CN207457372U - A kind of life-span tester of manual impulsator - Google Patents

Abstract

The utility model discloses a kind of life-span testers of manual impulsator, and including test platform, driving mechanism and display, test platform is used for fixed manual impulse generator；Driving mechanism is installed on test platform, and with the hand traverse axis connection of manual impulsator, for hand shaft to be driven to rotate；Display is connected with manual impulsator, for showing the pulse signal of manual impulsator generation.During using the life-span tester, tester only needs manual impulsator being connected with test platform and driving mechanism, reduces the labor intensity of tester；By driving mechanism hand shaft is driven to rotate, when can be to avoid manual drive, damage manual impulsator when exerting a force inaccurate；The pulse signal that manual impulsator generates is shown in display, and tester can be facilitated intuitively to judge whether manual impulsator works normal by the situation of change of pulse signal, be conducive to improve the accuracy of test result.

Description

A kind of life-span tester of manual impulsator

Technical field

Detection device technical field more particularly to a kind of manual impulsator the utility model is related to impulse generator Life-span tester.

Background technology

Manual impulsator is also referred to as Manual pulse generator, hand arteries and veins, electronic hand wheel or CNC controller etc..Manual arteries and veins It rushes generator and is mainly used for the zero-bit correction of numerically-controlled machine tool, printing machinery etc. and signal segmentation.When handwheel rotates, encoder production The raw and corresponding signal of hand wheel movements, selectes coordinate by digital control system and coordinate is positioned.

Manual impulsator is tested after the completion of production, it is necessary to be used for the service life, to ensure that manual pulse is sent out The quality of raw device.In the prior art, generally by the hand shaft of manual rotation, the service life of manual impulsator is tested. This test mode, on the one hand, need to expend a large amount of manpowers, add the working strength of tester；On the other hand, manually survey Operating force bad control during examination, is easily damaged manual impulsator, and test result is inaccurate.

Utility model content

The purpose of this utility model is that proposing a kind of life-span tester of manual impulsator, reduce tester's Working strength, test result are accurate.

For this purpose, the utility model uses following technical scheme：

A kind of life-span tester of manual impulsator, including：

Test platform, for fixed manual impulse generator；

Driving mechanism, is installed on the test platform, and with the hand traverse axis connection of the manual impulsator, be used for The hand shaft is driven to rotate；

Display is connected with the manual impulsator, for showing the pulse of the manual impulsator generation Signal.

Wherein, the driving mechanism includes driving motor and connecting pin, the output shaft of the driving motor and the connection End connection, the connecting pin are provided with connecting hole, and the connecting hole coordinates with the hand shaft.

Wherein, the center of the output shaft and the center of rotation of the hand shaft are concentric, the connecting hole with it is described defeated Shaft eccentric setting.

Wherein, the test platform is provided with riser, and the riser has been horizontally disposed with supporting table, and the driving motor is set In in the supporting table, and the output shaft of the driving motor passes through the supporting table.

Wherein, the supporting table can be slided up and down along the riser, and passed through latch assembly and fixed with the riser.

Wherein, in both the supporting table and the riser, any one is vertically provided with slide, another setting There is the sliding slot with slide cooperation.

Wherein, the latch assembly is active grab, and one end of the active grab is connected with the riser, the other end and The supporting table connection.

Wherein, the display sets the lower section with the test platform.

Wherein, the display is provided with control button, for controlling the start and stop of the driving mechanism.

Advantageous effect：The utility model provides a kind of life-span tester of manual impulsator, including test platform, Driving mechanism and display, test platform are used for fixed manual impulse generator；Driving mechanism is installed on the test platform, and With the hand traverse axis connection of the manual impulsator, for the hand shaft to be driven to rotate；Display with it is described manually Impulse generator connects, for showing the pulse signal of the manual impulsator generation.During using the life-span tester, survey Examination personnel only need to fix manual impulsator and test platform, and hand shaft is connected with driving mechanism, drop The low labor intensity of tester；By driving mechanism hand shaft is driven to rotate, when can be to avoid manual drive, because of force It is inaccurate and damage manual impulsator, ensure the accuracy of test result；The pulse signal that manual impulsator generates It is shown in display, tester can be facilitated intuitively to judge manual impulsator by the situation of change of pulse signal Whether work is normal, is conducive to improve the accuracy of test result.

