CN103586855B - A kind of hydraulic elevator platform for testing wind-driven generator - Google Patents

Abstract

The invention discloses a kind of hydraulic elevator platform for testing wind-driven generator, this hydraulic elevator platform comprises supporting seat, a hydraulic cylinder (one), No. two hydraulic cylinders (four), No. three hydraulic cylinders (two), base plate, bracing frame, No. two hydraulic cylinder fulcrums, linkage, mainframe, installation panel, mainframe rotating fulcrum, No. three hydraulic cylinder brace summers, No. two hydraulic cylinder bearing pins and No. three hydraulic cylinder bearing pins, the present invention can realize wind-driven generator to complete by the operation of three kinds of hydraulic cylinders and the structure of hinge the process transformed from level to upright state, hydraulic elevator platform structure of the present invention is simple, reasonable in design, be applicable to large, medium and small testing wind-driven generator.

Description

A kind of hydraulic elevator platform for testing wind-driven generator

Technical field

The present invention relates to a kind of hydraulic elevator platform, specifically relate to a kind of hydraulic elevator platform for testing wind-driven generator.

Background technology

In the process of testing wind-driven generator, horizontal checkout and vertically test can be carried out, the operation carrying out horizontal checkout is fairly simple, do not need the process completed by wind-driven generator from level to upright state, but testing performance index is accurate not, the operation of vertical test is more loaded down with trivial details, need the process completed by wind-driven generator from level to upright state, but can react each performance indications of wind-driven generator more accurately, this has come the transfer process of generator from level to upright state with regard to the support needing lifting platform.

Summary of the invention

The present invention mainly solves technical problem existing in above-mentioned prior art, provides a kind of hydraulic elevator platform for testing wind-driven generator.

Above-mentioned technical problem of the present invention is mainly solved by following technical proposals: a kind of hydraulic elevator platform for testing wind-driven generator comprises supporting seat, a hydraulic cylinder (one), No. two hydraulic cylinders (four), No. three hydraulic cylinders (two), base plate, bracing frame, No. two hydraulic cylinder fulcrums, linkage, mainframe, installation panel, mainframe rotating fulcrum, No. three hydraulic cylinder brace summers, No. two hydraulic cylinder bearing pins and No. three hydraulic cylinder bearing pins, a hydraulic cylinder is fixed with ground and mainframe respectively by supporting seat and linkage, No. two hydraulic cylinders are connected with base plate and mainframe with No. two hydraulic cylinder bearing pins respectively by No. two hydraulic cylinder base plate fulcrums, No. three hydraulic cylinders are fixed by No. three hydraulic cylinder bearing pins and No. three hydraulic cylinder brace summers, No. three hydraulic cylinder brace summers are connected as a single entity by mainframe rotating fulcrum and mainframe.

During on-test, wind-driven generator is fixed on installation panel, primer fluid pressing system, a hydraulic cylinder and No. two hydraulic cylinder works, mainframe is up pushed up, mainframe just up rotates around mainframe rotating fulcrum, when linkage starts to start buffer hydraulic system by bending straightening in process, eliminates Gravity changer and impacts; After this hydraulic cylinder and No. two hydraulic cylinders become pulling force by the power ejected, and along with the change of mainframe rotational angle is large, the pulling force of needs also becomes large; When rotational angle reaches necessarily, No. three hydraulic cylinders have started reverse cushioning effect, until mainframe is erect motionless; This process is exactly by keeping flat the process erect.

After off-test, primer fluid pressing system, No. three hydraulic cylinders up push up, and a hydraulic cylinder and No. two hydraulic cylinders are simultaneously toward drop-down, and mainframe just rotates around mainframe rotating fulcrum, when linkage start bending after startup buffer system mainframe is slowly fallen, until the rear-face contact jail of linkage and installation panel, now, No. three hydraulic cylinders do not work, a hydraulic cylinder and No. two hydraulic cylinders are placed into mainframe above bracing frame, and this process is exactly by being erected to the course of work set level.

