CN207181030U - Close energy-saving type parallel axes column gear transmission testing stand - Google Patents

Abstract

The utility model discloses one kind to close energy-saving type parallel axes column gear transmission testing stand, including base, guidance panel, processor, motor, motor support frame, loader, loader mounting bracket, connecting shaft, rail plate, installing plate, limited block, connect optical axis, vertical speed reducer I, vertical speed reducer II, motor coupler, shaft coupling I, shaft coupling II, shaft coupling III, shaft coupling IV, tentative module, and form closing mechanical system, the loader applies to the tentative module to be loaded, the power output of the motor is only used for supplementing frictional dissipation in loop, therefore the power consumption of the motor can substantially reduce；Adjust corner fixed disk described in the tentative module and the rational position of the screw slider is fixed the rotation fixed handle, with the performance test of gear during suitable different centre-to-centre spacing, a tractor serves several purposes improves the utilization rate of testing stand.

Description

Close energy-saving type parallel axes column gear transmission testing stand

Technical field

Technical field of mechanical transmission is the utility model is related to, more particularly to a kind of closing energy-saving type parallel axes roller gear passes Dynamic test platform.

Background technology

In recent years, the research for machine driving all-round property testing important has been ground as one of modern test technology Study carefully direction.The mechanical test platform commonly used in machine driving integrated test system i.e. mechanical industry is built, machine driving is set Standby R and D have most important theories meaning and economic value.Gear drive testing stand is the technique study tooth using experiment Take turns the various failure modes of transmission and determine the conventional machinery testing stand about performance such as its bearing capacity, transmission efficiency.Experiment Platform provides reliable test data for the selection of the design of gear part, performance requirement and size model number, and machine is set Meter, manufacture and the transformation of old equipment play vital effect.

But at present, most of gear drive Test-bed Design just for a certain specific gearratio gear, although Specificity designs for test platform structure, experimentation cost brings certain favorable factor, but the gearratio of transmission test object is single Property constrains the service efficiency of equipment.The utility model provides a kind of novel block energy-saving type parallel axes column gear transmission experiment Platform, realize that parallel axes column gear transmission is tested using modularized design.

Utility model content

The utility model is to overcome the existing monistic shortcoming of gear drive testing stand gearratio, there is provided a kind of structure is new Grain husk, the convenient novel block energy-saving type parallel axes roller gear modularization transmission test bench realized.

Technical scheme is used by the utility model solves its technical problem：Energy-saving type parallel axes roller gear is closed to pass Dynamic test platform, including：Base, guidance panel, processor, motor, motor support frame, loader, loader mounting bracket, company Spindle, rail plate, installing plate, limited block, connection optical axis, vertical speed reducer I, vertical speed reducer II, motor coupler, shaft coupling Device I, shaft coupling II, shaft coupling III, shaft coupling IV, tentative module, the motor are arranged on by the motor support frame On the casing of the vertical speed reducer I, the guidance panel, the processor, the limited block, the vertical speed reducer I are equal It is fixed on the base, the tentative module is arranged on the base by the installing plate, the vertical speed reducer II It can be slided along the rail plate of the base, and the position excess of stroke is prevented by the limited block, be easily installed.

Preferably, the vertical speed reducer I and the vertical speed reducer II are that two identical one-level spur gears subtract Fast device, gearratio 1:1, the vertical speed reducer I includes gear shaft I and gear shaft II, and the vertical speed reducer II includes tooth Wheel shaft III and gear shaft IV.

Preferably, the loader is installed between the gear shaft I and the connecting shaft, and by the loader Frame is arranged on the vertical speed reducer I, and the loader makes the connecting shaft and the connection optical axis produce relatively when working The gear shaft I turns to opposite moment of torsion, is loaded so as to apply to the tentative module.

Preferably, the tentative module includes corner fixed disk, screw slider, experiment gear I, chamber gear shaft I, examination Test gear II, casing, shaft end fixed bearing block, sensor I, experiment gear III, sensor II, chamber gear shaft II, experiment Gear IV, chamber jackshaft, leading screw, the fixed handle of rotation, the experiment gear I and the experiment gear IV are installed on described Chamber jackshaft, the experiment gear II are installed on the chamber gear shaft I, the experiment gear III is installed on the examination Tryoff gear shaft II, the chamber gear shaft I is supported on the casing with the chamber gear shaft II and the shaft end is consolidated In dead axle bearing, the chamber jackshaft is located in the screw slider.

