CN209242540U - Suspension centre truss structure under a kind of climbing frame - Google Patents

Abstract

Suspension centre truss structure under a kind of climbing frame；Suspension centre truss structure includes the truss (900) for being mounted on guide rail (100), the suspension centre (320) for being mounted directly or indirectly to the scaffold board (960) of truss (900) and being fixedly mounted on truss (900) under the climbing frame.Suspension centre truss structural design is ingenious under the climbing frame of the utility model, practical.

Description

Suspension centre truss structure under a kind of climbing frame

Technical field

The utility model relates to suspension centre truss structures under crane hoisting equipment more particularly to a kind of climbing frame.

Background technique

Climbing frame is called attachment type raise scaffold, is high-rise building safe protection works equipment newly developed in recent years, energy It is gone up and down along building.It usually will be installed electric block on climbing frame, provide power to the lifting to climbing frame.

When electric block promotes climbing frame guide rail, if its provided tractive force is larger, stress concentration, Yi Fa will lead to Change shape, so that the use to climbing frame brings security risk.

Utility model content

The utility model in view of the above technical problems, proposes a kind of rotatably suspension centre structure.

The technical solution that the utility model is proposed is as follows:

The utility model proposes suspension centre truss structures under a kind of climbing frame, including the truss for being mounted on guide rail, directly The suspension centre for connecing or being indirectly attached to the scaffold board of truss and be fixedly mounted on truss.

Under the above-mentioned climbing frame of the utility model in suspension centre truss structure, truss includes the first connector and parallel to each other Two connectors further include multiple singletrees and multiple hounds；The singletree is connect with the first connector and second respectively Part vertically connects, and the hound is connect with the first connector and the second connector respectively；First connector is led for being mounted on On rail；Suspension centre is mounted on the second connector.

It further include being hinged on suspension centre, being projecting for installing under the above-mentioned climbing frame of the utility model in suspension centre truss structure The connection hanging ring of cucurbit elevator.

Under the above-mentioned climbing frame of the utility model in suspension centre truss structure, suspension centre includes the suspension centre being mounted on the second connector Ontology and the interconnecting piece being formed on suspension centre ontology offer the first connecting hole on interconnecting piece；Connecting hanging ring includes hanging ring sheet Body, the hanging ring ontology one end offer the second connecting hole, and the other end offers for cucurbit main body on projecting cucurbit elevator The third connecting hole that one hook is worn；Under climbing frame suspension centre truss structure further include be rotatably penetrated and arranged in respectively the first connecting hole and The shaft of second connecting hole.

Under the above-mentioned climbing frame of the utility model in suspension centre truss structure, connection hanging ring further include be arranged on hanging ring ontology, For sensing the sensor for the active force that cucurbit main body is applied；Scaffold board is mounted on truss by connecting plate.

Under the above-mentioned climbing frame of the utility model in suspension centre truss structure, is offered on the first connector and extend along direction point Cloth, multiple 4th connecting holes for cooperating the first connector of realization to connect with guide rail；4th connecting hole is through-hole, so that The mountable left side in guide rail of truss, the also mountable right side in guide rail.

Under the above-mentioned climbing frame of the utility model in suspension centre truss structure, offer that extend along direction equal on the second connector Multiple the 5th connecting holes being connect for realizing suspension centre with the second connector of even distribution, so that suspension centre is on the second connector Position is adjustable.

Under the above-mentioned climbing frame of the utility model in suspension centre truss structure, scaffold board side offers the more of horizontal homogeneous distribution A the 6th connecting hole being connect for realizing connecting plate with scaffold board, so that position of the connecting plate on scaffold board is adjustable.

Under the above-mentioned climbing frame of the utility model in suspension centre truss structure, the length of truss is 1.5m-4m.

