CN109577634A - Synchro-lift system - Google Patents

Abstract

The present invention relates to a kind of synchro-lift systems, including multiple fulcrum bearings, chain type fastening lifting device and synchronous gear shaft and guide rail and station.By the way that above-mentioned synchro-lift system is arranged, multiple chain type fastening lifting device driving synchronous gear shafts and guide rail are moved along third direction as synchronization lifting, station can follow guide rail 18 to be gone up and down in vertical direction, it can also be moved in the horizontal direction along guide rail simultaneously, and operator and operation equipment can be placed on station, so that synchro-lift system realizes the function of scaffold.In this way, carrying out setting up for scaffold without artificial, building waste, while automated job will not be generated, it is easy to operate, it is time saving and energy saving, efficiency is improved, and installation process is simple, fast speed, avoids and manually sets up incident safety accident during scaffold, and security performance is high.

Description

Synchro-lift system

Technical field

The present invention relates to building lifting device technical fields, more particularly to a kind of synchro-lift system.

Background technique

Scaffold refer to construction site be worker operation and solving vertically and horizontally transport and the various brackets set up, be to build The generic term on boundary is built, and scaffold is usually to be used in exterior wall, interior decoration or the higher place that can not directly construct of layer height.

Existing scaffold, which mostly uses greatly, manually successively to be built, and time-consuming and laborious, not only efficiency is lower, extends the duration, and And it is also possible to that safety accident occurs during manually setting up.

Summary of the invention

Based on this, it is necessary to manually set up that scaffold is time-consuming and laborious, and Yi Fasheng safety accident mentions for the problem that existing Have the function of scaffold for one kind, and without manually being set up, facilitates operation, the higher synchro-lift system of efficiency.

A kind of synchro-lift system, comprising:

Multiple fulcrum bearings, are divided into multiple groups by two one group, and every group of the fulcrum bearing is intervally arranged along first direction, multiple groups The fulcrum bearing is successively intervally arranged in a second direction；

Multiple chain types fasten lifting device, and the chain type fastening lifting device is fixedly connected on the corresponding fulcrum bearing；

Multiple synchronous gear shafts, each synchronous gear shaft be connected to each group described in two chains in fulcrum bearing Formula fastens between lifting device, fastens lifting device drives edge third with two chain types in the fulcrum bearing as described in each group Make synchronization lifting movement in direction；

Guide rail is arranged along the second direction, and is connected to multiple synchronous gear shafts, so that the fastening of multiple chain types mentions Rise device synchronous interaction；

Station is movably attached to the guide rail along the second direction；

Wherein, the first direction, the second direction and the third direction are vertical two-by-two.

By the way that above-mentioned synchro-lift system, multiple chain type fastening lifting device driving synchronous gear shafts and guide rail edge is arranged Third direction makees synchronization lifting movement, and station can follow guide rail 18 to be gone up and down in vertical direction, while can also be along guide rail It is moved in the horizontal direction, and operator and operation equipment can be placed on station, so that synchro-lift system is real The function of existing scaffold.In this way, carrying out setting up for scaffold without artificial, building waste, while automated job will not be generated, It is easy to operate, it is time saving and energy saving, efficiency is improved, and installation process is simple, fast speed avoids and manually sets up scaffold mistake Incident safety accident in journey, security performance are high.

The chain type fastening lifting device includes flexible actuator and fastener in one of the embodiments, described to stretch Contracting actuator is fixedly connected on the fulcrum bearing, and the synchronous gear shaft is connected between two flexible actuators；

The fastener is connected to the flexible actuator, and the fastener includes open state and closed state, when The fastener is in the open state, and the relatively described fulcrum bearing of the telescopic end of the flexible actuator is kept fixed；When described tight Firmware is in close state, and the relatively described fulcrum bearing of the telescopic end of the flexible actuator is scalable.

The fastener is removably attachable to the flexible actuator and the fulcrum bearing in one of the embodiments, Between, and when the fastener is in the open state, the fastener is connected to the flexible actuator and the bearing Between seat.

The flexible actuator is telescopic oil cylinder in one of the embodiments,.

The fulcrum bearing is steel core concrete column in one of the embodiments, and the more steel core concrete columns are mutual In parallel.

The fulcrum bearing is that even number is divided into two one group of fulcrum bearing described in even number in one of the embodiments, Multiple groups, every group of the fulcrum bearing are correspondingly arranged.

The chain-type fixing device is even number in one of the embodiments, and each chain type fastens lifting device It is fixedly connected on a corresponding fulcrum bearing；

Multiple synchronous gear shafts are arranged in parallel.

The guide rail includes two in one of the embodiments, and each guide rail is all connected to multiple synchronizations The same end of gear shaft.

