013, the positioning rivet 3011 penetrates through the wall body, the side face of the positioning rivet 3011 is fixedly connected with the mounting lug 3012, and the supporting frame 3013 is fixedly arranged between one side, far away from the wall body, of the mounting lug 3012 and the wall body.

The positioning rivets 3011 are three groups of three in a triangular structure, the other two positioning rivets 3011 except the end part of the mounting lug 3012 are arranged between the supporting frame 3013 and the wall body, and the side surface of the mounting lug 3012 is fixedly connected with a guide roller 13 matched with the lifter 302.

The lifter 302 includes a power motor 3021 and a hoisting cable 3022, the power motor 3021 is fixedly connected with the upper node 301, and the hoisting cable 3022 is fixedly connected between the power motor 3021 and the construction platform 1.

Hoist cable 3022 fixed connection is at the one end of construction platform 1 upper surface keeping away from the wall body, hoist cable 3022's tip and power motor 3021 output shaft fixed connection.

The positioning rivet 3011 has a structure similar to the wall-in nail 2022, ensures the stability of installation between the positioning rivet 3011 and a wall, and is used for installing the lifter 302 through the installation lug 3012, and the support frame 3013 is arranged for supporting the end part of the installation lug 3012 so as to ensure the stability of the upper node 301.

The end part of the support frame 3013 far away from the installation lug 3012 is fixed with the wall body through the positioning rivet 3011, the stability of the triangular structure is strong, the stability of the upper node 301 is guaranteed, the guide roller 13 matched with the lifter 302 is arranged on the side face of the installation lug 3012, the hoisting cable 3022 connected with the power motor 3021 and the construction platform 1 is guided, and the equipment structure is prevented from being damaged by friction between the hoisting cable 3022 and other components of the equipment in the lifting adjustment process.

The power motor 3021 operates, hoist cable 3022's rolling is carried out through the output shaft, hoist cable 3022 guarantees orderly receive and release behind guide roll 13, thereby realize the lift adjustment to construction platform 1, hoist cable 3022 is kept away from wall body one side at construction platform 1 in addition with the hookup location of construction platform 1, thereby form triangle-shaped structure between hoist cable 3022 and the construction platform 1, apply oblique ascending pulling force to construction platform 1 through hoist cable 3022, decompose the vertical decurrent gravity that construction platform 1 received, the cooperation triangle truss 2, realize that the gravity that construction platform 1 received is decomposed to the wall along triangle unloading frame 201 hypotenuse, play the effect of balanced construction platform 1 gravity.

The lifting and using of the construction platform 1 are carried out through the triangular truss 2 and the top lifting assembly 3, so that the weight bearing effect of the construction platform 1 can be improved through decomposing the gravity of the construction platform 1, the problem of the construction loss time of a traditional complex scaffold structure can be solved, and the problems that a large amount of materials are needed for the structure of the support frame 3013 constructed on the ground are solved.

It is noted that relational terms such as first and second, and the like are used solely to distinguish one entity or action from another entity or action without necessarily requiring or implying any actual such relationship or order between such entities or actions. Moreover, the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, article, or apparatus. Without further limitation, an element defined by the phrase "comprising one … …" does not exclude the presence of other like elements in a process, method, article, or apparatus that comprises the element.

The foregoing has shown and described the basic principles and main features of the present invention and the advantages of the present invention. It will be understood by those skilled in the art that the present invention is not limited to the embodiments described above, and that the above embodiments and descriptions are merely illustrative of the principles of the present invention, and various changes and modifications may be made without departing from the spirit and scope of the invention, which is defined in the appended claims. The scope of the invention is defined by the appended claims and equivalents thereof.

Claims (10)

1. Truss for construction, including construction platform (1), triangular truss (2) and top hoist and mount subassembly (3), its characterized in that: the lower surface fixedly connected with triangular truss (2) of construction platform (1), the top of construction platform (1) is fixed and is provided with top hoist and mount subassembly (3), triangular truss (2) are including triangle unloading frame (201) and mounting (202), top hoist and mount subassembly (3) are including node (301) and lift (302) on, top hoist and mount subassembly (3) and construction platform (1) fixed connection.

