CN114635558A - Socket type disc buckle type steel pipe support frame joist structure - Google Patents

Abstract

The utility model relates to a steel pipe support frame joist structure is buckled to socket joint type dish relates to the field of support frame, and it includes: a plurality of supporting mechanism, supporting mechanism includes: a plurality of upright rods; the disc buckles are sleeved on the vertical rods and fixedly connected with the vertical rods, and the disc buckles are arranged at intervals along the length direction of the vertical rods; the hanging frame component is hung on one disc buckle and is provided with a supporting rod which can be adjusted along the length direction of the vertical rod; and the supporting tubes are sequentially erected on the upper sides of the supporting rods of the rack assembly at the same height. The construction method has the effects of simplifying construction, reducing use cost and improving construction efficiency.

Description

Socket type disc buckle type steel pipe support frame joist structure

Technical Field

The utility model relates to a field of support frame especially relates to a formula steel pipe support frame joist structure is buckled to socket joint type dish.

Background

The double-channel steel joist is a supporting beam in the supporting frame, is an important component for reducing the materials used by the supporting frame and ensuring the safety and the stability of the supporting frame, and simultaneously bears and transmits vertical load through the upright rod disc, and the performance of the double-channel steel joist directly influences the probability of safety accidents of the supporting frame.

In the related art, for example, chinese patent publication No. CN113982253A discloses a socket-and-spigot type disc-buckle type double-groove steel joist system for steel tube supporting frames, which includes: the rigid components are used for supporting engineering loads and distributed along the length direction of the engineering loads; each of the rigid components includes: the auxiliary keel is arranged on the main keel, the auxiliary keel is arranged below the engineering load and is used for supporting the engineering load, and the supporting and adjusting assembly is used for supporting and adjusting the height of the main keel; each of the support adjusting assemblies includes: one end of the frame body is connected with the engineering load or the main keel; the two ends of the joist are respectively connected with the two frame bodies; one end of each first vertical rod is connected with the joist; one end of each first adjustable bracket can extend into the other end of the corresponding first upright rod in a telescopic manner, and the other end of each first adjustable bracket is connected with the main keel; the first cross rod is arranged between the corresponding two first vertical rods, and two ends of the first cross rod are connected with the two first vertical rods respectively.

Aiming at the related technologies, the inventor thinks that the double-channel steel joist is required to be specially made, the construction is troublesome, the construction efficiency is low, and the improvement space is provided.

Disclosure of Invention

In order to simplify the construction, improve the efficiency of construction, this application provides a socket joint type dish knot formula steel pipe support frame joist structure.

The application provides a pair of formula steel pipe support frame joist structure is buckled to socket joint type dish adopts following technical scheme:

the utility model provides a socket joint type dish knot formula steel pipe support frame joist structure, includes a plurality of supporting mechanism, supporting mechanism includes:

a plurality of upright rods;

the disc buckles are sleeved on the vertical rods and fixedly connected with the vertical rods, and the disc buckles are arranged at intervals along the length direction of the vertical rods;

the hanging frame component is hung on one disc buckle and is provided with a supporting rod which can be adjusted along the length direction of the vertical rod; and

and the supporting pipes are sequentially erected on the upper sides of the supporting rods of the rack components at the same height.

By adopting the technical scheme, special production is not needed, materials are conveniently obtained and manufactured, construction is simplified, use cost is reduced, and construction efficiency is improved.

Optionally, two the hanger subassembly corresponds to one the dish is buckled, this two the hanger subassembly hangs in the both sides that the dish was buckled, the hanger subassembly includes:

the suspension rod is suspended on the disc buckle; and

the connecting rods are arranged at two ends of the suspension rod and extend downwards;

the quantity of bracing piece is a plurality of, and is a plurality of the bracing piece with the connecting rod is connected and is followed the length direction of riser is the interval setting.

By adopting the technical scheme, the supporting pipe is erected on the supporting rods with different heights to be subjected to height adjustment so as to support engineering loads with different heights.

Optionally, the hanger comprises a hanger fixing part, the hanger fixing part is provided with two downwardly-opened coupling grooves, and when the hanger fixing part is lapped on the hanging rods of the two hanger assemblies, the hanging rods of the two hanger assemblies are inserted into the two coupling grooves.

By adopting the technical scheme, the two adjacent hanging rods are respectively inserted into the two connecting grooves of the hanging rack fixing piece, so that the two adjacent hanging rods are clamped on the vertical rod and are not easy to move relative to the plate buckle.

