CN106525478B - Corp combine-harvester torsion load test platform - Google Patents

Abstract

Corp combine-harvester torsion load test platform of the present invention, including on the platform frame body and can oscilaltion at least one wheel carrier, at least one movement drag platform on platform frame body top plate, at least one load on being slidably connected with the track on mobile drag platform tests assembly, the power source being slidably connected with the track on mobile drag platform, a left side on platform frame body top plate, right T-slot, mounted in a left side, on right T-slot and at least one fixed frame that can be moved on T-slot, track on platform frame body top plate, at least one laser scribe apparatus being slidably connected with track, the scalable universal shaft of the connecting flange axis of connected load load test assembly or power source and the output of tested machine, laser assisted centralising device, cooling follows system.Present invention test is reliable, and measuring accuracy is higher, and test operation is easy, can load respectively to the component in corp combine-harvester transmission system, load simultaneously, carries out normal work test, reliability test and the destructive testing of complete machine torsion load.

Description

Corp combine-harvester torsion load test platform

Technical field:

The invention belongs to agricultural machinery testing inspection fields, in particular to be that a kind of corp combine-harvester torque carries Lotus test platform.

Background technique:

In order to shorten the corp combine-harvester R&D cycle, raising product quality, especially reliability, durability must Test platform must be established in laboratory and carries out torsion load test, find out torsion load distribution when complete machine works normally, With best power source, energy consumption is reduced；Weak link is found out, is designed for equal strength, equivalent life, improves reliability；It is hidden to find out safety Suffer from, improves durability.The platform of overall test is carried out currently without corp combine-harvester torsion load.

Summary of the invention:

The purpose of the present invention is being directed to corp combine-harvester complete machine, to its left and right sidesing driving wheel axis, threshing cylinder, the ceding of Taiwan The components such as conveying cylinder, traveling wheel or crawler belt are loaded respectively, are loaded simultaneously, and are furnished with power source, carry out the examination of complete machine torsion load Test, provide that a kind of test is reliable, and measuring accuracy is higher, test operation is easy, can be carried out complete machine torsion load work normally test, The agricultural object combine harvester torsion load test platform of reliability test and destructive testing.

The object of the present invention is achieved like this:

Corp combine-harvester torsion load test platform of the present invention, including including platform frame body 1, be mounted in platform frame body Bottom plate 3 on and can oscilaltion at least one wheel carrier 2, on platform frame body top plate 4 at least one movement drag platform 5, It is slidably connected to adjust in transverse direction, longitudinal direction and short transverse to meet different tested machines from the track 6 on mobile drag platform and move At least one load on test assembly 7 of the requirement of power shaft position, the power source being slidably connected with the track 6 on mobile drag platform 8, the left T-slot 9 on platform frame body top plate, right T-slot 10, on left T-slot and right T-slot and can be on T-slot Mobile at least one fixed frame 11, the track 12 on platform frame body top plate 4 for adapting to different types, is slided with track 12 The connecting flange axis and tested machine of at least one laser scribe apparatus 13 of connection, connected load load test assembly or power source The scalable universal shaft 14 of device output, laser assisted centralising device 15, cooling follow system 16, and load on tests assembly or power Source can be adjusted in transverse direction, longitudinal direction and short transverse.

For the pedestal 22 of above-mentioned wheel carrier on the bottom plate 3 of platform frame body, the quadrangle of wheel carrier pedestal is respectively provided with electric cylinder 23, for the cylinder body of electric cylinder on pedestal, one end that piston rod stretches out cylinder body is hinged with support frame 24, the quadrangle difference of support frame Equipped with pressure sensor 25, pressure sensor is connect with support frame and roller frame respectively, and roller 27 is on roller frame, in roller Belt 28 is installed outside, different ground can be simulated by the belt of different coefficients of friction.

The pedestal 5-1 of above-mentioned mobile drag platform is on the top plate 4 of platform frame body, equipped with track 6, electricity on pedestal 5-1 Machine 17, bearing block 18, on bearing block, one end of screw rod 19 connect with motor 17 and equipped with handle 20 screw rod 19, slides spiral shell Mother 21 connect by screw pair with screw rod 19, when load on test on the track that assembly or power source are mounted in mobile drag platform simultaneously with Sliding nut is fixed, and load on test assembly or power source can be driven to exist by motor rotation or swinging handle rotary screw rod It is moved on track, realizes load on test assembly or power source lateral adjustments, assembly or power source are tested by load on Longitudinal motor rotation or swinging handle rotary screw rod planker can be driven to move in orbit, realize load on test assembly Vertical adjustment tests the short transverse motor rotation of assembly or power source by load on or swinging handle rotary screw rod can be with It drives support plate to move on stabiliser bar, realizes that load on test assembly short transverse is adjusted.