The utility model constructs suspension centre truss structure under a kind of climbing frame, and electric block is made to be hinged on suspension centre truss under the climbing frame In structure, when the tractive force provided by the electric block is excessive, by under climbing frame between suspension centre truss structure and electric block It relatively rotates to realize the displacement of electric block, to buffer the tractive force, guide rail is avoided to deform.Meanwhile also use will Scaffold board is mounted on truss, to disperse the stress on guide rail, is avoided stress from concentrating while being avoided deforming.Meanwhile also by the Four connecting holes, the 5th connecting hole and the 6th connecting hole realize that truss is connect with second relatively relative to the position of guide rail, suspension centre The position of part and connecting plate are adjustable relative to the position of scaffold board, to realize that guide rail upper stress is distributed adjustable function.This Outside, also using connection hanging ring on sensor come real-time induction electric cucurbit to connect hanging ring pulling force, electronic calabash is monitored with this The working condition of reed.

Detailed description of the invention

Below in conjunction with accompanying drawings and embodiments, the utility model is described in further detail, in attached drawing:

Fig. 1 shows the structural schematic diagram of the climbing frame of the preferred embodiment in the utility model；

Fig. 2 shows the partial enlarged views in the portion A of climbing frame shown in FIG. 1；

Fig. 3 shows the structural schematic diagram of the truss of climbing frame shown in FIG. 1；

Fig. 4 shows the structural schematic diagram of the other direction of climbing frame shown in FIG. 1；

Fig. 5 shows the partial enlarged view in the portion B of climbing frame shown in Fig. 4；

Fig. 6 shows the partial enlarged view in the portion C of climbing frame shown in Fig. 4；

Fig. 7 shows the structural schematic diagram on the another direction of climbing frame shown in FIG. 1；

Fig. 8 shows the partial enlarged view in the portion D of climbing frame shown in Fig. 7；

Fig. 9 shows the installation schematic diagram of the chain of climbing frame shown in FIG. 1.

Specific embodiment

The technical problem to be solved by the utility model is to when electric block promotes climbing frame guide rail, if provided by it When tractive force is larger, it will lead to guide rail and deform, so that the use to climbing frame brings security risk.The utility model is with regard to the skill Art problem and the technical thought proposed is: construct suspension centre truss structure under a kind of climbing frame, be hinged on electric block under the climbing frame On suspension centre truss structure, when the tractive force provided by the electric block is excessive, pass through suspension centre truss structure under climbing frame and electronic calabash Relatively rotating to realize the displacement of electric block between reed, to buffer the tractive force, avoids guide rail from deforming.Meanwhile Also using connection hanging ring on sensor come real-time induction electric cucurbit to connect hanging ring pulling force, electric block is monitored with this Working condition.

In order to keep the technical purpose, technical solution and technical effect of the utility model apparent, in order to this field Technical staff understands and implements the utility model, does further in detail to the utility model below in conjunction with the accompanying drawings and the specific embodiments Thin explanation.

As shown in figures 1-8, Fig. 1 shows the structural schematic diagram of the climbing frame of the preferred embodiment in the utility model；Fig. 2 shows The partial enlarged view in the portion A of climbing frame shown in FIG. 1；Fig. 3 shows the structural schematic diagram of the truss of climbing frame shown in FIG. 1；Fig. 4 shows The structural schematic diagram of the other direction of climbing frame shown in FIG. 1 is gone out；Fig. 5 shows the partial enlargement in the portion B of climbing frame shown in Fig. 4 Figure；Fig. 6 shows the partial enlarged view in the portion C of climbing frame shown in Fig. 4；Fig. 7 is shown on the another direction of climbing frame shown in FIG. 1 Structural schematic diagram；Fig. 8 shows the partial enlarged view in the portion D of climbing frame shown in Fig. 7；Fig. 9 shows climbing frame shown in FIG. 1 The installation schematic diagram of chain.