Preferably, rotating the fixed handle of rotation and the leading screw can drive the screw slider to move, and adjust institute Experiment gear I and the experiment meshed center distance of gear II are stated, and the experiment gear III and the experiment gear IV engage Centre-to-centre spacing, and the rational position of the screw slider is consolidated by the corner fixed disk and the rotation fixed handle It is fixed, with the performance test of gear during suitable different centre-to-centre spacing.

Preferably, the sensor I is arranged on the outlet side of the experiment gear IV, the motion to the experiment gear IV It is acquired with kinetic parameter, the sensor II is arranged on the input side of the experiment gear III, to the experiment gear III Motion and kinetic parameter be acquired；The data that the processor collects to the sensor I and the sensor II are entered Row processing, and treated data are shown by the guidance panel, the guidance panel simultaneously with the loader, the biography Sensor I and the sensor II, motor communication, realize parameter setting.

Preferably, the motor is connected by the motor coupler and the gear shaft I, and the loader is located at Between the gear shaft I and the connecting shaft, the connecting shaft and the connection optical axis are connected by the shaft coupling I, described Connection optical axis and the gear shaft III are connected by the shaft coupling III, and the gear shaft II is logical with the chamber gear shaft I Cross that the shaft coupling II is connected, the gear shaft IV is connected with the chamber gear shaft II by the shaft coupling IV, institute State loader output torque it is defeated return to the gear shaft I, form a loop, the power output of the motor is only For supplementing frictional dissipation in loop.

The beneficial effects of the utility model are：This testing stand is by the identical vertical speed reducer that primary structure is both sides, and one Vertical type module structure used by aspect, deficiency existing for the horizontal type structure of existing testing stand is overcome, to different drive ratios Gear when being tested, only need to change tentative module.On the other hand whole transmission system forms a closed-loop path, and two subtract Power cycle is realized between fast device so that external motor only needs to ensure loss power, therefore the power consumption of external motor It can substantially reduce.

Brief description of the drawings

Fig. 1 is that the utility model closes energy-saving type parallel axes column gear transmission testing stand general structure schematic diagram；

Fig. 2 is that the utility model closes energy-saving type parallel axes column gear transmission bench run module diagram.

In figure：1st, base；2nd, guidance panel；3rd, processor；4th, vertical speed reducer I；5th, motor；6th, motor support Frame；7th, motor coupler；8th, gear shaft I；9th, loader mounting bracket；10th, loader；11st, connecting shaft；12nd, shaft coupling I；13rd, even Connect optical axis；14th, gear shaft II, 15, shaft coupling II；16th, shaft coupling III；17th, gear shaft III；18th, shaft coupling IV；19th, gear shaft Ⅳ；20th, vertical speed reducer II；21st, rail plate；22nd, limited block；23rd, installing plate；24th, tentative module；25th, screw slider； 26th, gear I is tested；27th, chamber gear shaft I；28th, gear II is tested；29th, casing；30th, shaft end fixed bearing block；31st, sense Device I；32nd, gear III is tested；33rd, sensor II；34th, chamber gear shaft II；35th, gear IV is tested；36th, among chamber Axle；37th, leading screw；38th, fixed handle is rotated；39th, corner fixed disk.

Embodiment

In order to further appreciate that the purpose of this utility model and advantage, below in conjunction with the accompanying drawings to of the present utility model specific real The mode of applying is described in further detail.

Closing energy-saving type parallel axes column gear transmission testing stand as shown in Figure 1, 2, including：Base 1, guidance panel 2, Processor 3, vertical speed reducer I 4, motor 5, motor support frame 6, motor coupler 7, gear shaft I 8, loader mounting bracket 9th, loader 10, connecting shaft 11, shaft coupling I 12, connection optical axis 13, gear shaft II 14, shaft coupling II 15, shaft coupling III 16, tooth Wheel shaft III 17, shaft coupling IV 18, gear shaft IV 19, vertical speed reducer II 20, rail plate 21, limited block 22, installing plate 23, Tentative module 24, and tentative module 24 includes：Screw slider 25, experiment gear I 26, chamber gear shaft I 27, experiment gear II 28th, casing 29, shaft end fixed bearing block 30, sensor I 31, experiment gear III 32, sensor II 33, chamber gear shaft II 34th, gear IV 35, chamber jackshaft 36, leading screw 37, the fixed handle 38 of rotation, corner fixed disk 39 are tested.

