CN206438406U - Utilize BIM management and control bridge construction devices - Google Patents

Abstract

Present patent application is related to technical field of bridge engineering, specifically disclose one kind and utilize BIM management and control bridge construction devices, including truss structure, Bailey bracket, running gear and hoist engine, truss structure and hoist engine are both connected on running gear, the Bailey bracket is connected to the upper end of truss structure, one end of Bailey bracket is connected with hoisting device, the lower end of Bailey bracket is connected with slide bar, movable block is slidably connected on the slide bar, stepper motor is connected with the movable block, the lower end of movable block is connected with balancing weight.By automatically controlling the position of balancing weight, to change the torque in Bailey bracket, the balancing weight without changing different weight, operation more facilitates, and reduces the input of different weight balancing weight, has saved equipment cost.

Description

Utilize BIM management and control bridge construction devices

Technical field

The utility model is related to technical field of bridge engineering.

Background technology

In the prior art, when constructing a bridge, traditional cantilever hanger device is typically secured on bridge floor, for hoisting heavy Weight is moved to bridge floor from ground to bridge floor, and using hoisting bracket top surface portable crossbeam.At present, many schools can draw Enter some cantilever hanger devices and be placed in project for school practice center, for student's empathic learning or practical operation, to improve Raw ability of engineering practice, is easy to further understand knowwhy.And traditional cantilever hanger device for being fixed on bridge floor It is not readily portable, and installation process trouble, it is not suitable for school and puts into practice place.

Chinese patent CN102797225A discloses a kind of bridge mobile hoisting support, including truss structure, shellfish Thunder piece, running gear and hoist engine, beret truss are installed on truss structure top surface, and running gear, truss are installed in truss structure bottom Structure, hoist engine is installed on truss structure afterbody, and truss structure afterbody is provided with counterweight platform, counterweight platform and places balancing weight.This hair It is bright when being mainly used for bridge, using balancing weight so as to which structure is made into compact in itself, knot is several times as much as while can lift by crane again The structure deadweight weight of itself.

The shortcoming of above-mentioned technical proposal is：Need to change different balancing weights according to the object of different weight, and it is current The weight of lift heavy object can not be estimated, and the scope of weight is larger, result in the need for very many balancing weights, and often be changed once The weight of different weight, must just change a balancing weight, operation and its complexity.

Utility model content

The purpose of this utility model is to provide a kind of using BIM management and control bridge construction devices, to solve in the prior art The problem of balancing weight of presence changes trouble, balancing weight quantity required is excessive.

In order to achieve the above object, base case of the present utility model provides a kind of using BIM management and control bridge construction devices, Including truss structure, Bailey bracket, running gear and hoist engine, the truss structure and hoist engine are both connected on running gear, The Bailey bracket is connected to the upper end of truss structure, and one end of Bailey bracket is connected with hoisting device, and the lower end of the Bailey bracket connects It is connected on slide bar, the slide bar and slidably connects movable block, stepper motor is connected with the movable block, the lower end of movable block connects It is connected to balancing weight；The hoisting device is provided with weight induction device, and the movable block is provided with displacement induction installation, the row Walking apparatus is provided with the BIM control systems for the displacement for being used for the load-carrying and movable block for analyzing hoisting device, stepper motor and described BIM control systems are electrically connected.

The principle of this base case is：Hoist engine transmission hoisting device is moved down, and is applied after weight, hoist engine control is hung Device is taken above to carry, weight information transmission is given BIM control systems by the weight induction device on hoisting device, while movable block is in cunning Displacement information on bar is real-time transmitted to BIM control systems, and BIM control systems are analyzed data message, to control step Stepper motor makes movable block movement adjust the position of balancing weight, the torque of Bailey bracket is applied to change movable block, so as to adapt to The weight of different weight.

The beneficial effect of this base case is：By automatically controlling the position of balancing weight, to change the power in Bailey bracket Square, the balancing weight without changing different weight, operation more facilitates, and reduces the input of different weight balancing weight, saves Equipment cost.