The synchro-lift system further includes control device in one of the embodiments, and the control device is connected to The chain type fastens lifting device, for controlling the operation of the chain type fastening lifting device.

The synchro-lift system further includes monitoring device in one of the embodiments, and the monitoring device is connected to The control device, for monitoring the chain type fastening lifting device and the station, the control device is according to the prison The data for surveying device monitoring control the operation of the chain type fastening lifting device.

Detailed description of the invention

Fig. 1 is the structural schematic diagram for the synchronous lifting device that one embodiment of the invention provides.

Specific embodiment

To facilitate the understanding of the present invention, a more comprehensive description of the invention is given in the following sections with reference to the relevant attached drawings.In attached drawing Give preferred embodiment of the invention.But the invention can be realized in many different forms, however it is not limited to herein Described embodiment.On the contrary, purpose of providing these embodiments is keeps the understanding to the disclosure more saturating It is thorough comprehensive.

Unless otherwise defined, all technical and scientific terms used herein and belong to technical field of the invention The normally understood meaning of technical staff is identical.Term as used herein in the specification of the present invention is intended merely to description tool The purpose of the embodiment of body, it is not intended that in the limitation present invention.Term as used herein " and/or " it include one or more phases Any and all combinations of the listed item of pass.

As shown in Figure 1, one embodiment of the invention provides synchro-lift system 10 including multiple fulcrum bearings 12, multiple chain types Fasten lifting device 14, multiple synchronous gear shafts 16, guide rail 18 and station.

12 two one group of multiple fulcrum bearings are divided into multiple groups, and every group of fulcrum bearing 12 is intervally arranged along first direction, multiple groups branch Seat 12 is held to be intervally arranged in a second direction.Chain type fastening lifting device 14 is fixedly connected on corresponding fulcrum bearing 12.

Each synchronous gear shaft 16 is connected between the fastening lifting device 14 of two chain types in each group of fulcrum bearing 12, with Synchronization lifting movement is made by two chain types fastening 14 drives edge third direction of lifting device in each group of fulcrum bearing 12.

Guide rail 18 is arranged in a second direction, and is connected to multiple synchronous gear shafts 16, so that the fastening of multiple chain types promotes dress Set 14 synchronous interactions.

Station is movably attached to guide rail 18 in a second direction.

Wherein, first direction, second direction and third direction are vertical two-by-two.

It should be noted that first direction is front-rear direction shown in FIG. 1, second direction is left and right directions shown in FIG. 1, Third direction is up and down direction shown in FIG. 1.

By the way that above-mentioned synchro-lift system is arranged, multiple chain type fastening lifting devices 14 drive synchronous gear shaft 16 and lead Rail 18 is moved along third direction as synchronization lifting, and station can follow guide rail 18 to be gone up and down in vertical direction, while can also edge Guide rail 18 moved in the horizontal direction, and operator and operation equipment can be placed on station, so that synchronous rise The function of drop system realization scaffold.In this way, carrying out setting up for scaffold without artificial, building waste will not be generated, while certainly It is dynamic to be turned into industry, it is easy to operate, it is time saving and energy saving, efficiency is improved, and installation process is simple, fast speed is avoided and manually taken If incident safety accident during scaffold, security performance is high.

It is understood that guide rail 18 is connected to synchronous gear shaft 16, therefore guide rail 18 is as synchronous gear shaft 16 is along Three directions are beyond all doubt as elevating movement.Meanwhile station is movably attached to guide rail 18 in a second direction, can obtain Guide rail 18 is also to be arranged in a second direction out.

It is to be understood that Fig. 1 is only the schematic diagram of synchro-lift system, for illustrating fulcrum bearing in synchro-lift system 12, the positional relationship and general connection relationship of chain type fastening lifting device 14, synchronous gear shaft 16 and guide rail 18, and station It is movably attached on guide rail 18, connection type is routine techniques, therefore is not shown.

In some embodiments, the quantity of fulcrum bearing 12 is even number, 12 two one group of even number fulcrum bearing, is divided into more Group, every group of fulcrum bearing 12 are correspondingly arranged.

In some embodiments, fulcrum bearing 12 is steel core concrete column, and more steel core concrete columns are parallel to each other, Mei Yilian Formula fastening lifting device 14 is fixedly connected on a corresponding steel core concrete column, and steel core concrete column is placed vertically.

Further, the quantity of steel core concrete column is four, and exist line between two steel core concrete columns and Line between other two steel core concrete columns is equal and parallel, that is, four steel core concrete columns are positioned at a rectangle Four vertex.It should be noted that since the synchro-lift system is Architectural Equipment, it is therefore desirable to biggish load-bearing capacity, and Fulcrum bearing 12 is supported in whole system, therefore its load-bearing capacity is more important, can be steel core concrete column, is also possible to Others have the pillar of biggish load-bearing capacity.