Whole transmission system is fixed on base 1, is carried out when parallel axes column gear transmission is tested, it is necessary to tentative module 24 are arranged on installing plate 23, are attached by shaft coupling II 15, shaft coupling IV 18.Whole transmission system includes vertical subtract Fast device I 4, vertical speed reducer II 20, motor 5, motor coupler 7, motor support frame 6, loader 10, loader mounting bracket 9th, connecting shaft 11, shaft coupling I 12, shaft coupling II 15, shaft coupling III 16, shaft coupling IV 18, connection optical axis 13；Gear shaft I 8 and tooth Wheel shaft II 14 is arranged in vertical speed reducer I 4；Gear shaft III 17 and gear shaft IV 19 are arranged in vertical speed reducer II 20, and And gearratio built in vertical speed reducer I 4 and vertical speed reducer 20 II is 1:1 gear mesh, vertical speed reducer I 4 are fixed on base 1 On, vertical speed reducer II 20 is also mounted on base 1, can be slided along rail plate 21, limited location block 22 limits its stroke Extreme position；Motor 5 is arranged on vertical speed reducer I 4 by motor support frame 6, and by motor coupler 7 and gear shaft I 8 connections, loader 10 are mounted on vertical speed reducer I 4 by loader mounting bracket 9, shaft coupling I 12, shaft coupling II 15, shaft coupling Device III 16, shaft coupling IV 18 are separately mounted to connecting shaft 11, gear shaft II 14, gear shaft III 17, the shaft end of gear shaft IV 19.

In tentative module 24, chamber gear shaft I 27 and chamber gear shaft II 34 pass through shaft end fixed bearing block 30 On casing 29, experiment gear II 28 and experiment gear III 32 are separately mounted to chamber gear shaft I 27 and chamber tooth On wheel shaft II 34, chamber jackshaft 36 is arranged on screw slider 25, can be moved linearly in the presence of leading screw 37, is tried Test gear I 26 and experiment gear IV 35 is arranged on chamber jackshaft 36, sensor I 31 and sensor II 33 are separately mounted to To test the input of gear III 32 and test the output end of gear IV 35, the rotation of leading screw 37 is driven by the fixed handle 38 of rotation, The fixation of leading screw 37 is then that the cooperation by rotating fixed handle 38 and corner fixed disk 39 is realized.

The utility model closes energy-saving type driving of parallel axes testing stand when doing experiment, and tentative module 24 is arranged on into installation On plate 23, chamber gear shaft I 27 and chamber gear shaft II 34 are connected with shaft coupling II 15, shaft coupling IV 18 respectively, used Connect optical axis 13 and connect shaft coupling I 12 and shaft coupling III 16, motor 5 and loading are adjusted by control panel 2 and processor 3 Device 9, by motor coupler 7, gear shaft I 8, loader 9, connecting shaft 11, shaft coupling I 12, company in the presence of motor 5 Connect optical axis 13, shaft coupling III 16, gear shaft III 17, gear shaft IV 19, shaft coupling IV 18, tentative module 23, shaft coupling II 15, tooth Wheel shaft II 14, eventually passes back to gear shaft I 8, and whole transmission system just forms closure drive circuit.By sensor I 31 and sensor II 33 data measured, are handled by processor 3, then by the display data of control panel 2.Different drive ratios parallel axes biography is carried out again During dynamic test, it is only necessary to change tentative module, repeat the above steps.

The scope of protection of the utility model is not limited thereto, and any one skilled in the art is in this practicality In the technical scope of new exposure, the change or replacement that can readily occur in, should all cover the scope of protection of the utility model it It is interior.Therefore, the scope of protection of the utility model should be defined by the protection domain that claim is defined.