Optionally, still include the piece of making level, the piece of making level has one and supplies the through hole that the pole setting wore through, the piece of making level butt in the dish is buckled.

Through adopting above-mentioned technical scheme for the suspension rod keeps the level.

Optionally, the support device further comprises a support assembly for supporting the support rod, wherein the support assembly comprises:

the studs are fixed on the disc buckles on the lower sides of the supporting rods and are uniformly arranged along the circumferential direction of the disc buckles;

the supporting plate is sleeved on the vertical rod and provided with a through hole for the stud to penetrate through, and the supporting plate is abutted against the lower side of the supporting rod; and

the threaded sleeve is sleeved on the stud and is in threaded connection with the stud, and the threaded sleeve abuts against the lower side of the supporting plate.

Through adopting above-mentioned technical scheme, the hanger subassembly hangs after the dish that corresponds is buckled, detains the dish through the bracing piece downside and supports the bracing piece once more for the hanger subassembly is more firm stable.

Optionally, the support tube support device further comprises a fixing assembly for fixing a plurality of support tubes, and the fixing assembly comprises:

the clamping piece is provided with a clamping groove which is opened towards one side, and the clamping groove is used for the support tube to penetrate through; and

and the fixing piece is arranged at the opening of the clamping piece in a penetrating manner to drive the two opposite side walls of the clamping groove to be close to each other.

Through adopting above-mentioned technical scheme, press from both sides tightly fixed to a plurality of stay tubes for a plurality of stay tubes are difficult for taking place relative slip, have improved the stability of stay tube.

Optionally, the hanger assembly comprises:

the suspension plate is suspended on the plate buckle;

the threaded column penetrates through the suspension plate and slides relative to the suspension plate along the axial direction of the threaded column, and the support rod is fixedly connected with the threaded column; and

the height adjusting piece is sleeved on the threaded column and is in threaded connection with the threaded column, and the height adjusting piece is abutted to the upper side of the suspension plate.

Through adopting above-mentioned technical scheme, rotate altitude mixture control spare and order about threaded post and bracing piece and slide along vertical direction to adjust the height of bracing piece, and then adjust the bearing height of stay tube.

Optionally, the hanger assembly further comprises a thrust ball bearing sleeved on the threaded column, and two ends of the thrust ball bearing are respectively abutted to the height adjusting piece and the suspension plate.

By adopting the technical scheme, the resistance when the height adjusting piece is rotated is reduced, and the rotation adjusting efficiency of the height adjusting piece is improved.

Optionally, the hanger assembly comprises:

the suspension plate is suspended on the disc buckle;

the sliding rod penetrates through the hanging plate and slides along the axial direction of the sliding rod relative to the hanging plate, the supporting rod is fixedly connected with the sliding rod, a plurality of locking grooves are formed in the sliding rod, and the locking grooves are arranged at intervals along the length direction of the sliding rod; and

and a locking member which moves relative to the hanging plate in a direction perpendicular to the length direction of the sliding rod and which is insertable into the locking groove.

Through adopting above-mentioned technical scheme, the locking piece inserts in the locking groove of co-altitude, has realized the altitude mixture control of bracing piece, and then has realized the regulation of the support height of stay tube.

Optionally, still including slide connect in hold the subassembly tightly on the bracing piece, hold the subassembly tightly and include:

the sliding sleeve is sleeved on the supporting rod and is connected with the supporting rod in a sliding manner;

the fixed clamping jaw is fixed on the upper side of the sliding sleeve;

the movable clamping jaw is hinged to the fixed clamping jaw and matched with the fixed clamping jaw to clamp the supporting tube;

the upper end of the connecting rod is hinged with the movable clamping jaw, and a movable groove for the connecting rod to be placed and move is formed in the sliding sleeve; and

the upper end of the locking rod is hinged with the lower end of the connecting rod, a sliding groove communicated with the movable groove is formed in the sliding sleeve, the sliding groove penetrates through the sliding sleeve along the radial direction of the sliding sleeve, and the locking rod slides in the sliding groove;

the upside of bracing piece is equipped with the edge the axially extended guiding groove of bracing piece, the tank bottom of guiding groove is equipped with a plurality of edges the dead man groove that the axial interval of bracing piece set up, when the activity clamping jaw was opened, the lower extreme of locking lever inserts in the guiding groove, when the activity clamping jaw was closed, the lower extreme of locking lever inserted in the dead man groove

Through adopting above-mentioned technical scheme for the stay tube can slide on the bracing piece, in order to adjust the position of stay tube on the bracing piece, can also lock the stay tube on the bracing piece after position control accomplishes, the stability of stay tube when having improved regulation holding height.

