A kind of P grades of locking and the torque test platform of unlock
Technical field
Moment test device technical field is the utility model is related to, is specially the torque test of a kind of P grades of locking and unlock
Platform.
Background technology
Torque test platform machinery field be it is very more, the utilization of automobile industry be more shaft it
Between junction, normally travelled to automobile, it is necessary to handle the scope of torque well, a kind of new car out will be to this respect
Experiment repeatedly is carried out, is avoided because of the not good enough of data acquisition, and causes not right accident, so designing a kind of P grades of lock
Only and unlock torque test platform be necessary.
Utility model content
The purpose of this utility model is to provide a kind of P grades of locking and the torque test platform of unlock, to solve the above-mentioned back of the body
The problem of being proposed in scape technology.
In order to solve the above-mentioned technical problem, the utility model provides following technical solution:A kind of P grades of locking and the power of unlock
Square test platform, including gravity platform, the first fixed plate, electric rotating machine, the first driving shaft, retarder, driven shaft, differential mechanism,
Engine, support plate, the second driving shaft, gearbox, electric cabinet, control panel, display screen, the first torque sensor, the first semiaxis,
Second semiaxis, the second torque sensor, shaft, the second fixed plate, groove, storage battery and PLC controller, the gravity platform
Bottom interior wall is provided with storage battery, and the top side of the gravity platform is provided with the first fixed plate, first fixed plate
Side is provided with electric rotating machine, and the top opposite side of the gravity platform is provided with engine, and the top of the gravity platform exists
Close to engine position at the second fixed plate is installed, opened up at the top of second fixed plate it is fluted, the groove
Bottom is provided with gearbox, and differential mechanism is provided with the top center of the gravity platform, and the side of the differential mechanism is provided with
First semiaxis, one end of first semiaxis are provided with the first torque sensor, and the opposite side of the differential mechanism is provided with second
Semiaxis, one end of second semiaxis are provided with the second torque sensor, the input that the engine passes through shaft and gearbox
Axis connection, for the gearbox by the input axis connection of the second driving shaft and differential mechanism, the electric rotating machine passes through first actively
Axis is connected with retarder, and the retarder is connected with the top of gravity platform by welding, the retarder by driven shaft and
Another input axis connection of differential mechanism, the top side of the gravity platform are provided with support plate, the side of the support plate
Electric cabinet and display screen are installed, the side of the electric cabinet is provided with control panel, and the inside of the electric cabinet is provided with PLC controls
Device processed, first torque sensor are electrically connected the X0 input terminals of PLC controller, the Y0 output shafts electricity of the PLC controller
Property connection display screen, second torque sensor is electrically connected the X1 input terminals of PLC controller, the Y1 of the PLC controller
Output shaft is electrically connected display screen, and the storage battery is electrically connected electric rotating machine, and the control panel is electrically connected the first moment of torsion and passes
Sensor and the second torque sensor.
Further, the PLC controller is a kind of S7-200 controllers.
Further, the electric rotating machine is connected by bolt with the first fixed plate.
Further, the gearbox is connected by bolt with groove.
Further, the differential mechanism is connected by welding with gravity platform.
Compared with prior art, the beneficial effect that the utility model is reached is:The torque test platform, when the shape of unlock
Under state, by opening engine, shaft is driven gearbox work, so that gearbox drives the work of the second driving shaft, make differential
Device works, and drives the work of the first semiaxis and the second semiaxis, then distinguish by the first torque sensor and the second torque sensor
The moment values of the first semiaxis and the second semiaxis are measured, then moment values are passed into PLC controller, PLC controller is shown in control
Screen display, is conducive to measure the moment values under different conditions;In the state of locking, by opening electric rotating machine, make the first master
Moving axis works and by retarder, driven shaft is worked, driven shaft drives differential mechanism work, drives the first semiaxis and the second semiaxis
Work, then measure by the first torque sensor and the second torque sensor the torque of the first semiaxis and the second semiaxis respectively
Value, then moment values are passed into PLC controller, PLC controller is shown in control display screen, is conducive to measure moment values, is easy to
Record.
Brief description of the drawings
Attached drawing is used to provide a further understanding of the present invention, and a part for constitution instruction, with this practicality
New embodiment is used to explain the utility model together, does not form the limitation to the utility model.In the accompanying drawings:
Fig. 1 is the overall structure diagram of the utility model;
Fig. 2 is the overall structure diagram of the utility model;
Fig. 3 is the gravity platform internal structure schematic diagram of the utility model;
Fig. 4 is the electric cabinet internal structure schematic diagram of the utility model;
In figure:1- gravity platforms;The first fixed plates of 2-;3- electric rotating machines;The first driving shafts of 4-;5- retarders;6- is driven
Axis;7- differential mechanisms;8- engines;9- support plates;The second driving shafts of 10-;11- gearboxes;12- electric cabinets;13- control panels;14-
Display screen;The first torque sensors of 15-;The first semiaxis of 16-;The second semiaxis of 17-;The second torque sensors of 18-;19- shafts;
The second fixed plates of 20-;21- grooves;22- storage batteries;23-PLC controllers.
Embodiment
The following is a combination of the drawings in the embodiments of the present utility model, and the technical scheme in the embodiment of the utility model is carried out
Clearly and completely describe, it is clear that the described embodiments are only a part of the embodiments of the utility model, rather than whole
Embodiment.Based on the embodiment in the utility model, those of ordinary skill in the art are without making creative work
All other embodiments obtained, shall fall within the protection scope of the present invention.