In some embodiments, the quantity of chain type fastening lifting device 14 is even number, and the fastening of even number chain type promotes dress 14 two one group is set, multiple groups are divided into, two groups of chain type fastening lifting devices 14 are correspondingly arranged.Specifically, chain type fastening promotes dress The quantity for setting 14 is four, and four chain type fastening lifting devices 14 are set on four steel core concrete columns.

In some embodiments, chain type fastening lifting device 14 includes flexible actuator, and flexible actuator is fixedly connected on Fulcrum bearing 12, synchronous gear shaft 16 are connected between two flexible actuators, so that the telescopic end of two flexible actuators is synchronous It is flexible.Further, chain type fastening lifting device 14 further includes fastener, and fastener is connected to flexible actuator, and fastens Part includes open state and closed state, and when fastener is in the open state, the telescopic end for the actuator that stretches is with respect to fulcrum bearing 12 It is kept fixed, so that synchronous gear shaft 16, guide rail 18 and station are kept fixed with respect to fulcrum bearing 12；It is closed when fastener is in The telescopic end of state, the actuator that stretches is scalable with respect to fulcrum bearing 12, to drive synchronous gear shaft 16, guide rail 18 and station edge Third direction is removable.

Specifically, chain type fastening lifting device 14 should further include chain, and the actuator that stretches is telescopic oil cylinder, realize multiple It include the mode of mechanical structure in the mode of telescopic oil cylinder synchronization action, it is more to realize for synchronous gear shaft and chain interoperation herein A telescopic oil cylinder synchronization action, and then realize corresponding telescopic oil cylinder synchronization action in two groups.

It is understood that fastener is exactly for synchronous gear shaft 16, guide rail 18 and station to be maintained at default position The component set since station is the platform operated for construction personnel, and is also placed with operation equipment, therefore thereon Flexible actuator load-bearing is larger, in order to avoid flexible actuator structure is excessively complicated, adds a fastener for so that synchronous Gear shaft 16, guide rail 18 and station are kept fixed.

In some embodiments, fastener is removably attachable between flexible actuator and fulcrum bearing 12, and when fastening Part is in the open state, and fastener is connected between flexible actuator and fulcrum bearing 12.Fastener can be detachably connected In flexible actuator, it is then fixedly connected on fulcrum bearing 12, is only connected to flexible actuator when opening, so that its telescopic end is solid It is fixed.

In some embodiments, multiple synchronous gear shafts are arranged in parallel, and each synchronous gear shaft is connected in group Corresponding two chain types fasten lifting device 14.Specifically, synchronous gear shaft is two, and two synchronous gear shafts are parallel and along the One direction setting, to be connected to corresponding two chain types fastening lifting device 14 in group, in this way, right in group to realize The flexible actuator synchronization telescope for the chain type fastening lifting device 14 answered.

In some embodiments, guide rail 18 includes two, and station is connected to two guide rails 18, and along second on guide rail Direction is removable, and the setting of two guide rails can make movement of the station on guide rail more stable.Further, each Guide rail 18 is all connected to the same end of multiple synchronous gear shafts 16, i.e. guide rail 18 is tight by multiple chain types in each group of fulcrum bearing 12 Gu lifting device 14 is chained up, to realize that the chain type in same group fastens 14 synchronization action of lifting device.

It needs to be illustrated, the chain type fastening lifting device 14 of the right and left as shown in Figure 1 is connected by guide rail 18 Synchronous gear shaft 16 is connect to synchronize.That is the chain type fastening lifting device 14 in 16 realization group of synchronous gear shaft synchronizes dynamic Make, guide rail 18 realizes that the chain type of component fastens 14 synchronization action of lifting device.And the main effect of synchronous gear shaft 16 is same The movement of corresponding chain type fastening lifting device 14 in two groups is walked, guide rail 18 is mainly used for so that station is slidable, because This is using named in this way.

In some embodiments, synchro-lift system further includes control device, and control device is connected to chain type fastening and is promoted Device 14 is used to control the operation of chain type fastening lifting device 14.Further, control device is connected to flexible actuator And fastener, the operation of flexible actuator and fastener is controlled respectively, and fastener keeps closing when realizing flexible actuator operation It closes, and flexible actuator is not run when fastener closing.

In some embodiments, synchro-lift system further includes monitoring device, and monitoring device is connected to control device, is used for It monitors chain type and fastens 14 station of lifting device, the data control chain type fastening that control device is monitored according to monitoring device promotes dress Set 14 operation.It should be noted that monitoring device includes the sensor of multiple and different types, including height sensor, pressure Sensor etc., synchro-lift system are to realize automatic operation by control device and monitoring device cooperation, can be according to reality Border demand pass the setting of sensor.