Scheme two：This is further preferably, the truss structure includes some support frames connected vertically, the support Frame is by the support bar group of two cross-articulations into being hinged and connected between adjacent supports frame by support bar；Slide the lower end of Bailey bracket Dynamic to be connected with top shoe, the support frame wherein support bar positioned at the top is hinged in Bailey bracket, and another support bar is hinged on On the top shoe；The sliding block with top shoe homonymy is slidably connected on the running gear, positioned at the support frame of bottom In a support bar be hinged on running gear, another support bar is hinged on sliding block, and the sliding block is connected with installation and is expert at Hydraulic drive cylinder on walking apparatus.Promote sliding block to move by hydraulic drive cylinder, the support bar being hinged can be driven mutual Rotation, support frame, which mutually links, realizes the mutual rotation of all support bars, realizes the elongation and shortening of truss structure, and then adjust The height of Bailey bracket, by the decline of Bailey bracket, is easy to student closely to observe the structure of whole device, and realizes that weight is different Hanging for height takes.

Scheme three：This is further preferred, the hoisting device also assembly pulley including being connected in Bailey bracket.Make to hang Take hanging for device to take action more laborsaving, reduce the load of hoist engine, strengthen durability.

Scheme four：This is further preferably, the BIM control systems are provided with load-carrying precaution device.When the weight of weight Beyond carrying scope, early warning is carried out in real time, it is ensured that safety.

Scheme five：This is further preferably, the running gear includes workbench and installed in workbench lower end Two moving carts.Workbench is easily installed a series of elements, and is easy to artificial operation.

Scheme six：This is further preferably, the moving cart is provided with universal wheel.It is easy to the steering of whole device, moves It is dynamic more flexible, it is more practical.

Brief description of the drawings

Fig. 1 is the schematic diagram that the utility model utilizes BIM management and control bridge construction device embodiments.

Embodiment

The utility model is described in further detail below by embodiment：

Reference in Figure of description includes：Workbench 1, dolly 11, hoist engine 2, hydraulic drive cylinder 3, support bar Frame 4, support bar 41, sliding block 42, top shoe 43, balancing weight 5, movable block 51, stepper motor 52, Bailey bracket 6, hoisting device 7.

Embodiment is substantially as shown in Figure 1：

One kind utilizes BIM management and control bridge construction devices, mainly by truss structure, Bailey bracket 6, running gear and hoist engine 2 Composition, truss structure and hoist engine 2 are both connected on running gear, and Bailey bracket 6 is connected to the upper end of truss structure, Bailey bracket 6 One end be connected with hoisting device 7, the lower end of Bailey bracket 6, which is connected with slide bar, slide bar, slidably connects movable block 51, movable block Stepper motor 52 is connected with 51, the lower end of movable block 51 is connected with balancing weight 5.

Truss structure includes some support frames connected vertically, and support frame is made up of the support bar 41 of two cross-articulations, It is hinged and connected between adjacent supports frame by support bar 41；The lower slide of Bailey bracket 6 is connected with top shoe 43, positioned at the top A support frame wherein support bar 41 be hinged in Bailey bracket 6, another support bar 41 is hinged on the top shoe 43；The row The sliding block 42 with the homonymy of top shoe 43 is slidably connected on walking apparatus, a support bar 41 is hinged in the support frame of bottom On running gear, another support bar 41 is hinged on sliding block 42, and the sliding block 42 is connected with running gear Hydraulic drive cylinder 3.Promote sliding block 42 to move by hydraulic drive cylinder 3, the support bar 41 being hinged can be driven mutually to revolve Turn, support frame, which mutually links, realizes the mutual rotation of all support bars 41, realize the elongation and shortening of truss structure, and then adjust The height of Bailey bracket 6, by the decline of Bailey bracket 6, is easy to student closely to observe the structure of whole device, and realize weight not Level hang takes.