- 4 are please referred to Fig.1, the utility model provides a kind of technical solution:A kind of P grades of locking and the test of the torque of unlock are flat
Platform, including gravity platform 1, the first fixed plate 2, electric rotating machine 3, the first driving shaft 4, retarder 5, driven shaft 6, differential mechanism 7, hair
Motivation 8, support plate 9, the second driving shaft 10, gearbox 11, electric cabinet 12, control panel 13, display screen 14, the first torque sensor
15th, the first semiaxis 16, the second semiaxis 17, the second torque sensor 18, shaft 19, the second fixed plate 20, groove 21, storage battery 22
With PLC controller 23, the bottom interior wall of gravity platform 1 is provided with storage battery 22, and the top side of gravity platform 1 is provided with first
Fixed plate 2, the side of the first fixed plate 2 are provided with electric rotating machine 3, and the top opposite side of gravity platform 1 is provided with engine 8,
The top of gravity platform 1 is provided with the second fixed plate 20 at the position close to engine 8, and the top of the second fixed plate 20 opens up
Fluted 21, the bottom of groove 21 is provided with gearbox 11, and differential mechanism 7, differential mechanism are provided with the top center of gravity platform 1
7 side is provided with the first semiaxis 16, and one end of the first semiaxis 16 is provided with the first torque sensor 15, differential mechanism 7 it is another
Side is provided with the second semiaxis 17, and one end of the second semiaxis 17 is provided with the second torque sensor 18, engine 8 by shaft 19 with
The input axis connection of gearbox 11, gearbox 11 pass through the second driving shaft 10 and the input axis connection of differential mechanism 7, electric rotating machine 3
It is connected by the first driving shaft 4 with retarder 5, retarder 5 is connected by welding with the top of gravity platform 1, and retarder 5 passes through
Another input axis connection of driven shaft 6 and differential mechanism 7, the top side of gravity platform 1 are provided with support plate 9, support plate 9
Side is provided with electric cabinet 12 and display screen 14, and the side of electric cabinet 12 is provided with control panel 13, the inside installation of electric cabinet 12
There is PLC controller 23, the first torque sensor 15 is electrically connected the X0 input terminals of PLC controller 23, and the Y0 of PLC controller 23 is defeated
Shaft is electrically connected display screen 14, and the second torque sensor 18 is electrically connected the X1 input terminals of PLC controller 23, PLC controller
23 Y1 output shafts are electrically connected display screen 14, and storage battery 22 is electrically connected electric rotating machine 3, and control panel 13 is electrically connected first and turns round
15 and second torque sensor 18 of square sensor.
Further, PLC controller 23 is a kind of S7-200 controllers, and single band carries output and stablizes.
Further, electric rotating machine 3 is connected by bolt with the first fixed plate 2, makes to be connected firmly, while convenient dismounting.
Further, gearbox 11 is connected by bolt with groove 21, convenient installation and dismounting.
Further, differential mechanism 7 is connected by welding with gravity platform 1, makes connection more firm.
Operation principle:The top opposite side of gravity platform 1 is provided with engine 8, and the bottom of groove 21 is provided with gearbox
11, differential mechanism 7 is installed at the top center of gravity platform 1, the side of differential mechanism 7 is provided with the first semiaxis 16, the first semiaxis
16 one end is provided with the first torque sensor 15, and the opposite side of differential mechanism 7 is provided with the second semiaxis 17, and the one of the second semiaxis 17
End is provided with the second torque sensor 18, engine 8 by shaft 19 and the input axis connection of gearbox 11, electric cabinet 12 it is interior
Portion is provided with PLC controller 23, in the state of unlock, by opening engine 8, makes shaft 19 drive gearbox 11 to work,
So as to which gearbox 11 drives the second driving shaft 10 to work, differential mechanism 7 is worked, drive the work of the first semiaxis 16 and the second semiaxis 17
Make, then measure the power of the first semiaxis 16 and the second semiaxis 17 respectively by the first torque sensor 15 and the second torque sensor 18
Square value, then moment values are passed into PLC controller 23, PLC controller 23 is shown in control display screen 14, is conducive to measure difference
Moment values under state;The side of first fixed plate 2 is provided with electric rotating machine 3, and electric rotating machine 3 is by the first driving shaft 4 with subtracting
Fast device 5 connects, and retarder 5 is connected by welding with the top of gravity platform 1, and retarder 5 passes through driven shaft 6 and differential mechanism 7
Another input axis connection, is provided with differential mechanism 7 at the top center of gravity platform 1, and the side of differential mechanism 7 is provided with the first half
Axis 16, one end of the first semiaxis 16 are provided with the first torque sensor 15, and the opposite side of differential mechanism 7 is provided with the second semiaxis 17,
One end of second semiaxis 17 is provided with the second torque sensor 18, and engine 8 is connected by the input shaft of shaft 19 and gearbox 11
Connect, the inside of electric cabinet 12 is provided with PLC controller 23, in the state of locking, by opening electric rotating machine 3, makes the first master
Moving axis 4 works and by retarder 5, driven shaft 6 is worked, driven shaft 6 drives differential mechanism 7 to work, and drives 16 He of the first semiaxis
The work of second semiaxis 17, then 16 He of the first semiaxis is measured by the first torque sensor 15 and the second torque sensor 18 respectively
The moment values of second semiaxis 17, then moment values are passed into PLC controller 23, PLC controller 23 is shown in control display screen 14,
Be conducive to measure moment values, easy to record.
Finally it should be noted that:The above descriptions are merely preferred embodiments of the present invention, is not limited to this
Utility model, although the utility model is described in detail with reference to the foregoing embodiments, for those skilled in the art
For, it can still modify the technical solution described in foregoing embodiments, or to which part technical characteristic
Carry out equivalent substitution.Where within the spirit and principles of the present invention, any modification, equivalent replacement, improvement and so on,
It should be included within the scope of protection of this utility model.