In a specific embodiment, every group of chain type fastening 14 load-bearing of lifting device is not less than 3 tons, the load-bearing of guide rail 18 Not less than 2.5 tons, the load-bearing of station is not less than 3.5 tons, and the length of station in a second direction is not less than 4000 millimeters, Width along first direction is not less than 900 millimeters.It should be noted that one can be set on station along first direction setting Track, operation equipment can be set on track to move in a second direction, it is final to realize operation equipment along first direction, the Two directions and third direction are removable.

Compared with prior art, synchro-lift system provided by the invention has at least the following advantages:

1) time saving and energy saving instead of the mode for manually setting up scaffold, it does not generate and pours building refuse, and automated job, It is easy to operate, improve construction efficiency；

2) safety accident that may occur during manually setting up scaffold is avoided, security performance is higher；

3) assembling and disassembling process is simple, fast speed.

Each technical characteristic of embodiment described above can be combined arbitrarily, for simplicity of description, not to above-mentioned reality It applies all possible combination of each technical characteristic in example to be all described, as long as however, the combination of these technical characteristics is not deposited In contradiction, all should be considered as described in this specification.

The embodiments described above only express several embodiments of the present invention, and the description thereof is more specific and detailed, but simultaneously It cannot therefore be construed as limiting the scope of the patent.It should be pointed out that coming for those of ordinary skill in the art It says, without departing from the inventive concept of the premise, various modifications and improvements can be made, these belong to protection of the invention Range.Therefore, the scope of protection of the patent of the invention shall be subject to the appended claims.

Claims (10)

1. a kind of synchro-lift system characterized by comprising

Multiple fulcrum bearings, are divided into multiple groups, every group of the fulcrum bearing is intervally arranged along first direction, described in multiple groups by two one group Fulcrum bearing is successively intervally arranged in a second direction；

Multiple chain types fasten lifting device, and the chain type fastening lifting device is fixedly connected on the corresponding fulcrum bearing；

Multiple synchronous gear shafts, each synchronous gear shaft be connected to each group described in two chain types in fulcrum bearing it is tight Gu between lifting device, fastening lifting device drives edge third direction with two chain types in the fulcrum bearing as described in each group Make synchronization lifting movement；

Guide rail is arranged along the second direction, and is connected to multiple synchronous gear shafts, so that the fastening of multiple chain types promotes dress Set synchronous interaction；

Station is movably attached to the guide rail along the second direction；

Wherein, the first direction, the second direction and the third direction are vertical two-by-two.

2. synchro-lift system according to claim 1, which is characterized in that the chain type fastening lifting device includes flexible Actuator and fastener, the flexible actuator are fixedly connected on the fulcrum bearing, and the synchronous gear shaft is connected to two institutes It states between flexible actuator；

The fastener is connected to the flexible actuator, and the fastener includes open state and closed state, when described Fastener is in the open state, and the relatively described fulcrum bearing of the telescopic end of the flexible actuator is kept fixed；When the fastener It is in close state, the relatively described fulcrum bearing of the telescopic end of the flexible actuator is scalable.

3. synchro-lift system according to claim 2, which is characterized in that the fastener is removably attachable to described Between flexible actuator and the fulcrum bearing, and when the fastener is in the open state, the fastener is connected to institute It states between flexible actuator and the fulcrum bearing.

4. synchro-lift system according to claim 2, which is characterized in that the flexible actuator is telescopic oil cylinder.

5. synchro-lift system according to claim 1, which is characterized in that the fulcrum bearing is steel core concrete column, more Steel core concrete column described in root is parallel to each other.

6. synchro-lift system according to claim 1, which is characterized in that the fulcrum bearing is even number, even number institute Two one group of fulcrum bearing is stated, multiple groups are divided into, every group of the fulcrum bearing is correspondingly arranged.

7. synchro-lift system according to claim 6, which is characterized in that the chain-type fixing device is even number, often The one chain type fastening lifting device is fixedly connected on a corresponding fulcrum bearing；

Multiple synchronous gear shafts are arranged in parallel.

8. synchro-lift system according to claim 6, which is characterized in that the guide rail includes two, each described to lead Rail is all connected to the same end of multiple synchronous gear shafts.

9. synchro-lift system according to claim 1, which is characterized in that the synchro-lift system further includes control dress It sets, the control device is connected to the chain type fastening lifting device, for controlling the operation of the chain type fastening lifting device.

10. synchro-lift system according to claim 9, which is characterized in that the synchro-lift system further includes monitoring Device, the monitoring device are connected to the control device, for monitoring the chain type fastening lifting device and the station, The control device controls the operation of the chain type fastening lifting device according to the data that the monitoring device monitors.