In summary, the present application includes at least one of the following beneficial technical effects:

1. specially-made materials are needed, the materials are convenient to obtain and manufacture, the construction is simplified, the use cost is reduced, and the construction efficiency is improved;

2. the supporting tube can slide on the supporting rod to conveniently adjust the position of the supporting tube on the supporting rod, and the supporting tube can be locked on the supporting rod after the position adjustment is finished, so that the stability of the supporting tube during the adjustment of the supporting height is improved.

Drawings

Fig. 1 is a schematic construction structure diagram of a joist structure of a socket type disc buckle type steel pipe support frame in embodiment 1 of the present application.

Fig. 2 is a schematic structural diagram of a joist structure of a socket type disc buckle type steel pipe support frame in embodiment 1 of the present application.

Fig. 3 is an exploded view of the upright and hanger assembly, leveling member, and hanger fixture of example 1 of the present application.

Fig. 4 is a schematic structural diagram of a joist structure of a socket type disc buckle type steel tube support frame in embodiment 2 of the present application.

Fig. 5 is an exploded view of the suspension plate and vertical rod of example 2 of the present application.

Fig. 6 is a plan view of the suspension plate and the threaded post and the height adjusting member according to embodiment 2 of the present application.

Fig. 7 is a view from a-a in fig. 6.

Fig. 8 is an enlarged view of a portion B in fig. 7.

Fig. 9 is a schematic structural view of one suspension plate corresponding to two threaded columns according to embodiment 2 of the present application.

Fig. 10 is a schematic structural diagram of a joist structure of a socket type disc buckle type steel pipe support frame in embodiment 3 of the present application.

Fig. 11 is an enlarged view of a portion C in fig. 10.

Description of the reference numerals: 10. erecting a rod; 11. an adjusting sleeve; 12. a top rod; 13. a top plate; 20. coiling and buckling; 21. a through hole; 30. a hanger assembly; 31. a support bar; 311. a guide groove; 312. a lock bar slot; 32. a suspension rod; 33. a connecting rod; 34. a suspension plate; 341. a through hole; 342. a support plate; 35. a threaded post; 351. a thrust ball bearing; 36. a height adjustment member; 37. a slide bar; 371. a locking groove; 38. a locking member; 381. a latch bolt; 382. a guide post; 383. an elastic member; 40. supporting a tube; 50. a hanger mount; 51. a coupling groove; 60. leveling parts; 61. perforating holes; 70. a support assembly; 71. a stud; 72. a support disc; 721. perforating; 73. a threaded sleeve; 80. a fixing component; 81. a clamping member; 811. a clamping groove; 82. a fixing member; 90. a clasping component; 91. a sliding sleeve; 911. a movable groove; 912. a chute; 92. fixing the clamping jaw; 93. a movable clamping jaw; 94. a connecting rod; 95. a locking lever; 100. engineering load; 101. a main frame; 102. a sub-frame.

Detailed Description

The present application is described in further detail below with reference to figures 1-9.

The embodiment of the application discloses socket joint type dish knot formula steel pipe support frame joist structure.

Example 1

Referring to fig. 1, the spigot-and-socket type coil buckle type steel pipe support bracket structure comprises a plurality of support mechanisms, the plurality of support mechanisms are used for supporting a main frame 101 and an auxiliary frame 102 of an engineering load 100, the auxiliary frame 102 is located on the lower side of the main frame 101, the main frame 101 and the auxiliary frame 102 are arranged in a T shape, the direction perpendicular to the plane of the drawing 1 is defined as the length direction of the engineering load 100, and the plurality of support mechanisms are arranged at intervals along the length direction of the engineering load 100. The supporting mechanism comprises an upright rod 10, a coil buckle 20, a hanger assembly 30 and a plurality of supporting tubes 40.