2. A truss for construction according to claim 1, wherein: one side of construction platform (1) near the wall body fixedly connected with blotter (4), the upper surface of construction platform (1) runs through and is provided with node (5) down, triangle unloads power frame (201) and lift (302) all through node (5) and construction platform (1) fixed connection down.

3. A truss for construction according to claim 1, wherein: the right angle face of triangle unload power frame (201) and wall body parallel arrangement, just the triangle is unloaded power frame (201) and is close to the fixed cushion (6) that is provided with in one side of wall body, another right angle limit of triangle unload power frame (201) is connected with the lower surface fixed of construction platform (1), pressure on construction platform (1) is unloaded power frame (201) effect in the wall body side through the triangle.

4. A truss for construction according to claim 1, wherein: the fixing piece (202) comprises a reinforcing plate (2021), wall-in nails (2022) and clamping claws (2023), wherein the reinforcing plate (2021) is fixedly connected to one side, close to a wall, of the triangular force unloading frame (201), the wall-in nails (2022) are arranged on the side face of the reinforcing plate (2021) in a penetrating mode, and the clamping claws (2023) are arranged at one end, penetrating through the wall, of the wall-in nails (2022).

5. The truss for building construction according to claim 4, wherein: the side of going into wall nail (2022) has slided and has cup jointed gasket (7), just the side threaded connection of going into wall nail (2022) has to support tight nut (8), install mounting groove (9) with jack catch (2023) looks adaptation are seted up to the side of going into wall nail (2022), just the side fixedly connected with stopper (10) of jack catch (2023).

6. A truss for construction according to claim 1, wherein: the triangular force unloading frame is characterized in that a roller (11) is fixedly arranged on one side, close to a wall, of the triangular force unloading frame (201), a sliding rail (12) matched with the roller (11) is fixedly connected to the side face of the wall, the upper node (301) is a fixed structure fixedly arranged at a high point of the wall, the upper node (301) comprises a positioning rivet (3011), a mounting lug (3012) and a supporting frame (3013), the positioning rivet (3011) penetrates through the wall, the mounting lug (3012) is fixedly connected to the side face of the positioning rivet (3011), and the supporting frame (3013) is fixedly arranged between one side, far away from the wall, of the mounting lug (3012) and the wall.

7. The truss for building construction according to claim 6, wherein: the positioning rivets (3011) are three groups of three triangular structures, the other two positioning rivets (3011) except for the end parts of the mounting lugs (3012) are arranged between the supporting frame (3013) and the wall body, and the side surfaces of the mounting lugs (3012) are fixedly connected with guide rollers (13) matched with the lifter (302).

8. A truss for construction according to claim 1, wherein: the lifter (302) comprises a power motor (3021) and a hoisting cable (3022), the power motor (3021) is fixedly connected with the upper node (301), a hoisting cable (3022) is fixedly connected between the power motor (3021) and the construction platform (1), the hoisting cable (3022) is fixedly connected with one end, far away from a wall, of the upper surface of the construction platform (1), and the end portion of the hoisting cable (3022) is fixedly connected with an output shaft of the power motor (3021).

9. The truss for building construction according to claim 4, wherein: the wall-in nail (2022) penetrates through the side face of one end of the reinforcing plate (2021) and is sleeved with the abutting wedge block (14) in a sliding mode, the inclined face of the abutting wedge block (14) is matched with the inclined face of the abutting wedge block in a contact mode, the abutting wedge block (14) is of an elastic deformation structure, and the side face of the wall-in nail (2022) is connected with the anti-loosening sleeve piece (15) in a threaded mode.

10. A truss for construction according to claim 9, wherein: the anti-loosening sleeve (15) comprises a nut main body (1501), an anti-loosening sleeve (1502) and a buckle (1503), wherein threads of the nut main body (1501) are arranged on the side face of a wall-in nail (2022), the anti-loosening sleeve (1502) is connected with the side face of the nut main body (1501) in a sliding clamping mode, positioning teeth (16) are arranged on the inner side of the anti-loosening sleeve (1502), and the buckle (1503) is hinged between the nut main body (1501) and the anti-loosening sleeve (1502).