The climbing frame is used for building 200, and multiple fulcrum bearings 210 are equipped on building 200, and multiple fulcrum bearings 210 are distributed In same vertical lines；Climbing frame includes the guide rail 100 for being connect by sliding sleeve fit system with fulcrum bearing 210, is mounted on Suspension centre truss structure and the projecting cucurbit elevator being mounted under climbing frame on suspension centre truss structure under climbing frame on guide rail 100 10.Herein, the length of truss is 1.5m-4m.Specifically, as depicted in figs. 1 and 2, suspension centre truss structure includes using under climbing frame In the truss 900 being mounted on guide rail 100, it is mounted directly or indirectly to the scaffold board 960 of truss 900, is fixedly mounted on truss It suspension centre 320 on 900 and is hinged on suspension centre 320, the connection hanging ring 330 for installing projecting cucurbit elevator 10.At this In, truss 900 include the first connector 910 and the second connector 920 parallel to each other, further include multiple singletrees 930 and Multiple hounds 940；The singletree 930 respectively with the first connector 910 and the second connector 920 is vertical connect, it is described tiltedly Strut 940 is connect with the first connector 910 and the second connector 920 respectively；First connector 910 is for being mounted on guide rail 100 On；Suspension centre 320 is mounted on the second connector 920.Further, in the present embodiment, scaffold board 960 passes through connecting plate 950 are mounted on truss 900, and herein, connecting plate 950 is vertically arranged, and is mounted on truss 900 by screw or rivet； And scaffold board 960 is horizontally disposed, and fixed by screw or rivet and connecting plate 950.By by scaffold board 960 and truss 900 Connection, rather than connect with guide rail 100, to disperse the stress on guide rail, stress is avoided to concentrate, also avoids leading to a certain extent Rail deforms.

Further, as shown in Figure 1-Figure 3, it is offered on the first connector 910 and extends along directional spreding, for cooperating Realize multiple 4th connecting holes 911 that the first connector 910 is connect with guide rail 100；4th connecting hole 911 is through-hole, with Make the mountable left side in guide rail 100 of truss 900, also the mountable right side in guide rail 100.

As shown in Figure 1-Figure 3, offered on the second connector 920 extend along direction it is equally distributed it is multiple for realizing The 5th connecting hole 921 that suspension centre 320 is connect with the second connector 920, so that position of the suspension centre 320 on the second connector 920 It is adjustable.

Further, as shown in Fig. 2, 960 side of scaffold board offers the multiple for realizing connection of horizontal homogeneous distribution The 6th connecting hole 961 that plate 950 is connect with scaffold board 960, so that position of the connecting plate 950 on scaffold board 960 is adjustable.

Further, as shown in Figure 2 and Figure 5, suspension centre 320 includes the suspension centre ontology 321 being mounted on the second connector 920 And it is formed in the interconnecting piece 322 on suspension centre ontology 321, the first connecting hole 323 is offered on interconnecting piece 322；Connect hanging ring 330 Including hanging ring ontology 331, which offers the second connecting hole, and the other end is offered to be promoted for projecting cucurbit The third connecting hole 333 that first hook 810 of cucurbit main body 800 is worn on machine 10；Suspension centre truss structure further includes point under climbing frame It is not rotatably penetrated and arranged in the shaft 334 of the first connecting hole 323 and the second connecting hole；Connection hanging ring 330 further includes that setting is being hung Sensor in ring body 331, for sensing the active force that cucurbit main body 800 is applied.In this way, projecting cucurbit elevator is hinged Under the climbing frame on suspension centre truss structure, when the tractive force provided by the projecting cucurbit elevator is excessive, pass through suspension centre under climbing frame Relatively rotating to realize the displacement of projecting cucurbit elevator between truss structure and electric block, so that the tractive force is buffered, Guide rail is avoided to deform.Meanwhile projecting cucurbit elevator is also incuded to connection using the sensor on connection hanging ring in real time The pulling force of hanging ring monitors the working condition of electric block with this.

Further, climbing frame further includes top hanging seat 500, screw rod 400 and stop nut 520；400 screw thread of screw rod connects It connects on bracket 310, and is mounted on guide rail 100 by bracket 310；Screw rod 400 is located at partially passing through for 310 lower section of bracket The roof of top hanging seat 500, and 500 roof of top hanging seat is limited in by bracket 310 and stop nut by stop nut 520 Between 520, and make that there is gap between top hanging seat 500 and bracket 310, so that it is guaranteed that top hanging seat 500 can horizontally rotate.