The pedestal 29 of above-mentioned load on test assembly 7 is slidably connected with mobile drag platform track 6, and rail is housed on pedestal 29 Road 30, planker 31 are slidably connected with track 30, motor 32 on the pedestal 29, the both ends of screw rod 33 respectively with motor 32 and planker 31 connections are located at motor side equipped with handle 34 in screw rod 33, stabiliser bar 35 are housed in the quadrangle of planker 31, in the intermediate dress of planker Motor 36, the both ends of screw rod 37 are connect with motor 36 and support plate 38 respectively, and support plate 38 is slidably connected with stabiliser bar 35, in silk Bar 37 is located at motor side and handle 39 is housed, and brake 40, torque speed sensor 41, bearing block 42 is housed, even in support plate 38 For acting flange axis 43 on the bearing block 42, brake 40, torque speed sensor 41 pass through shaft coupling between connecting flange axis 43 44 connections, pedestal and the mobile drag platform track of load on test assembly are slidably connected, and track, planker and track are housed on pedestal It being slidably connected, on pedestal, the both ends of screw rod are connect with motor and planker motor respectively, handle is housed at lead screw motor end, Planker can be driven to move in orbit by motor rotation or swinging handle rotary screw rod, realize that load on test assembly is vertical To adjusting.It is rotated by motor 36 or 39 rotary screw rod 37 of swinging handle can drive support plate to move on stabiliser bar, realized Load on is tested assembly short transverse and is adjusted.

The pedestal 45 of above-mentioned power source 8 is slidably connected with mobile drag platform track 6, and track 46, planker are housed on pedestal 45 47 are slidably connected with track 46, and on pedestal 45, the both ends of screw rod 49 are connect with motor 48 and planker 47 motor 48 respectively, Screw rod 49 is located at 48 end of motor equipped with handle 50, stabiliser bar 51 is housed in the quadrangle of planker 47, in the centre of planker 47 equipped with electricity Machine 52, the both ends of screw rod 53 are connect with motor 52 and support plate 54 respectively, and support plate 54 is slidably connected with stabiliser bar 51, in screw rod 53, which are located at 52 end of motor, is equipped with handle 55, and adjustable frequency motor 56, torque speed sensor 57, bearing block are housed in support plate 54 58, connecting flange axis 59 is on the bearing block 58, adjustable frequency motor 56, torque speed sensor 57, between connecting flange axis 59 It is connected by shaft coupling 60, is rotated by motor 48 or rotation 49 bar of silk of swinging handle 50 can drive planker 47 on track 46 It is mobile, it realizes power source vertical adjustment, is rotated by motor 52 or 55 rotary screw rod 53 of swinging handle can drive support plate 54 It is moved on stabiliser bar 51, realizes that power source short transverse is adjusted.

The left support seat 61 of above-mentioned fixed frame 11 is connect by tommyhead bolt with left T-slot 9, and right support seat 62 passes through T shape Bolt is connect with right T-slot 10, and connecting rod 65 is fixed on left support seat and right branch respectively by left pressing plate 63 and right pressing plate 64 It supports on seat, fixed frame can move on T-slot, and adjustment position adapts to different machines.

Above-mentioned laser scribe apparatus is made of support 66 and pedestal mounted linear laser head 67, support 66 and track 12 are slidably connected, and support is slidably connected with track, can move in orbit, adjust different width, adapt to different wheelspans. In wheel carrier on tested machine, adjustment laser scribe apparatus and tested machine wheel project two sidelines on the ground and draw away from same width Lead tested machine walking.

Point-like laser head 69 of the above-mentioned laser assisted centralising device by flange seat 68 and mounted in the center of flange seat forms, Need to it is middle when be mounted on load on test assembly or power source connecting flange axis flange on, assist centering.

Above-mentioned cooling recirculation system is made of heat exchanger 70, water tank 71, circulating pump 72, water inlet pipe 73, return pipe 74, is followed The water outlet of ring pump is connect by water inlet pipe 73 with the water inlet of the brake 40 of load on test assembly, load on test The water outlet of the brake 40 of assembly is connect by return pipe 74 with the water inlet of heat exchanger 70, and the water outlet of heat exchanger 70 passes through Pipeline is connect with the water inlet of water tank 71, and the water outlet of water tank 71 is connect by pipeline with the water inlet of circulating pump 72.