The number of the upright stanchions 10 is two, two upright stanchions 10 are fixed on a foundation surface (which may be the ground), the upright stanchions 10 extend upwards, and the two upright stanchions 10 are respectively located at two sides of the subframe 102. The upper end of pole setting 10 rotates and is connected with adjusting collar 11, and adjusting collar 11 rotates with pole setting 10 along the circumference of pole setting 10 to be connected, and adjusting collar 11 is concentric setting with pole setting 10, wears to be equipped with ejector pin 12 on the adjusting collar 11, ejector pin 12 and the 11 threaded connection of adjusting collar, and the upper end of ejector pin 12 is fixed with roof 13. After the upright rod 10 is fixed, the adjusting sleeve 11 is rotated to drive the ejector rod 12 to ascend, and the top plate 13 is driven to support the main frame 101.

Referring to fig. 1 and 2, the plate buckle 20 is disposed in a disc shape, the plate buckle 20 is sleeved on the vertical rod 10 and is fixedly connected to the vertical rod 10, the plate buckle 20 and the vertical rod 10 are concentrically disposed, a plurality of plate buckles 20 are disposed at intervals along the axial direction of the vertical rod 10, and the plate buckles 20 are disposed horizontally. The disc buckle 20 is provided with through holes 21, the through holes 21 penetrate through the disc buckle 20 along the axial direction of the disc buckle 20, and the number of the through holes 21 is four and is uniformly arranged along the circumferential direction of the disc buckle 20.

The two hanger components 30 correspond to one dish buckle 20, the two hanger components 30 are hung on two sides of the dish buckle 20, and the upright rod 10 is positioned between the two hanger components 30. Specifically, the hanger assembly 30 includes a hanger bar 32, a connecting bar 33, and a support bar 31. The hanging bar 32 abuts on the upper side of a disc buckle 20, the number of the connecting bars 33 is two, and two connecting bars 33 are provided extending from the hanging bar 32 toward the lower side. The quantity of bracing piece 31 is a plurality of, and the both ends of bracing piece 31 respectively with two connecting rods 33 fixed connection, bracing piece 31 and hang pole 32 and be parallel to each other, and a plurality of bracing pieces 31 are the interval setting along vertical direction, are formed with the space that supplies supporting tube 40 to wear to establish between adjacent bracing piece 31 and the pole 32 that hangs.

The support pipe 40 is used for supporting the sub-frame 102 of the construction load 100, and the support pipe 40 can be selectively erected on the upper side of the support rod 31 at the same height according to the coverage of the lower side of the sub-frame 102 when in use.

Referring to fig. 2 and 3, in order to keep the hanging rod 32 horizontal, the upright rod 10 is further sleeved with a leveling member 60, the leveling member 60 is disposed in a plate shape, a through hole 61 for the upright rod 10 to pass through is formed in the center of the leveling member 60, and the leveling member 60 is located between the hanging rod 32 and the disc buckle 20. In order to facilitate installation, the leveling member 60 may further comprise two plates, the through holes 61 are formed in the splicing position of the two plates, namely, the splicing position of the two plates is provided with a semicircular groove, and the two semicircular grooves are matched to form the through holes 61.

In order to make the hanger assembly 30 not easily move relative to the disc buckle 20, the support mechanism further includes a hanger fixing member 50, the hanger fixing member 50 is disposed in a block shape, the hanger fixing member 50 has two coupling grooves 51 opened downward, and the coupling grooves 51 are located at a lower side of the hanger fixing member 50. When the hanger holder 50 is overlapped on two adjacent hanging rods 32, the hanging rods 32 of the two hanger assemblies 30 are respectively inserted into the two coupling grooves 51, and at this time, the hanging rods 32 and the supporting rods 31 of the two hanger assemblies 30 are clamped on both sides of the vertical rod 10.

The support mechanism further comprises a support assembly 70 for supporting the support rod 31, the support assembly 70 comprising a stud 71, a support plate 72 and a threaded sleeve 73. The distance between adjacent disc buckles 20 on the same vertical rod 10 is greater than the length of the connecting rod 33, the number of the studs 71 is four, four studs 71 are correspondingly arranged in four through holes 21 of adjacent disc buckles 20 on the lower side of the supporting rod 31 in a one-to-one manner, each stud 71 is clamped and fixed on the disc buckle 20 through two nuts, and the studs 71 extend upwards from the disc buckles 20. The support plate 72 is sleeved on the vertical rod 10, a through hole 721 for the stud 71 to pass through is formed in the support plate 72, the threaded sleeve 73 is sleeved on the stud 71 and is in threaded connection with the stud 71, the threaded sleeve 73 abuts against the lower side of the support plate 72, and the support plate 72 is adjusted to abut against the lower side of the support rod 31 by rotating the threaded sleeve 73 so as to provide support for the hanger assembly 30.