As preferably, the quantity of a described hydraulic cylinder is one, the technical parameters such as its work cylinder diameter size, working fluid pressure, maximum reverberation matrix method, maximum net Ullage, range the type design needed according to concrete wind-driven generator is set.

As preferably, the quantity of described No. two hydraulic cylinders is four, all be connected with base plate and mainframe respectively with No. two hydraulic cylinder bearing pins by No. two hydraulic cylinder base plate fulcrums, arranging of the technical parameters such as its work cylinder diameter size, working fluid pressure, maximum reverberation matrix method, maximum net Ullage, range needs according to the type design of concrete wind-driven generator, and these 4 hydraulic cylinder synchronous are run.

As preferably, the quantity of described No. three hydraulic cylinders is two, all fixed by No. three hydraulic cylinder bearing pins and No. three hydraulic cylinder brace summers, arranging of the technical parameters such as its work cylinder diameter size, working fluid pressure, maximum reverberation matrix method, maximum net Ullage, range needs according to the type design of concrete wind-driven generator, and these two hydraulic cylinder synchronous are run.

Hydraulic elevator platform of the present invention can realize test platform for wind driven generator to complete by the operation of three kinds of hydraulic cylinders and the structure of hinge the process transformed from level to upright state, and hydraulic elevator platform structure of the present invention is simple, reasonable in design, be applicable to large, medium and small testing wind-driven generator.

Accompanying drawing explanation

Fig. 1 is the setting structure chart of invention.

Fig. 2 be invention keep flat structure chart.

Description of reference numerals: 1 is a Hydraulic Cylinder Pedestal Used, 2 is a hydraulic cylinder, 3 is base plate, and 4 is bracing frame, and 5 is No. two hydraulic cylinder fulcrums, 6 is No. two hydraulic cylinders, 7 is linkage, and 8 is mainframe, and 9 is installation panel, 10 is No. three hydraulic cylinders, and 11 is mainframe rotating fulcrum, No. three hydraulic cylinder brace summers 12, No. two hydraulic cylinder bearing pins 14 and No. three hydraulic cylinder bearing pins 15.

Detailed description of the invention

Below by embodiment, and by reference to the accompanying drawings, technical scheme of the present invention is described in further detail.

Embodiment: referring to Fig. 1 and 2, the present invention includes that above-mentioned technical problem of the present invention mainly solved by following technical proposals: a kind of hydraulic elevator platform for testing wind-driven generator comprises supporting seat 1, a hydraulic cylinder 2 (one), No. two hydraulic cylinder 6(tetra-), No. three hydraulic cylinder 10(two), base plate 3, bracing frame 4, hydraulic cylinder fulcrum 5, linkage 7, mainframe 8, installation panel 9, mainframe rotating fulcrum 11, a hydraulic cylinder 2 is fixed with ground and mainframe 8 respectively by supporting seat 1 and linkage 7, four No. two hydraulic cylinders 6 are fixed with base plate 3 and mainframe 8 respectively by respective No. two hydraulic cylinder base plate fulcrums 5 and No. two hydraulic cylinder bearing pins 14, two No. three hydraulic cylinders 10 are fixed respectively by respective No. three hydraulic cylinder bearing pins 15 and No. three hydraulic cylinder brace summers 12, No. three hydraulic cylinder brace summers 12 are connected as a single entity by mainframe rotating fulcrum 11 and mainframe 8.

During on-test, wind-driven generator is fixed on installation panel, primer fluid pressing system, a hydraulic cylinder 2 and four No. two hydraulic cylinders 6 work, mainframe 8 is up pushed up, mainframe 8 just up rotates around mainframe rotating fulcrum 11, when linkage 7 starts to start buffer hydraulic system by bending straightening in process, eliminates Gravity changer and impacts; After this hydraulic cylinder 2 and four No. two hydraulic cylinders 6 become pulling force by the power ejected, and along with the change of mainframe 8 rotational angle is large, the pulling force of needs also becomes large; When rotational angle reaches necessarily, two No. three hydraulic cylinders 10 have started reverse cushioning effect, until mainframe 8 is erect motionless; This process is exactly by keeping flat the process erect.