Above-mentioned wheel carrier is two, along platform frame body center, bilateral symmetry is distributed, and mobile drag platform is three, i.e. in wheel carrier Left side, right side and rear side are respectively distributed one, and load on test assembly is five, arranges two on the mobile drag platform in left side Two are arranged on mobile drag platform a, on right side, arranges one on the mobile drag platform of rear side, and fixed frame is two, laser scribing It is traditional thread binding to be set to two, it arranges that two load ons test assembly on the mobile drag platform in left side, is respectively intended to left driving wheel axis Load test is carried out with ceding of Taiwan conveying cylinder axis；Arrange that two load ons test assembly on the mobile drag platform on right side, respectively For carrying out load test to right driving wheel axis and lateral axial flow cylinder axis；One is arranged on the mobile drag platform of rear side, is born Lotus load test assembly is used to carry out load test to longitudinally axial flow threshing drum shaft.

The course of work:

Test prepare: adjustment left and right wheel carrier make thereon plane flushed with platform frame body top plate, adjust laser scribe apparatus and Tested machine wheel is tested machine and walks along laser rays onto left and right wheel carrier away from same width.The height for adjusting left and right wheel carrier makes to be tested The chassis of machine and fixed device are flat, adjust the position of fixed device, support rod and tested machine are fixed.By laser assisted pair Middle device is mounted on the flange of the connecting flange axis of load on test assembly or power source, needs to connect according to tested machine Axis position, the position of Load adjustment load test assembly or power source makes laser alignment be tested axis that machine needs to connect Laser assisted centralising device is removed in axle center, with the connection method of scalable universal shaft connected load load test assembly or power source The axis that the flange of blue axis and tested machine need to connect.According to the quantity for the axis that tested machine needs to connect, respective numbers are selected Load on test assembly.

The brake that assembly is tested by separately or concurrently adjusting each load on, which can obtain tested machine power axis, to be needed The load wanted, load parameter are measured by the torque and rotation speed sensor that load on tests assembly.Going up and down left and right wheel carrier can be right Traveling wheel or crawler belt are loaded, and the number of load can be measured by the pressure sensor on wheel carrier.

By the belt of different coefficients of friction outside replacement wheel carrier roller, different walking effects can be obtained.

Normal work test, reliability test can be carried out using the engine of tested machine itself.

Apparatus of the present invention are furnished with power source, can substitute engine and be tested, completing the engine of itself cannot complete Destructive testing.

The present invention can be directed to corp combine-harvester, to its left and right sidesing driving wheel axis, threshing cylinder, ceding of Taiwan conveying rolling The components such as cylinder, traveling wheel or crawler belt are loaded respectively, are loaded simultaneously, and are furnished with power source, are carried out the test of complete machine torsion load, are provided A kind of test is reliable, and measuring accuracy is higher, the complete machine torsion load of test operation simplicity work normally test, reliability test With the platform of destructive testing.

Detailed description of the invention:

Fig. 1 is schematic structural diagram of the device of the invention.

Fig. 2 is wheel carrier structure schematic diagram.

Fig. 3 is load load test assembly structure schematic diagram.

Fig. 4 is power source structural schematic diagram.

Fig. 5 is fixed rack structure schematic diagram.

Fig. 6 is laser scribe apparatus structural schematic diagram.

Fig. 7 is laser assisted centering structural schematic diagram.

Specific embodiment:

Referring to Fig. 1, Fig. 2, Fig. 3, Fig. 4, the present embodiment corp combine-harvester torsion load test platform, including platform Frame body 1, on the bottom plate 3 of platform frame body 1 can oscilaltion wheel carrier 2, the movement mounted in the top plate 4 of platform frame body 1 drags Platform 5, the load on being slidably connected with the track 6 of mobile drag platform 5 test assembly 7, are slidably connected with the track 6 of mobile drag platform 5 Power source 8, left T-slot 9, right T-slot 10 mounted in the top plate 4 of platform frame body 1 can mounted in left T-slot 9 and right T-slot 10 With the upper holder 11 for adapting to different types mobile on left T-slot 9 and right T-slot 10, mounted in the top plate 4 of platform frame body 1 Track 12, be slidably connected the laser scribe apparatus 13 that can be moved on the track 12 with track 12, connected load load test The connecting flange axis 43 of assembly 7 or power source 8 or 59 with the scalable universal shaft 14 of tested machine output shaft, laser assisted centering Device 15, cooling recirculation system 16.Load on tests assembly 7 or power source 8 can be in transverse direction, longitudinal direction and short transverse tune Section meets the requirement of different tested machine power shaft positions.