In order to fix a plurality of support pipes 40 together, the support mechanism further includes a fixing member 80 fixing a plurality of support pipes 40, and the fixing member 80 includes a clamping member 81 and a fixing member 82. The clamping member 81 has a clamping groove 811 opened toward one side, and the clamping groove 811 is formed to allow the support pipes 40 erected on the support rods 31 at the same height to pass therethrough. The fixing member 82 is a bolt, the fixing member 82 is disposed through the opening of the clamping member 81, the stud 71 of the fixing member 82 passes through one sidewall of the clamping groove 811 and then is in threaded connection with the other sidewall of the clamping groove 811, and the fixing member 82 is rotated to drive the two opposite sidewalls of the clamping groove 811 to approach each other, so as to clamp and fix the plurality of support tubes 40.

The implementation principle of the embodiment 1 is as follows: during construction, the hanging component 30 is hung on the disc buckle 20 with a proper height, the supporting tube 40 is selected to be erected on the supporting rod 31 with a corresponding height according to the height of the subframe 102 of the engineering load 100, and a base plate can be added between the supporting tube 40 and the subframe 102 of the engineering load 100 if necessary, so that the materials are taken and the manufacturing are convenient, the construction is simplified, and the construction efficiency is improved.

Example 2

Referring to fig. 4 and 5, the present embodiment is different from embodiment 1 in that the hanger assembly 30 includes a hanger plate 34, a threaded column 35, a height adjuster 36, and a support rod 31.

The middle of the hanging plate 34 is provided with a through hole 341, and the through hole 341 is used for the upright stanchion 10 to penetrate, so that the hanging plate 34 is sleeved on the upright stanchion 10 and is abutted against the upper side of the disc buckle 20. The hanging plate 34 is formed by two plates, the through hole 341 is opened at the joint of the two plates, and the two plates are respectively clamped and sleeved on the vertical rod 10 from the two sides of the vertical rod 10 and then fixed together through bolts. The two support rods 31 correspond to one suspension plate 34, the two support rods 31 are parallel to each other, the support rods 31 are located on the lower side of the suspension plate 34, the two threaded columns 35 are fixed at two ends of the support rods 31 respectively, the threaded columns 35 extend upwards from the support rods 31 in the vertical direction, the threaded columns 35 penetrate through four corners of the suspension plate 34 in a one-to-one correspondence mode, and the threaded columns 35 can move relative to the suspension plate 34 in the axial direction of the threaded columns 35. The height adjusting member 36 is a nut, which is screwed onto the threaded column 35 in a one-to-one correspondence, and the nut abuts against the upper side of the suspension plate 34 to provide support for the threaded column 35 and the support rod 31.

The support pipes 40 are sequentially erected on the upper sides of the four support rods 31, and in use, the support heights of the support pipes 40 are adjusted by rotating the height adjusting members 36, so that the sub-frame 102 of the engineering load 100 is supported.

In order to reduce the resistance of the height adjusting member 36 during rotation, a thrust ball bearing 351 is further sleeved on the threaded column 35, and two ends of the thrust ball bearing 351 are respectively abutted against the height adjusting member 36 and the suspension plate 34.

Referring to fig. 6, 7 and 8, in order to adjust the position of the support tube 40 on the support rod 31 and lock the support tube 40, the support mechanism further includes a clamping assembly 90, and the clamping assembly 90 includes a sliding sleeve 91, a fixed clamping jaw 92, a movable clamping jaw 93, a connecting rod 94 and a locking rod 95.

The sliding sleeve 91 is sleeved on the support rod 31, the inner diameter of the sliding sleeve 91 is equal to the outer diameter of the support rod 31, and the sliding sleeve 91 slides on the support rod 31 along the axial direction of the support rod 31. One end of the fixed clamping jaw 92 is fixed on the outer side wall of the sliding sleeve 91, the fixed clamping jaw 92 is a quarter circular arc, and the inner diameter of the fixed clamping jaw 92 is equal to the outer diameter of the support tube 40. One end of the movable clamping jaw 93 is hinged to one end, close to the sliding sleeve 91, of the fixed clamping jaw 92, the movable clamping jaw 93 is an arc, the inner diameter of the movable clamping jaw 93 is equal to the outer diameter of the supporting tube 40, a notch facing the direction away from the sliding sleeve 91 and opening is formed by the cooperation of the movable clamping jaw 93 and the fixed clamping jaw 92, and the supporting tube 40 can slide into the space between the fixed clamping jaw 92 and the movable clamping jaw 93 from the notch.

