CN106066241B - The measuring device of device of spring stiffness coefficient - Google Patents

Abstract

A kind of measuring device of device of spring stiffness coefficient, including stent and testboard, measuring device further includes linear motor, link block, force snesor, spring bearer plate, spring bearer plate guide rod and displacement sensor, the output shaft of linear motor and the upper end of link block connect, link block can slide up and down to rack-mount, the lower end of link block is connect with force snesor, force snesor is connect with spring bearer plate, the lower end installation spring bearer plate guide rod of spring bearer plate, guide rod is located at the top of testboard, the lower section installation displacement sensor of testboard, the mandril of displacement sensor passes through testboard, mandril is located at the underface of spring bearer plate guide rod, it is the test station of spring to be tested between spring bearer plate and testboard, spring bearer plate guide rod, mandril above testboard is located at the middle part of spring to be tested.The present invention provides a kind of measuring device of higher, the easy to operate device of spring stiffness coefficient of precision.

Description

The measuring device of device of spring stiffness coefficient

Technical field

The present invention relates to a kind of measuring devices of device of spring stiffness coefficient.

Background technology

The measuring device of existing device of spring stiffness coefficient, the Chinese utility model such as Patent No. 201120431398.6 are special Profit discloses a kind of measuring device of spring stiffness coefficient, is mainly used in big, special secondary school universities and colleges and middle and primary schools' experimental teaching.It is containing electricity Sub- balance, stent, graduated scale, cross bar, fixed screw, light spring, counterweight.With graduated scale, the fixed spiral shell of cross bar on stent Silk is stuck on stent, and light spring is hung on cross bar, counterweight is hung below spring, counterweight is placed on scales/electronic balance weighing disk.The spring Stiffness factor measuring instrument, changes the elongation of spring by the height and position for changing cross bar, and electronic balance record acts on spring Power variable quantity, device of spring stiffness coefficient is acquired by Hooke's law.Existing technological deficiency：Precision is relatively low, troublesome in poeration, intelligence Change degree is relatively low.

Invention content

In order to overcome the shortcomings of that the precision of the measurement method of existing device of spring stiffness coefficient is relatively low, troublesome in poeration, the present invention carries For a kind of measuring device of higher, the easy to operate device of spring stiffness coefficient of precision.

The technical solution adopted by the present invention to solve the technical problems is：

A kind of measuring device of device of spring stiffness coefficient, including stent and testboard, the measuring device further includes straight-line electric Machine, link block, force snesor, spring bearer plate, spring bearer plate guide rod and displacement sensor, the output shaft of the linear motor with The upper end connection of link block, the link block can slide up and down to rack-mount, lower end and the power sensing of the link block Device connects, and the force snesor is connect with spring bearer plate, and the spring bearer plate guide rod, institute are installed in the lower end of the spring bearer plate State the top that guide rod is located at the testboard, the lower section installation institute displacement sensors of the testboard, the displacement sensing The mandril of device passes through the testboard, and the mandril is located at the underface of the spring bearer plate guide rod, the spring bearer plate and It is the test station of spring to be tested between testboard, the spring bearer plate guide rod, the mandril above testboard are located at The middle part of the spring to be tested.

Further, institute's displacement sensors are digimatic micrometer, and the digimatic micrometer passes through displacement sensor fixed frame It is fixed on stent.

Further, spring guide ring fixed frame is set on the testboard, and spring guide ring is fixed on the spring and leads On ring fixed frame, the lower end of the spring to be tested is located in the spring guide ring.

Further, the link block is fixedly connected with a slide block, and the sliding block is slideably sleeved in the linear guide, institute It is rack-mount to state the linear guide.

The linear motor is mounted on linear motor fixed frame, and the linear motor fixed frame is rack-mount, institute The output shaft for stating linear motor is connect with linear motor sliding block, and the linear motor sliding block is connect with the upper end of the link block.