Referring to Fig. 1, the pedestal 5-1 of mobile drag platform 5 is on the top plate 4 of platform frame body 1.Equipped with track 6, electricity on pedestal Machine 17, bearing block 18.Screw rod 19 is on bearing block 18.One end of screw rod 19 connect with motor 17 and equipped with handle 20.Sliding Nut 21 is connect by screw pair with screw rod 19.When load on tests assembly 7 or power source 8 mounted in the track 6 of mobile drag platform It is upper simultaneously fixed with sliding nut 21, it is rotated by motor 17 or 20 rotary screw rod 19 of swinging handle can drive load on to test Assembly 7 or power source 8 move on track 6, realize that load on tests total 7 one-tenth or 8 lateral adjustments of power source.Mobile drag platform 5 There are three altogether, it is distributed in the left and right and rear side of wheel carrier 2.

Referring to Fig. 1, Fig. 2, the pedestal 22 of wheel carrier 2 is on the bottom plate 3 of platform frame body 1.The quadrangle of the pedestal 22 of wheel carrier 2 point It Zhuan You not electric cylinder 23.The cylinder body of electric cylinder 23 is on pedestal 22.One end that piston rod stretches out cylinder body is hinged on support frame 24 On, pass through the lifting of the flexible realization wheel carrier 2 of the piston rod of electric cylinder 23.The quadrangle of support frame 24 is respectively provided with pressure sensor 25, pressure sensor 25 is connect with support frame 24 and roller frame 26 respectively.Roller 27 is on roller frame 28.Pacify outside roller 27 Equipped with belt 28.Wheel carrier 2 is two, and along platform frame body center, bilateral symmetry is distributed.

Referring to Fig. 1, Fig. 3, the pedestal 29 and the track 6 of mobile drag platform of load on test assembly 7 are slidably connected, pedestal 29 It is upper that track 30 is housed.Planker 31 is slidably connected with track 30.Motor 32 is on pedestal 29.The both ends of screw rod 33 respectively with motor 32 and planker 31 connect.It is located at 32 end of motor equipped with handle 34 in screw rod 33, is rotated by motor 32 or swinging handle 34 rotates Screw rod 33 can drive planker 31 to move on track 30, realize that load on tests 7 vertical adjustment of assembly.The four of planker 31 Angle is equipped with stabiliser bar 35.Intermediate in planker 31 fills motor 36.The both ends of screw rod 37 are connect with motor 36 and support plate 38 respectively. Support plate 38 is slidably connected with stabiliser bar 35.It is located at 36 end of motor equipped with handle 39 in screw rod 37, rotates or shake by motor 36 39 rotary screw rod 37 of fixed handle can drive support plate 38 to move on stabiliser bar 35, realize 7 height of load on test assembly Direction is adjusted.Brake 40, torque speed sensor 41, bearing block 42 are housed in support plate 38.Connecting flange axis 43 is mounted in axis It holds on seat 42.Brake 40, torque speed sensor 41 are connected by shaft coupling 44 between connecting flange axis 43.Load on Testing assembly 7 is five, i.e., two are arranged on the mobile drag platform in left side, two is arranged on the mobile drag platform on right side, rear One is arranged on the mobile drag platform of side.

Referring to Fig. 1, Fig. 4, the pedestal 45 of power source 8 and the track 6 of mobile drag platform are slidably connected.Track is housed on pedestal 45 46.Planker 47 is slidably connected with track 46.Motor 48 is on pedestal 45.The both ends of screw rod 49 respectively with motor 48 and planker 47 Connection.It is located at 48 end of motor equipped with handle 50 in screw rod 49, is rotated by motor 48 or 50 rotary screw rod 49 of swinging handle can be with It drives planker 47 to move on track 46, realizes 8 vertical adjustment of power source.Stabiliser bar 51 is housed in the quadrangle of planker 47.It is dragging The centre of plate 47 is equipped with motor 52.The both ends of screw rod 53 are connect with motor 52 and support plate 54 respectively.Support plate 54 and stabiliser bar 51 are slidably connected.It is located at 52 end of motor equipped with handle 55 in screw rod 53, is rotated by motor 52 or 55 rotary screw rod of swinging handle 53 can drive support plate 54 to move on stabiliser bar 51, realize that 8 short transverse of power source is adjusted.Frequency conversion is housed in support plate 54 Motor 56, torque speed sensor 57, bearing block 58.Connecting flange axis 59 is on bearing block 58.Adjustable frequency motor 56 is turned round It is connected between square speed probe 57, connecting flange axis 59 by shaft coupling 60.