Description of the drawings

Fig. 1 is the front view of the life-span tester of manual impulsator provided by the utility model；

Fig. 2 is the structure diagram one of the life-span tester of manual impulsator provided by the utility model；

Fig. 3 is the partial enlarged view at A in Fig. 2；

Fig. 4 is the side view of the life-span tester of manual impulsator provided by the utility model；

Fig. 5 is the structure diagram two of the life-span tester of manual impulsator provided by the utility model.

Wherein：

1st, test platform；11st, riser；111st, slide；12nd, supporting table；121st, sliding slot；

2nd, driving mechanism；21st, driving motor；22nd, connecting pin；221st, connecting hole；

3rd, active grab；

4th, display；41st, control button；42nd, display area.

Specific embodiment

The technical issues of to solve the utility model, the technical solution used and the technique effect reached are clearer, Further illustrate the technical solution of the utility model below with reference to the accompanying drawings and specific embodiments.

A kind of life-span tester of manual impulsator is present embodiments provided, as Figure 1-Figure 5, including testing, Driving mechanism 2 and display 4, manual impulsator to be detected are placed on test platform 1；It is provided on test platform 1 Riser 11 and supporting table 12, riser 11 are vertically arranged, and supporting table 12 is horizontally disposed and is connected with riser 11, and driving mechanism 2 is set In the riser 11 placed vertically and horizontally disposed supporting table 12 can be provided in supporting table 12, on test platform 1, support Platform 12 is connected with riser 11, driving mechanism 2 and the hand traverse axis connection of manual impulsator, for hand shaft to be driven to turn It is dynamic, so that manual impulsator generates pulse signal；Manual impulsator is connected with display 4, and passes through display 4 Show the pulse signal generated.

During test, tester only needs to fix manual impulsator and test platform 1, and by hand shaft with driving Motivation structure 2 connects, and reduces the labor intensity of tester；By driving mechanism 2 hand shaft is driven to rotate, can kept away When manpower-free drives, manual impulsator is damaged due to force is inaccurate, ensures the accuracy of test result；Manual pulse hair The pulse signal that raw device generates display in display 4, can facilitate variation feelings of the tester intuitively by pulse signal Condition judges whether manual impulsator work is normal, so as to detect the service life of manual impulsator, is conducive to carry The accuracy of high test result.

Specifically, as described in Figure 2, driving mechanism 2 includes driving motor 21 and connecting pin 22, and driving motor 21 is arranged at In supporting table 12, and the output shaft of driving motor 21 by top through supporting table 12, supporting table 12 can with support driving mechanism 2, Driving mechanism 2 is avoided to apply excessive pressure to manual impulsator.The output shaft of driving motor 21 is connected with connecting pin 22, Connecting pin 22 is provided with connecting hole 221, and connecting hole 221 coordinates with hand shaft.Before test, manual impulsator is put Be placed on test platform 1 so that hand shaft is passed through by the lower section of connecting hole 221, afterwards can by manual impulsator with Test platform 1 is fixed, and when being rotated to avoid hand shaft, manual impulsator position changes, so as to avoid influencing surveying Examination.

As shown in figure 3, since the hand shaft on manual impulsator is inclined generally with the center of manual impulsator The heart is set, and therefore, the center of the output shaft of driving motor and the center of rotation of hand shaft are concentric, and connecting hole 221 and driving The output shaft eccentric setting of motor 21.

For convenience of handling manual impulsator, supporting table 12 can be moved up and down along riser 11, so as to drive driving machine Structure 2 is moved up and down with respect to test platform 1, before test, can supporting table 12 be raised above a distance, to install manual pulse Generator reserves enough installation spaces；It, can be by supporting table after manual impulsator and 1 position of test platform are fixed 12 move down certain distance so that and the hand shaft of manual impulsator is stretched into connecting hole 221, when ensureing test, hand Rocking-turn axis will not depart from connecting pin 22；Afterwards, supporting table 12 and the position of riser 11 are fixed by latch assembly.