One end of the connecting rod 94 is hinged to one end of the movable clamping jaw 93 close to the fixed clamping jaw 92, the other end of the connecting rod 94 extends towards the supporting rod 31, and a movable groove 911 for placing and moving the connecting rod 94 is formed in the sliding sleeve 91. One end of the locking rod 95 is hinged to the other end of the connecting rod 94, the other end of the locking rod 95 extends towards the direction away from the movable clamping jaw 93, a sliding groove 912 is formed in the sliding sleeve 91, the sliding groove 912 is communicated with the movable groove 911, the sliding groove 912 is arranged along the radial direction of the sliding sleeve 91, and the locking rod 95 slides in the sliding groove 912. One side of the support rod 31 close to the fixed clamping jaw 92 is provided with a guide groove 311, the guide groove 311 is arranged along the axial direction of the support rod 31, and the bottom of the guide groove 311 is provided with a plurality of lock rod grooves 312 arranged at intervals along the axial direction of the support rod 31.

Initially, the movable clamping jaw 93 is in an open state, and the locking rod 95 is inserted into the guiding slot 311 but not inserted into the locking rod slot 312, so that the sliding sleeve 91 can slide on the supporting rod 31, the position of the sliding sleeve 91 is adjusted, and the locking rod 95 is inserted into the guiding slot 311 to guide the sliding sleeve 91 to slide on the supporting rod 31, so that the sliding sleeve 91 does not rotate relative to the supporting rod 31. After the support tube 40 is inserted between the fixed jaw 92 and the movable jaw 93, the support tube 40 forces the movable jaw 93 to close, and the locking rod 95 is driven to be inserted into the locking rod slot 312 through the connecting rod 94, so that the support tube 40 is locked at the position. When the position of the support tube 40 needs to be adjusted, the support tube 40 is slid upwards to the notch formed by the matching of the movable clamping jaw 93 and the fixed clamping jaw 92, the support tube 40 drives the movable clamping jaw 93 to be opened, the connecting rod 94 drives the locking rod 95 to slide out of the locking rod groove 312 into the guide groove 311, and the position of the sliding sleeve 91 can be adjusted.

Referring to fig. 9, in one embodiment, one support rod 31 corresponds to one suspension plate 34, the support rod 31 is located at the lower side of the suspension plate 34, two threaded columns 35 are respectively fixed at both ends of the support rod 31, the threaded columns 35 extend upward from the support rod 31 in the vertical direction, the two threaded columns 35 penetrate two adjacent corners of the suspension plate 34 in one-to-one correspondence, and the threaded columns 35 are movable relative to the suspension plate 34 in the axial direction thereof. The height adjusting member 36 is a nut, which is screwed onto the threaded column 35 in a one-to-one correspondence, and the nut abuts against the upper side of the suspension plate 34 to provide support for the threaded column 35 and the support rod 31.

The implementation principle of the embodiment 2 is as follows: during construction, the hanging component 30 is hung on the disc buckle 20 with a proper height, the supporting tube 40 is erected on the supporting rod 31, the threaded column 35 is driven by rotating the height adjusting component 36 to drive the supporting rod 31 to ascend until the supporting tube 40 abuts against the lower side of the subframe 102 of the engineering load 100, and a base plate can be added between the supporting tube 40 and the subframe 102 of the engineering load 100 if necessary, so that materials are taken and the manufacturing are convenient, the construction is simplified, and the construction efficiency is improved. Furthermore, the support tube 40 can be locked to the support rod 31 by the clasping assembly 90, so that the support tube 40 is not easy to slide relative to the support rod 31 when the support height of the support tube 40 is adjusted.

Example 3

Referring to fig. 10 and 11, the hanger assembly 30 is different from embodiment 2 in that it includes a hanging plate 34, a slide lever 37 and a locking member 38.

The middle of the hanging plate 34 is provided with a through hole 341, and the through hole 341 is used for the upright stanchion 10 to penetrate, so that the hanging plate 34 is sleeved on the upright stanchion 10 and is abutted against the upper side of the disc buckle 20. The two sliding rods 37 correspond to one suspension plate 34, the two sliding rods 37 are parallel to each other, the support rod 31 is located on the lower side of the suspension plate 34, the two sliding rods 37 are fixed at two ends of the support rod 31 respectively, the sliding rods 37 extend upwards from the support rod 31 along the vertical direction, the sliding rods 37 penetrate through four corners of the suspension plate 34 in a one-to-one correspondence mode, and the sliding rods 37 can move relative to the suspension plate 34 along the axial direction of the sliding rods 37.