Referring to Fig. 1, Fig. 5, the left support seat 61 of fixed frame 11 is connect by tommyhead bolt with left T-slot 9.Right support seat 62 It is connect by tommyhead bolt with right T-slot 10, connecting rod 65 is fixed on respectively by left support seat by left pressing plate 63 and right pressing plate 64 61 and right support seat 62 on.Fixed frame 11 can move on left T-slot 9, right T-slot 10, and adjustment position adapts to different machines Device.Fixed frame 11 is two.

Referring to Fig. 1, Fig. 6, laser scribe apparatus 13 is made of support 66 and linear laser head 67, and linear laser head 67 is mounted in On support 66.Support 66 is slidably connected with track 12, can move on the track 12.Laser scribe apparatus 13 is two, is passed through The different width for adjusting two laser scribe apparatus 13, adapt to different wheelspans.In wheel carrier 2 on tested machine travel, adjust Whole laser scribe apparatus 13, away from same width, projects two sidelines on the ground and guides tested machine walking with tested machine wheel.

Referring to Fig. 1, Fig. 7, laser assisted centralising device 15 is made of flange seat 68 and point-like laser head 69,.Point-like laser First 69 be mounted in flange seat 68 center, need to it is middle when be mounted on load on test assembly 7 or power source 8 connection On the flange of flange shaft 43 or 59, centering is assisted.

Referring to Fig. 1, cooling recirculation system 16 is by heat exchanger 70, water tank 71, circulating pump 72, water inlet pipe 73,74 groups of return pipe At the water outlet of circulating pump 72 is connect by water inlet pipe 73 with the water inlet of the brake 40 of load on test assembly, load The water outlet of the brake 40 of load test assembly is connect by return pipe 74 with the water inlet of heat exchanger 70, and heat exchanger 70 goes out The mouth of a river is connect by pipeline with the water inlet of water tank 71, and the water outlet of water tank 71 is connected by the water inlet of pipeline and circulating pump 72 It connects.

Above-described embodiment is to be further described to above content of the invention, but this should not be interpreted as in the present invention The range for stating theme is only limitted to above-described embodiment.It is all to be all belonged to the scope of the present invention based on the technology that above content is realized.

Claims (10)

1. corp combine-harvester torsion load test platform, it is characterised in that including platform frame body (1), be mounted in platform frame body Bottom plate (3) on and can at least one wheel carrier (2) of oscilaltion, at least one movement on the platform frame body top plate (4) Drag platform (5) is slidably connected with the first track (6) on mobile drag platform and can adjust to meet in transverse direction, longitudinal direction and short transverse First at least one load on test assembly (7) and mobile drag platform of the requirement of the tested machine power shaft position of difference The power source (8) that track (6) is slidably connected, right T-slot (10), is mounted in left T at the left T-slot (9) on platform frame body top plate At least one fixed frame (11) of the different type of adaptation can be moved on shape slot and right T-slot and on T-slot, mounted in paralell The second track (12) on body top plate (4), at least one laser scribe apparatus (13) being slidably connected with the second track (12), even It is auxiliary to connect scalable universal shaft (14), laser that connecting flange axis and the tested machine of load on test assembly or power source export Help centralising device (15), cooling recirculation system (16).

2. corp combine-harvester torsion load test platform as described in claim 1, it is characterised in that the first of wheel carrier For pedestal (22) on the bottom plate (3) of platform frame body, the quadrangle of wheel carrier pedestal is respectively provided with electric cylinder (23), the cylinder body of electric cylinder In first base, one end that piston rod stretches out cylinder body is hinged with support frame (24), and the quadrangle of support frame is respectively provided with pressure Sensor (25), pressure sensor is connect with support frame and roller frame respectively, and roller (27) is pacified outside roller on roller frame Equipped with belt (28).

3. corp combine-harvester torsion load test platform as claimed in claim 1 or 2, it is characterised in that mobile drag platform Second base (5-1) mounted in platform frame body top plate (4) on, in second base (5-1) be equipped with the first track (6), first Motor (17), first bearing seat (18), the first screw rod (19) is in first bearing seat, one end and first of the first screw rod (19) Motor (17) connects and first handle (20) is housed, and sliding nut (21) is connect by screw pair with the first screw rod (19).