Specifically, as shown in figure 4, riser 11 is vertically provided with slide 111, supporting table 12 is provided with and slide The sliding slot 121 of 111 cooperations, can be realized by the cooperation of sliding slot 121 and slide 111 between driving motor 21 and test platform 1 The adjustment of distance.

It is more steady to move supporting table 12, two slides 111 can be provided on riser 11, corresponding, support It is set on platform 12 there are two sliding slot 121, sliding slot 121 to be located at the both ends of supporting table 12, so that 12 uniform force of supporting table, surely It is fixed.

Certainly, the quantity of slide 111 may be set to be multiple, and particular number can determine according to actual needs.Slide 111 can also be arranged in supporting table 12, corresponding, and riser 11 is provided with sliding slot 121, can also realize that supporting table 12 is opposed Plate 11 slides up and down.

In the present embodiment, latch assembly can be active grab 3, and one end of active grab 3 is connected with riser 11, the other end It is connected with supporting table 12.Riser 11 and 12 relative position of supporting table can quickly be realized by the spanner for moving active grab 3 Locking or unlock, facilitate tester to adjust the position of supporting table 12.

To make the structure of life-span tester compacter, conveniently move, in the present embodiment, display 4 can be arranged on survey Try the lower section of platform 1.

Display 4 is provided with display area 42 and control button 41, and display area 42 is used in real test process manually The pulse signal that impulse generator generates, tester to be facilitated to observe or is recorded；Control button 41 can be with driving motor 21 Connection, for controlling the start and stop of driving mechanism 2, so as to which tester be facilitated to carry out phase when observing pulse signal appearance exception The operation answered.

More than content is only the preferred embodiment of the utility model, for those of ordinary skill in the art, according to this reality With new thought, there will be changes, this specification content should not be construed as in specific embodiments and applications Limitation to the utility model.

Claims (9)

1. a kind of life-span tester of manual impulsator, which is characterized in that including：

Test platform (1), for fixed manual impulse generator；

Driving mechanism (2), is installed on the test platform (1), and with the hand traverse axis connection of the manual impulsator, use It is rotated in driving the hand shaft；

Display (4), is connected with the manual impulsator, for showing that the pulse that the manual impulsator generates is believed Number.

2. the life-span tester of manual impulsator as described in claim 1, which is characterized in that the driving mechanism (2) Including driving motor (21) and connecting pin (22), the output shaft of the driving motor (21) is connected with the connecting pin (22), institute It states connecting pin (22) and is provided with connecting hole (221), the connecting hole (221) coordinates with the hand shaft.

3. the life-span tester of manual impulsator as claimed in claim 2, which is characterized in that the center of the output shaft It is concentric with the center of rotation of the hand shaft, the connecting hole (221) and the output shaft eccentric setting.

4. the life-span tester of manual impulsator as claimed in claim 2, which is characterized in that the test platform (1) Riser (11) is provided with, the riser (11) is horizontally disposed supporting table (12), and the driving motor (21) is arranged at the branch It supports on platform (12), and the output shaft of the driving motor (21) passes through the supporting table (12).

5. the life-span tester of manual impulsator as claimed in claim 4, which is characterized in that supporting table (12) energy It is enough to be slided up and down along the riser (11), and it is fixed with the riser (11) to pass through latch assembly.

6. the life-span tester of manual impulsator as claimed in claim 5, which is characterized in that the supporting table (12) and In described riser (11) the two, any one is vertically provided with slide (111), another is provided with and the slide (111) sliding slot (121) of cooperation.

7. the life-span tester of manual impulsator as claimed in claim 5, which is characterized in that the latch assembly is fast Fast clamp (3), one end of the active grab (3) are connected with the riser (11), and the other end is connected with the supporting table (12).

8. the life-span tester of the manual impulsator as any one of claim 1-7, which is characterized in that described aobvious Show that device (4) sets the lower section with the test platform (1).

9. the life-span tester of manual impulsator as claimed in claim 8, which is characterized in that the display (4) sets Control button (41) is equipped with, for controlling the start and stop of the driving mechanism (2).