Further, as shown in Figure 6 and Figure 8, stripped thread occurs between screw rod 400 and bracket 310 in order to prevent, climbing frame also wraps Include spring 430, pressing plate 420 and lock nut 410, wherein the part for being located at 310 top of bracket of screw rod 400 is arranged with bullet Spring 430；Pressing plate 420 is set on screw rod 400 and is pressed on spring 430；Meanwhile lock nut 410 is threaded in screw rod 400 And pressing plate 420 is compressed, to lock position of the pressing plate 420 on screw rod 400.In this way, spring 430 can be provided to screw rod 400 Upward support force, so that it is guaranteed that being fixedly secured between screw rod 400 and bracket 310, further ensure that projecting cucurbit mentions Rise the tensioning of the chain 600 of machine 10.

Further, in the present embodiment, as shown in figure 8, guide rail 100 includes for by sliding sleeve fit system and bearing The guide rod 110 of 210 connection of seat and the connecting rod 120 being mounted on guide rod 110；Bracket 310 is fixedly mounted on connecting rod On 120.Preferably, in the present embodiment, hound 300 is also equipped between bracket 310 and connecting rod 120, so that bracket 310, connecting rod 120 and hound 300 form gusseted, with secured between this reinforced support 310 and connecting rod 120 Degree.Further, as shown in figure 8, truss 900 is mounted in connecting rod 120.

Further, as shown in Figure 8 and Figure 9, cucurbit elevator 10 is hung upside down to include cucurbit main body 800, chain 600 and determine Position seat 700；First pulley 720 is installed on positioning seat 700, is also equipped with second pulley 710；It is equipped in cucurbit main body 800 Third pulley 820 is equipped with the 4th pulley 510 on top hanging seat 500；It is sliding that first pulley 720 and third pulley 820 constitute first Wheel group, second pulley 710 and the 4th pulley 510 constitute second pulley group；It is sliding that the first end 610 of chain 600 is wound around first In wheel group, the second end 620 of chain 600 is wound around in second pulley group.It is also formed in cucurbit main body 800 and is hung on connection The first hook 810 on hanging ring 330.

Further, as shown in figure 9, the first end 610 and the second end 620 of chain 600 are also respectively and fixedly installed to Both ends on positioning seat 700；First pulley 720 has n, and third pulley 820 has n+1；Second pulley 710 has a m, and the 4th Pulley 510 has m+1；Wherein, n and m is positive integer.Specifically, in the present embodiment, 1 n, m are also 1.It is appreciated that According to the hoisting heavy weight of climbing frame, n and m will do it and be adaptively adjusted.

Further, as shown with 7, support frame 220 is installed by fulcrum bearing 210, on positioning seat 700 on building 200 It is formed with and mounts object 730 on support frame 220 for hanging over.

The course of work of the climbing frame of the present embodiment is as follows: installation elevator ontology (does not show in figure in connecting rod 120 Out)；When needing lifting construction elevator ontology, positioning seat 700 is hung on support frame 220, at the same keep connecting rod 120 with Between building relatively slidably；Then, drive chain 600 moves, and chain 600 is made to be wound on the length of the part of second pulley group It is elongated, and the length for the part for making chain 600 be wound on first pulley group shortens；When needing to reduce building hoist ontology, together Sample hangs over positioning seat 700 on support frame 220, while keeping between connecting rod 120 and building relatively slidably；Then, it drives Dynamic chain 600 moves, and the length for making chain 600 be wound on the part of second pulley group shortens, and it is sliding so that chain 600 is wound on first The length of the part of wheel group；

It is when needing to go up and down positioning seat 700, connecting rod 120 and building is relatively fixed, then by positioning seat 700 and branch The separation of 220 phase of support；Then drive chain 600 moves the lifting that positioning seat 700 can be realized.

It is appreciated that in other embodiments, hang upside down cucurbit elevator 10 can also using loop chain (not shown) come The chain 600 of the present embodiment is substituted, meanwhile, it is arranged on positioning seat 700 for catching on the locking piece of certain point on loop chain (in figure It is not shown).So that the course of work of the climbing frame of the present embodiment equally may be implemented.