4. corp combine-harvester torsion load test platform as claimed in claim 1 or 2, it is characterised in that load on The third pedestal (29) and mobile the first track of drag platform (6) for testing assembly (7) are slidably connected, and third is housed on third pedestal (29) Track (30), the first planker (31) are slidably connected with third track (30), and the second motor (32) is mounted on third pedestal (29), the The both ends of two screw rods (33) are connect with the second motor (32) and the first planker (31) respectively, are located at the second electricity in the second screw rod (33) Generator terminal is equipped with second handle (34), the first stabiliser bar (35) is housed in the quadrangle of the first planker (31), in the centre of the first planker It fills third motor (36), the both ends of third screw rod (37) are connect with third motor (36) and support plate (38) respectively, support plate (38) it is slidably connected with the first stabiliser bar (35), is located at third motor side equipped with third handle (39), branch in third screw rod (37) Brake (40), the first torque speed sensor (41), second bearing seat (42), the first connecting flange axis are housed on fagging (38) (43) on second bearing seat (42), brake (40), the first torque speed sensor (41), the first connecting flange axis (43) Between by first shaft coupling (44) connect.

5. corp combine-harvester torsion load test platform as claimed in claim 1 or 2, it is characterised in that power source (8) the 4th pedestal (45) is slidably connected with mobile the first track of drag platform (6), and the 4th track is housed on the 4th pedestal (45) (46), the second planker (47) is slidably connected with the 4th track (46), and the 4th motor (48) is on the 4th pedestal (45), and the 4th The both ends of bar (49) are connect with the 4th motor (48) and the second planker (47) respectively, are located at the 4th motor side in the 4th screw rod (49) Equipped with the 4th handle (50), the second stabiliser bar (51) are housed in the quadrangle of the second planker (47), in the centre of the second planker (47) Equipped with the 5th motor (52), the both ends of the 5th screw rod (53) are connect with the 5th motor (52) and support plate (54) respectively, support plate (54) it is slidably connected with the second stabiliser bar (51), is located at the 5th motor (52) end equipped with the 5th handle in the 5th screw rod (53) (55), adjustable frequency motor (56), the second torque speed sensor (57), 3rd bearing seat (58) are housed in support plate (54), the Two connecting flange axis (59) are on 3rd bearing seat (58), adjustable frequency motor (56), the second torque speed sensor (57), the It is connected between two connecting flange axis (59) by second shaft coupling (60).

6. corp combine-harvester torsion load test platform as claimed in claim 1 or 2, it is characterised in that fixed frame (11) left support seat (61) is connect by tommyhead bolt with left T-slot (9), and right support seat (62) passes through tommyhead bolt and right T shape Slot (10) connection, is fixed on left support seat and right support seat for connecting rod (65) respectively by left pressing plate (63) and right pressing plate (64) On.

7. corp combine-harvester torsion load test platform as claimed in claim 1 or 2, it is characterised in that laser scribing Device is made of support (66) and pedestal mounted linear laser head (67), and support (66) and the second track (12) sliding connect It connects.

8. corp combine-harvester torsion load test platform as claimed in claim 1 or 2, it is characterised in that laser assisted Point-like laser head (69) of the centralising device by flange seat (68) and mounted in the center of flange seat forms.

9. corp combine-harvester torsion load test platform as claimed in claim 1 or 2, it is characterised in that cooling cycle System is made of heat exchanger (70), water tank (71), circulating pump (72), water inlet pipe (73), return pipe (74), the water outlet of circulating pump It is connect by water inlet pipe (73) with the water inlet of the brake (40) of load on test assembly, load on tests the system of assembly The water outlet of dynamic device (40) is connect by return pipe (74) with the water inlet of heat exchanger (70), and the water outlet of heat exchanger (70) passes through Pipeline is connect with the water inlet of water tank (71), and the water outlet of water tank (71) is connect by pipeline with the water inlet of circulating pump (72).

10. corp combine-harvester torsion load test platform as claimed in claim 1 or 2, it is characterised in that wheel carrier is Two, along platform frame body center, bilateral symmetry is distributed, mobile drag platform is three, i.e. in the left side of wheel carrier, right side and each point of rear side Cloth one, it is five that load on, which tests assembly, i.e., two is arranged on the mobile drag platform in left side, on the mobile drag platform on right side Arrangement two arranges one on the mobile drag platform of rear side, and fixed frame is two, and laser scribe apparatus is two.