Claims (7)

1. one kind closing energy-saving type parallel axes column gear transmission testing stand, it is characterised in that：Including base, guidance panel, place Manage device, motor, motor support frame, loader, loader mounting bracket, connecting shaft, rail plate, installing plate, limited block, company Connect optical axis, vertical speed reducer I, vertical speed reducer II, motor coupler, shaft coupling I, shaft coupling II, shaft coupling III, shaft coupling IVth, tentative module, the base are fixed, the guidance panel, the processor, the limited block, the rail plate, described Installing plate, the vertical speed reducer I are each attached on the base, and the tentative module is arranged on the installing plate, described Motor is arranged on by the motor support frame on the casing of the vertical speed reducer I, and passes through the motor coupler Connection, the loader are arranged on the casing on the vertical speed reducer I by the loader mounting bracket, the shaft coupling The I connection connecting shaft and the connection optical axis, the shaft coupling II connect the vertical speed reducer I and the tentative module, The shaft coupling III connects the connection optical axis and the vertical speed reducer II, the shaft coupling IV and connects the vertical speed reducer II and the tentative module, the vertical speed reducer II can slide along the rail plate of the base, and by described spacing Block prevents the position excess of stroke；This testing stand employs the vertical of the vertical speed reducer I and the vertical speed reducer II by primary structure Formula modular construction, deficiency existing for the horizontal type structure of existing testing stand is overcome, the gear of different drive ratios is tested When, only it need to change the tentative module.

2. closing energy-saving type parallel axes column gear transmission testing stand according to claim 1, it is characterised in that described vertical Formula decelerator I and the vertical speed reducer II are two identical one-level straight-tooth wheel decelerators, gearratio 1:1, it is described Vertical speed reducer I includes gear shaft I and gear shaft II, and the vertical speed reducer II includes gear shaft III and gear shaft IV.

3. closing energy-saving type parallel axes column gear transmission testing stand according to claim 2, it is characterised in that described to add Carry device and be arranged on the vertical deceleration between the gear shaft I and the connecting shaft, and by the loader mounting bracket On device I, the loader makes the connecting shaft and the connection optical axis produce relatively described gear shaft I and turn to opposite moment of torsion, The tentative module is applied and loaded.

4. closing energy-saving type parallel axes column gear transmission testing stand according to claim 1, it is characterised in that the examination It is solid including corner fixed disk, screw slider, experiment gear I, chamber gear shaft I, experiment gear II, casing, shaft end to test module Dead axle bearing, sensor I, experiment gear III, sensor II, chamber gear shaft II, experiment gear IV, chamber jackshaft, Leading screw, the fixed handle of rotation, the experiment gear I and the experiment gear IV are installed on the chamber jackshaft, the examination Test gear II be installed on the chamber gear shaft I, it is described experiment gear III be installed on the chamber gear shaft II, the examination Tryoff gear shaft I is supported in the casing and the shaft end fixed bearing block with the chamber gear shaft II, the experiment Case jackshaft is located in the screw slider.

5. closing energy-saving type parallel axes column gear transmission testing stand according to claim 4, it is characterised in that rotate institute State the fixed handle of rotation and the leading screw drives the screw slider movement, adjust the experiment gear I and the experiment gear II meshed center distance, and the experiment gear III and the experiment meshed center distance of gear IV, and fixed by the corner The rational position of the screw slider is fixed for disk and the rotation fixed handle, with gear during suitable different centre-to-centre spacing Performance test.

6. closing energy-saving type parallel axes column gear transmission testing stand according to claim 4, it is characterised in that the biography Sensor I is arranged on the input side of the experiment gear IV, and the motion and kinetic parameter to the experiment gear IV are acquired, institute The outlet side that sensor II is arranged on the experiment gear III is stated, the motion and kinetic parameter to the experiment gear III are adopted Collection；The data that the processor collects to the sensor I and the sensor II are handled, and the data that will be treated Shown by the guidance panel, the guidance panel simultaneously with the loader, the sensor I and the sensor II, institute Motor communication is stated, realizes parameter setting.

7. the closing energy-saving type parallel axes column gear transmission testing stand according to claim 2 or 4, it is characterised in that institute State motor to connect by the motor coupler and the gear shaft I, the loader is located at the gear shaft I and described Between connecting shaft, the connecting shaft and the connection optical axis are connected by the shaft coupling I, the connection optical axis and the gear Axle III is connected by the shaft coupling III, the gear shaft II is connected with the chamber gear shaft I by the shaft coupling II, The gear shaft IV is connected with the chamber gear shaft II by the shaft coupling IV, and the torque that the loader is exported is defeated The gear shaft I is returned to, forms a loop, the power output of the motor is only used for supplementing and rubbed in loop Wear consumption.