The present invention technical concept be：Compression mechanism compressed spring is driven using linear motor, is provided in compression mechanism Force snesor and digimatic micrometer can measure the stress and deformation quantity of spring in real time.

Beneficial effects of the present invention are mainly manifested in：Precision is higher, easy to operate, intelligence degree is higher.

Description of the drawings

Fig. 1 is the schematic diagram of the measuring device of device of spring stiffness coefficient.

Fig. 2 is the partial enlarged view of test station.

Specific embodiment

The invention will be further described below in conjunction with the accompanying drawings.

Referring to Figures 1 and 2, a kind of measuring device of device of spring stiffness coefficient, it is described to measure dress including stent and testboard 17 It puts and further includes linear motor 1, link block 4, force snesor 9, spring bearer plate 10, spring bearer plate guide rod 11 and displacement sensor 14, the output shaft of the linear motor 1 is connect with the upper end of link block 4, and the link block 4 can slide up and down to mounted on stent On, the lower end of the link block 4 is connect with force snesor 9, and the force snesor 9 is connect with spring bearer plate 10, the spring pressure The spring bearer plate guide rod 11 is installed in the lower end of plate 10, and the guide rod 11 is located at the top of the testboard 17, the survey The lower section installation institute displacement sensors 14 of test stand 17, the mandril of institute's displacement sensors 14 passes through the testboard 17, described Mandril is located at the underface of the spring bearer plate guide rod 11, is spring to be tested between the spring bearer plate 10 and testboard 17 Test station, the spring bearer plate guide rod 11, the mandril above testboard are located at the middle part of the spring to be tested.

Further, institute's displacement sensors 14 are digimatic micrometer, and the digimatic micrometer is fixed by displacement sensor Frame 13 is fixed on stent.

Further, spring guide ring fixed frame 16 is set on the testboard 17, and spring guide ring 15 is fixed on described On spring guide ring fixed frame 16, the lower end of the spring to be tested is located in the spring guide ring 15.

Further, the link block 4 is fixedly connected with sliding block 8, and the sliding block 8 is slideably sleeved on the linear guide 7 On, the linear guide 7 is rack-mount.

The linear motor 1 is mounted on linear motor fixed frame 2, and the linear motor fixed frame 2 is rack-mount, The output shaft of the linear motor 1 is connect with linear motor sliding block 3, the upper end of the linear motor sliding block 3 and the link block Connection.

The stent includes pedestal 6 and vertical plate 5.

In the present embodiment, compression mechanism is by pedestal 6, and vertical plate 5, linear motor 1, linear motor sliding block 3, linear motor is solid Determine frame 2, the linear guide 7, straight-line guide rail slide block 8, motor and force snesor link block 4, force snesor 9, spring bearer plate 10, spring Guide ring 15, spring guide ring fixed frame 16, spring bearer plate guide rod 11, displacement sensor 14, displacement sensor fixed frame 13, The compositions such as displacement sensor mandril 12, testboard 17.

Spring guide ring 15 play the guiding role in compressed spring, needs to match with tested spring.

Intelligent measuring systems are provided with, that is, control show case, control 1 step motion of linear motor, while acquire power sensing The numerical value of device 9 and displacement sensor 14 (digimatic micrometer), and the stiffness factor of tested spring is calculated automatically.

Control show case is provided with keyboard, controller, memory, liquid crystal display and communication interface.Step motion control linear motor Movement, spring stepping are compressed, 100 groups of data of every group of test, compress bullet per 100 microns (10 millimeters of total kilometres) acquisition is grown step by step The pressure of spring and the deformation quantity of spring calculate the stiffness factor of spring, are sent to liquid crystal screen display automatically, have manual measurement With two kinds of operating modes of automatic measurement.

Intelligent test system carries data storage function, can store every group of 100 test datas and automatic calculating spring strength Spend coefficient；With data query function, any one test data of 20 groups of test datas can be inquired；It is connect with computer communication Mouth and software can complete data upload.