The locking piece 38 moves relatively to the hanging plate 34 along the direction perpendicular to the length direction of the sliding rod 37, a plurality of locking grooves 371 are formed in the sliding rod 37, the plurality of locking grooves 371 are evenly arranged along the axial direction of the sliding rod 37, and the locking piece 38 can be inserted into the locking grooves 371 to lock the sliding rod 37 on the hanging plate 34. Specifically, a supporting plate 342 is fixed to the lower side of the suspension plate 34, the locking member 38 may be a screw, the locking member 38 is inserted through the supporting plate 342 in a direction perpendicular to the length direction of the slide rod 37, and the locking member 38 is threadedly coupled to the supporting plate 342. The lock-time rotation lock piece 38 is inserted into the lock groove 371, and the lock-time rotation lock piece 38 is slid out of the lock groove 371.

The locking member 38 may further include a latch 381, a guide post 382, and an elastic member 383. The locking tongue 381 can be inserted into the locking groove 371, the guiding post 382 is fixed on one side of the locking tongue 381 far away from the sliding rod 37, and the guiding post 382 penetrates the supporting plate 342 and is connected with the supporting plate 342 in a sliding mode along the axial direction of the guiding post 382. The elastic element 383 is a compression spring, the elastic element 383 is sleeved on the guide post 382, and two ends of the elastic element 383 respectively press the support plate 342 and the locking tongue 381, so that the locking tongue 381 keeps the tendency of being inserted into the locking groove 371.

The implementation principle of the embodiment 3 is as follows: during construction, the hanging component 30 is hung on the disc buckle 20 with a proper height, the supporting pipe 40 is erected on the supporting rod 31, the sliding rod 37 slides until the supporting pipe 40 abuts against the lower side of the subframe 102 of the engineering load 100, the locking piece 38 is inserted into the corresponding locking groove 371, and a base plate can be added between the supporting pipe 40 and the subframe 102 of the engineering load 100 when necessary, so that materials are taken and the manufacturing is convenient, the construction is simplified, and the construction efficiency is improved.

The above embodiments are preferred embodiments of the present application, and the protection scope of the present application is not limited by the above embodiments, so: all equivalent changes made according to the structure, shape and principle of the present application shall be covered by the protection scope of the present application.

Claims (10)

1. The utility model provides a steel pipe support frame joist structure is buckled to socket joint type dish which characterized in that includes a plurality of supporting mechanism, supporting mechanism includes:

a plurality of upright rods (10);

the disc buckles (20) are sleeved on the vertical rod (10) and fixedly connected with the vertical rod (10), and the disc buckles (20) are arranged at intervals along the length direction of the vertical rod (10);

the hanging rack assembly (30) is hung on the plate buckle (20), the hanging rack assembly (30) is provided with a supporting rod (31), and the supporting rod (31) can be adjusted along the length direction of the vertical rod (10); and

a plurality of supporting tubes (40) which are sequentially erected on the upper sides of the supporting rods (31) of the hanger component (30) at the same height.

2. The socket type buckle type steel pipe support bracket joist structure according to claim 1, wherein two hanger components (30) correspond to one buckle (20), the two hanger components (30) are hung at both sides of the buckle (20), the hanger components (30) comprise:

a hanging rod (32) hung on the disc buckle (20); and

a connecting rod (33) which is arranged at two ends of the hanging rod (32) and extends downwards;

the quantity of bracing piece (31) is a plurality of, and is a plurality of bracing piece (31) with connecting rod (33) are connected and are followed the length direction of pole setting (10) is the interval setting.

3. The socket type disc buckle type steel pipe support frame joist structure of claim 2, wherein: the hanger is characterized by further comprising a hanger fixing part (50), wherein the hanger fixing part (50) is provided with two downwards-opened coupling grooves (51), and when the hanger fixing part (50) is lapped on the hanging rods (32) of the two hanger components (30), the hanging rods (32) of the two hanger components (30) are inserted into the two coupling grooves (51).

4. The socket type disc buckle type steel pipe support frame joist structure of claim 2, wherein: still include leveling piece (60), leveling piece (60) have one supply wear to establish hole (61) that pole setting (10) wore through, leveling piece (60) butt in dish is detained (20) is last.