After off-test, primer fluid pressing system, two No. three hydraulic cylinders 10 up push up, a hydraulic cylinder 2 and four No. two hydraulic cylinders 6 are simultaneously toward drop-down, mainframe 8 just rotates around mainframe rotating fulcrum 11, when linkage 7 start bending after startup buffer system mainframe 8 is slowly fallen, until linkage 7 is firm with the rear-face contact of installation panel 9, now, two No. three hydraulic cylinders 10 do not work, a hydraulic cylinder 2 and four No. two hydraulic cylinders 6 are placed into mainframe 8 above bracing frame 4, and this process is exactly by being erected to the course of work set level.

Hydraulic elevator platform structure of the present invention is simple, reasonable in design, be applicable to various large, medium and small testing wind-driven generator.

Finally, it should be pointed out that above embodiment is only the more representational example of the present invention.Obviously, the invention is not restricted to above-described embodiment, many distortion can also be had.Every above embodiment is done according to technical spirit of the present invention any simple modification, equivalent variations and modification, all should think and belong to protection scope of the present invention.

Claims (2)

1. the hydraulic elevator platform for testing wind-driven generator, comprise supporting seat, a hydraulic cylinder, No. two hydraulic cylinders, No. three hydraulic cylinders, base plate, bracing frame, No. two hydraulic cylinder fulcrums, linkage, mainframe, installation panel, mainframe rotating fulcrum, No. three hydraulic cylinder brace summers, No. two hydraulic cylinder bearing pins and No. three hydraulic cylinder bearing pins, it is characterized in that a described hydraulic cylinder is fixed with ground and mainframe respectively by supporting seat and linkage, described No. two hydraulic cylinders are connected with base plate and mainframe with No. two hydraulic cylinder bearing pins respectively by No. two hydraulic cylinder base plate fulcrums, described No. three hydraulic cylinders are fixed by No. three hydraulic cylinder bearing pins and No. three hydraulic cylinder brace summers, No. three hydraulic cylinder brace summers are connected as a single entity by mainframe rotating fulcrum and mainframe,

During on-test, wind-driven generator is fixed on installation panel, primer fluid pressing system, a hydraulic cylinder and No. two hydraulic cylinder works, mainframe is up pushed up, mainframe just up rotates around mainframe rotating fulcrum, when linkage starts to start buffer hydraulic system by bending straightening in process, eliminates Gravity changer and impacts; After this hydraulic cylinder and No. two hydraulic cylinders become pulling force by the power ejected, and along with the change of mainframe rotational angle is large, the pulling force of needs also becomes large; When rotational angle reaches necessarily, No. three hydraulic cylinders have started reverse cushioning effect, until mainframe is erect motionless; This process is exactly by keeping flat the process erect;

After off-test, primer fluid pressing system, No. three hydraulic cylinders up push up, and a hydraulic cylinder and No. two hydraulic cylinders are simultaneously toward drop-down, and mainframe just rotates around mainframe rotating fulcrum, when linkage start bending after startup buffer system mainframe is slowly fallen, until the rear-face contact jail of linkage and installation panel, now, No. three hydraulic cylinders do not work, a hydraulic cylinder and No. two hydraulic cylinders are placed into mainframe above bracing frame, and this process is exactly by being erected to the course of work set level.

2. a kind of hydraulic elevator platform for testing wind-driven generator according to claim 1, is characterized in that the quantity of a described hydraulic cylinder is one; The quantity of described No. two hydraulic cylinders is four, the same and synchronous operation of these four hydraulic cylinder models; The quantity of described No. three hydraulic cylinders is two, the same and synchronous operation of these two hydraulic cylinder models.