The course of work of the present embodiment is：

1st, first spring guide ring fixed frame is placed on testboard, then puts spring to be measured and spring guide ring together It puts in spring guide ring fixed frame.

2nd, it adjusts linear motor by intelligent test system to move downward, spring bearer plate is made to compress spring to be measured, until bullet Spring pressing plate guide rod and displacement sensor ejector pin contact, at this time the numerical value on force snesor and displacement sensor start to change.

3rd, it adjusts linear motor by intelligent test system to move downward by fixed step size (20 microns/step), often moves one Step, intelligent test system acquires the numerical value on force snesor and displacement sensor, and is sent in memory and stores, every group of test 100 groups of data, after test, intelligent test system calculates the stiffness factor of spring to be measured automatically, and is sent on liquid crystal display Display.Meanwhile intelligent test system driving linear motor moves upwards, and returns to initial test position, waits for test next time.

Claims (6)

1. a kind of measuring device of device of spring stiffness coefficient, including stent and testboard, it is characterised in that：The measuring device is also wrapped Linear motor, link block, force snesor, spring bearer plate, spring bearer plate guide rod and displacement sensor are included, the linear motor The upper end of output shaft and link block connects, and the link block can slide up and down to rack-mount, the lower end of the link block It is connect with force snesor, the force snesor is connect with spring bearer plate, and the spring bearer plate is installed in the lower end of the spring bearer plate Guide rod, the guide rod are located at the top of the testboard, and the lower section installation institute displacement sensors of the testboard are described The mandril of displacement sensor passes through the testboard, and the mandril is located at the underface of the spring bearer plate guide rod, the bullet It is the test station of spring to be tested between spring pressing plate and testboard, the spring bearer plate guide rod, above testboard Mandril is located at the middle part of the spring to be tested.

2. the measuring device of device of spring stiffness coefficient as described in claim 1, it is characterised in that：Institute's displacement sensors are digital display Micrometer, the digimatic micrometer are fixed on by displacement sensor fixed frame on stent.

3. the measuring device of device of spring stiffness coefficient as claimed in claim 1 or 2, it is characterised in that：It is set on the testboard Spring guide ring fixed frame, spring guide ring are fixed on the spring guide ring fixed frame, the lower end of the spring to be tested In the spring guide ring.

4. the measuring device of device of spring stiffness coefficient as claimed in claim 1 or 2, it is characterised in that：The link block and sliding block It is fixedly connected, the sliding block is slideably sleeved in the linear guide, and the linear guide is rack-mount.

5. the measuring device of device of spring stiffness coefficient as claimed in claim 1 or 2, it is characterised in that：The linear motor installation On linear motor fixed frame, the linear motor fixed frame is rack-mount, the output shaft and straight line of the linear motor Motor sliding block connects, and the linear motor sliding block is connect with the upper end of the link block.

6. the measuring method that a kind of measuring device of device of spring stiffness coefficient as described in claim 1 is realized, it is characterised in that：Institute Measuring method is stated to include the following steps：

1), first spring guide ring fixed frame is placed on testboard, then places spring to be measured and spring guide ring together Into spring guide ring fixed frame；

2), linear motor is adjusted by intelligent test system to move downward, spring bearer plate is made to compress spring to be measured, until spring pressure Plate guide rod and displacement sensor ejector pin contact, at this time the numerical value on force snesor and displacement sensor start to change；

3) it, adjusts linear motor by intelligent test system to move downward by fixed step size, often fortune moves a step, intelligent test system The numerical value on force snesor and displacement sensor is acquired, and is sent in memory and stores, 100 groups of data of every group of test, test knot Shu Hou, intelligent test system calculate the stiffness factor of spring to be measured automatically, and are sent to liquid crystal screen display；Meanwhile intelligent testing Test system driving linear motor moves upwards, and returns to initial test position, waits for test next time.