Weight induction device is installed on hoisting device 7, hoisting device 7 also includes the pulley being connected in Bailey bracket 6 Group.Make hanging for hoisting device 7 take action more laborsaving, reduce the load of hoist engine 2, strengthen durability.Installed on movable block 51 There are the BIM controls that load-carrying and the displacement of movable block 51 for analyzing hoisting device 7 are provided with displacement induction installation, running gear Stepper motor 52 and BIM control systems electrical connection in system, displaced block.BIM control systems are provided with load-carrying precaution device. When the weight of weight is beyond carrying scope, early warning is carried out in real time, it is ensured that safety.

Two moving carts 11 of the running gear by workbench 1 and installed in the lower end of workbench 1 are constituted.Workbench 1 is just In a series of elements of installation, and it is easy to artificial operation.The lower end of moving cart 11 is provided with universal wheel.It is easy to turning for whole device To movement is more flexible, more practical.

The principle of this base case is：The transmission hoisting device 7 of hoist engine 2 is moved down, and is applied after weight, hoist engine 2 is controlled Hoisting device 7 processed is above carried, and weight information transmission is given BIM control systems by the weight induction device on hoisting device 7, simultaneously mobile Displacement information of the block 51 on slide bar is real-time transmitted to BIM control systems, and BIM control systems are analyzed data message, To control stepper motor 52 movement of movable block 51 is adjusted the position of balancing weight 5, Bailey bracket 6 is applied to change movable block 51 Torque, so as to adapt to the weight of different weight.

Above-described is only that the known general knowledge such as concrete structure and characteristic is herein in embodiment of the present utility model, scheme Excessive description is not made.It should be pointed out that for those skilled in the art, not departing from the premise of the utility model structure Under, several modifications and improvements can also be made, these should also be considered as protection domain of the present utility model, and these are all without influence Effect and practical applicability that the utility model is implemented.This application claims protection domain should be with the content of its claim It is defined, embodiment in specification etc. records the content that can be used for explaining claim.

Claims (6)

1. one kind utilizes BIM management and control bridge construction devices, including truss structure, Bailey bracket, running gear and hoist engine, the purlin Frame structure and hoist engine are both connected on running gear, and the Bailey bracket is connected to the upper end of truss structure, one end of Bailey bracket It is connected with hoisting device, it is characterised in that：The lower end of the Bailey bracket is connected with slide bar, the slide bar and slidably connects movement Stepper motor is connected with block, the movable block, the lower end of movable block is connected with balancing weight；The hoisting device is provided with weight Induction installation, the movable block is provided with displacement induction installation, and the running gear is provided with the load for being used for analyzing hoisting device The BIM control systems of the displacement of weight and movable block, stepper motor and BIM control systems electrical connection.

2. utilization BIM management and control bridge construction device according to claim 1, it is characterised in that：The truss structure includes Some support frames connected vertically, support frame as described above is by the support bar group of two cross-articulations into passing through between adjacent supports frame Support bar is hinged and connected；The lower slide of Bailey bracket is connected with top shoe, and the support frame wherein support bar positioned at the top is cut with scissors It is connected in Bailey bracket, another support bar is hinged on the top shoe；Slidably connected on the running gear same with top shoe The sliding block of side, a support bar is hinged on running gear in the support frame of bottom, and another support bar is hinged on downslide On block, the sliding block is connected with the hydraulic drive cylinder on running gear.

3. utilization BIM management and control bridge construction device according to claim 1, it is characterised in that：The hoisting device is also wrapped Include the assembly pulley being connected in Bailey bracket.

4. utilization BIM management and control bridge construction device according to claim 1, it is characterised in that：In the BIM control systems Provided with load-carrying precaution device.

5. utilization BIM management and control bridge construction device according to claim 1, it is characterised in that：The running gear includes Workbench and two moving carts installed in workbench lower end.

6. utilization BIM management and control bridge construction device according to claim 5, it is characterised in that：The moving cart is provided with Universal wheel.