5. The bell and spigot type pipe-in-hat steel support bracket joist structure according to claim 2, further comprising a support assembly (70) supporting said support bar (31), said support assembly (70) comprising:

the studs (71) are fixed on the disc buckles (20) on the lower side of the support rod (31) and are uniformly arranged along the circumferential direction of the disc buckles (20);

the supporting plate (72) is sleeved on the vertical rod (10) and provided with a through hole (721) for the stud (71) to penetrate through, and the supporting plate (72) is abutted to the lower side of the supporting rod (31); and

the threaded sleeve (73) is sleeved on the stud (71) and is in threaded connection with the stud (71), and the threaded sleeve (73) is abutted to the lower side of the supporting plate (72).

6. The socket type disc buckle type steel pipe support frame joist structure according to claim 1, further comprising a fixing assembly (80) for fixing a plurality of said support pipes (40), said fixing assembly (80) comprising:

the clamping piece (81) is provided with a clamping groove (811) which is opened towards one side, and the clamping groove (811) is used for the supporting pipe (40) to penetrate; and

and the fixing piece (82) is arranged at the opening of the clamping piece (81) in a penetrating way to drive the two opposite side walls of the clamping groove (811) to approach each other.

7. The bell and spigot type pipe support bracket joist structure according to claim 1, wherein said hanger assembly (30) comprises:

a hanging plate (34) hung on the disc buckle (20);

the threaded column (35) penetrates through the suspension plate (34) and slides relative to the suspension plate (34) along the axial direction of the threaded column, and the support rod (31) is fixedly connected with the threaded column (35); and

the height adjusting piece (36) is sleeved on the threaded column (35) and in threaded connection with the threaded column (35), and the height adjusting piece (36) abuts against the upper side of the suspension plate (34).

8. The socket type disc buckle type steel tube support bracket joist structure as claimed in claim 7, wherein the hanger component (30) further comprises a thrust ball bearing (351) sleeved on the threaded column (35), and two ends of the thrust ball bearing (351) are respectively abutted with the height adjusting piece (36) and the suspension plate (34).

9. The bell and spigot type pipe support bracket joist structure according to claim 1, wherein said hanger assembly (30) comprises:

a hanging plate (34) hung on the disc buckle (20);

the sliding rod (37) penetrates through the suspension plate (34) and slides along the axial direction of the suspension plate (34) relative to the suspension plate, the support rod (31) is fixedly connected with the sliding rod (37), a plurality of locking grooves (371) are formed in the sliding rod (37), and the locking grooves (371) are arranged at intervals along the length direction of the sliding rod (37); and

a locking piece (38) which moves relative to the hanging plate (34) in a direction perpendicular to the length direction of the slide lever (37) and which can be inserted into the locking groove (371).

10. The socket type disc buckle type steel pipe support bracket joist structure of claim 1, further comprising a clasping assembly (90) slidably connected to the support bar (31), wherein the clasping assembly (90) comprises:

the sliding sleeve (91) is sleeved on the supporting rod (31) and is connected with the supporting rod (31) in a sliding manner;

a fixed clamping jaw (92) fixed on the upper side of the sliding sleeve (91);

the movable clamping jaw (93) is hinged to the fixed clamping jaw (92), and the movable clamping jaw (93) and the fixed clamping jaw (92) are matched to clamp the supporting tube (40);

the upper end of the connecting rod (94) is hinged with the movable clamping jaw (93), and a movable groove (911) for placing and moving the connecting rod (94) is formed in the sliding sleeve (91); and

the upper end of the locking rod (95) is hinged with the lower end of the connecting rod (94), a sliding groove (912) communicated with the movable groove (911) is formed in the sliding sleeve (91), the sliding groove (912) penetrates through the sliding sleeve (91) along the radial direction of the sliding sleeve (91), and the locking rod (95) slides in the sliding groove (912);

the upside of bracing piece (31) is equipped with the edge guide slot (311) of the axial extension of bracing piece (31), the tank bottom of guide slot (311) is equipped with a plurality of edges lock bar groove (312) that the axial interval of bracing piece (31) set up, when activity clamping jaw (93) was opened, the lower extreme of locking lever (95) was inserted in guide slot (311), when activity clamping jaw (93) was closed, the lower extreme of locking lever (95) was inserted in lock bar groove (312).

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