This machine is suitable for testing the 'load stroke resistance' curves of various buttons, switches, and PIN pins. Through a computer analysis system, it can accurately measure the corresponding changes in the load and stroke of the tested object, and can accurately control the automatic testing of the machine's position, load and stroke, testing speed, set times, and pause time. It can also set groups based on the same test object for easy comparison. During the experiment, all curve graphs are automatically generated This machine uses servo motors and Windows window control system, with simple and convenient operation, and all data can be stored. It is definitely a reliable high-performance measuring instrument.



Scope of application:


Machine specifications:

Product Model	JK-5000
Drive section	watch forService motor
transmission mechanism	Ball screw welding
Maximum load-bearing test weight	50Kgf
Maximum Test Journey	150mm
XMaximum range of directional movement	400mm
YMaximum range of directional movement	250mm
X/YMaximum Movement Speed in Direction	10000mm/min
ZMaximum measurement speed of direction	1500mm/min(1-1.5Can test one point in seconds)
Minimum fine-tuning distance	0.01mm
Machine dimensions	800mmX600mmX900mm
Net Weight	120Kg
Machine power supply	AC220V
Control system size	450mmX560mmX200mm
Net weight of control system	0.01gor0.1gf
Load element	2Kgfor5Kgfor10Kgf(precision0.03‰FS)
Minimum reading value of load element	0.01g
Probe specifications	Diameter corresponding to a single sensor2、4、6、8The10mmone each

structural composition
The control system of this machine consists of an industrial computer, a highly integrated microcontroller, and a servo system. This control system is accurate, efficient, and highly integrated, with a maximum acquisition frequency of 50000Hz, achieving the goal of precise and rapid detection. It is easy to operate and has integrated a micro ohm measurement module into it, eliminating unnecessary expenses for purchasing a separate micro ohm testing machine.

test project
1. OF/PT peak point 1 load value (off) 2, BF/BT valley point 1 load value (off)
3、Cf/Cr ClickForce/Rate 4、Cf/Cr2 ClickForce/Rate2
5. MF/MT peak point 1 load value (back) 6, RF/RT valley point 1 load value (back):
7. IMax maximum load value (off) 8, rMax maximum load value (back):
9. Pk2 peak point 2 load value (off) 10, BT2 valley point 2 load value (off)
11. RPk2 peak point 2 load value (back) 12, rBT2 valley point 2 load value (back):
13. Measure the load value for L/D1 trip 1 (go) 14, measure the load value for L/D2 trip 2 (go)
15. Measure the load value for L/D3 trip 3 (go) 16, measure the load value for L/D4 trip 4 (go)
17. Measure the load value for trip 5 of L/D5 (go) 18, measure the load value for trip 1 of rL/D1 (return)
19. RL/D2 stroke 2 load value measurement (return) 20, rL/D3 stroke 3 load value measurement (return)
21. Measure the load value for trip 4 of rL/D4 (back) 22. Measure the load value for trip 5 of rL/D5 (back)
23. D/L1 load 1 measurement stroke value (go) 24. D/L2 load 2 measurement stroke value (go)
25. D/L3 load 3 measurement stroke value (go) 26. D/L4 load 4 measurement stroke value (go)
27. D/L5 load 5 measurement stroke value (off) 28. rD/L1 load 1 measurement stroke value (back)
29. rD/L2 load 2 measurement stroke value (back) 30. rD/L3 load 3 measurement stroke value (back)
31. rD/L4 load 4 measurement of travel value (back) 32. rD/L5 load 5 measurement of travel value (back)
33. Measure the resistance value of R/D1 stroke 1 (go) 34. Measure the resistance value of R/D2 stroke 2 (go)
35. Measure resistance value (return) for stroke 1 of rR/D1. 36. Measure resistance value (return) for stroke 2 of rR/D2
37. Measure the resistance value of R/L1 load 1 (go) 38. Measure the resistance value of R/L2 load 2 (go)
39. Measure the resistance value of rR/L1 load 1 (back) 40. Measure the resistance value of rR/L2 load 2 (back)
41. LD/R1 resistor 1 measures the load stroke (go) 42. LD/R2 resistor 2 measures the load stroke (go)
43. LD/R3 resistor 3 measures load stroke (go) 44. rLD/R1 resistor 1 measures load stroke (go)
45. rLD/R2 resistor 2 measures load stroke (return) 46. rLD/R3 resistor 3 measures load stroke (return)
47. Measure the load travel of LD/OnR1 conduction point 1 (go)
48. LD/OnR2 conduction point 2 load travel measurement (go)
49. LD/OffR1 disconnection point 1 measures the load travel (back)
50. LD/OffR2 disconnection point 2 load travel measurement (return)
51. RES contact resistance (off) 52. LD/RES contact load stroke (back)
53. MD switch button differential value MD 54, InL initial load value
55. Minimum resistance value of Rmin 56. Maximum travel value of TT
57. Load value when TTF/TT is pressed to the bottom (go) 58. Load value when rTTF/rTT is pressed to the bottom (go)
59. OT overtravel value 60. FP input value
61. Position of OP center hole 62. TTP full stroke position
63. RP release position 64. Obtain different slopes according to customer requirements

control system
The control system of this machine consists of an industrial computer, a highly integrated microcontroller, and a servo system. This control system is accurate, efficient, and highly integrated. Communication between the upper and lower computers can be completed through network cables, achieving precise detection. The operation is simple and convenient, and the micro ohm measurement module has been integrated into it, eliminating unnecessary expenses for purchasing a separate micro ohm testing machine.

Machine characteristics
◆ You can input the X and Y axis coordinates freely, and the machine will automatically move for position testing.
◆ It can input the maximum test travel and load, and the computer automatically controls and tests it.
◆ The load can be set, and when the load value reaches, the machine can pause or rotate.
◆ The travel can be set, and when the travel value is reached, the machine can pause or rotate.
◆ Can directly test and draw the graph of each travel point (0.01mm) and load.
Each measurement graph can be traced by a crosshair cursor to determine the corresponding load and travel values, with a minimum resolution of 0.01mm.
◆ Can print and store graphics (load stroke curve chart, life curve chart, inspection report).
The test data is stored on the hard drive (each piece of data can be stored for an unlimited number of times).
The testing conditions are set by the computer screen (including test load, travel, speed, frequency, pause time, etc.).
The header content of the inspection report can be modified at any time (in both Chinese and English).
The inspection report can be converted to Excel for editing or directly output through the network

Home page interface

Test Interface


Runtime Interface