The utility model constructs suspension centre truss structure under a kind of climbing frame, and electric block is made to be hinged on suspension centre truss under the climbing frame In structure, when the tractive force provided by the electric block is excessive, by under climbing frame between suspension centre truss structure and electric block It relatively rotates to realize the displacement of electric block, to buffer the tractive force, guide rail is avoided to deform.Meanwhile also use will Scaffold board is mounted on truss, to disperse the stress on guide rail, stress is avoided to concentrate.Meanwhile also passing through the 4th connecting hole, the 5th Connecting hole and the 6th connecting hole realize truss relative to the position of guide rail, the opposite position and company with the second connector of suspension centre Fishplate bar is adjustable relative to the position of scaffold board, to realize that guide rail upper stress is distributed adjustable function.In addition, also being hung using connection Sensor on ring carrys out real-time induction electric cucurbit to the pulling force of connection hanging ring, and the working condition of electric block is monitored with this.

The embodiments of the present invention are described above in conjunction with attached drawing, but the utility model is not limited to The specific embodiment stated, the above mentioned embodiment is only schematical, rather than restrictive, this field it is common Technical staff is not departing from the utility model aims and scope of the claimed protection situation under the enlightenment of the utility model Under, many forms can be also made, these are belonged within the protection of the utility model.

Claims (9)

1. suspension centre truss structure under a kind of climbing frame, which is characterized in that including for the truss (900) that is mounted on guide rail (100), The suspension centre (320) for being mounted directly or indirectly to the scaffold board (960) of truss (900) and being fixedly mounted on truss (900).

2. suspension centre truss structure under climbing frame according to claim 1, which is characterized in that truss (900) includes parallel to each other The first connector (910) and the second connector (920), further include multiple singletrees (930) and multiple hounds (940)； The singletree (930) respectively with the first connector (910) and the second connector (920) is vertical connect, the hound (940) It is connect respectively with the first connector (910) and the second connector (920)；First connector (910) is for being mounted on guide rail (100) On；Suspension centre (320) is mounted on the second connector (920).

3. suspension centre truss structure under climbing frame according to claim 2, which is characterized in that further include being hinged on suspension centre (320) Upper, the connection hanging ring (330) for installing projecting cucurbit elevator (10).

4. suspension centre truss structure under climbing frame according to claim 3, which is characterized in that suspension centre (320) includes being mounted on the Suspension centre ontology (321) on two connectors (920) and the interconnecting piece (322) being formed on suspension centre ontology (321), interconnecting piece (322) the first connecting hole (323) are offered on；Connecting hanging ring (330) includes hanging ring ontology (331), the hanging ring ontology (331) one End offers the second connecting hole, and the other end offers the first hook for cucurbit main body (800) on projecting cucurbit elevator (10) (810) the third connecting hole (333) worn；Suspension centre truss structure further includes being rotatably penetrated and arranged in the first connection respectively under climbing frame The shaft (334) in hole (323) and the second connecting hole.

5. suspension centre truss structure under climbing frame according to claim 4, which is characterized in that connection hanging ring (330) further includes setting Set the sensor on hanging ring ontology (331), for sensing the active force that cucurbit main body (800) is applied；Scaffold board (960) is logical Connecting plate (950) is crossed to be mounted on truss (900).

6. suspension centre truss structure under climbing frame according to claim 5, which is characterized in that the first connector opens up on (910) Have and extends along directional spreding, for cooperating multiple 4th connecting holes for realizing that the first connector (910) are connect with guide rail (100) (911)；4th connecting hole (911) is through-hole, so that the mountable left side in guide rail (100) of truss (900), also mountable On the right side of guide rail (100).

7. suspension centre truss structure under climbing frame according to claim 5, which is characterized in that the second connector opens up on (920) Have and extends along equally distributed multiple the 5th connections connecting for realizing suspension centre (320) with the second connector (920) in direction Hole (921), so that position of the suspension centre (320) on the second connector (920) is adjustable.

8. suspension centre truss structure under climbing frame according to claim 5, which is characterized in that scaffold board (960) side offers Multiple the 6th connecting holes (961) being connect for realizing connecting plate (950) with scaffold board (960) of horizontal homogeneous distribution, so that Position of the connecting plate (950) on scaffold board (960) is adjustable.

9. suspension centre truss structure under climbing frame according to claim 2, which is characterized in that the length of truss (900) is 1.5m- 4m。