CN208419929U - A kind of thickness detecting equipment - Google Patents

Abstract

The utility model testing equipment field discloses a kind of thickness detecting equipment, and including the positioning clamping component for clamping workpiece for measurement, driving positioning clamping component moves mould group, and the measurement component for measuring workpiece for measurement thickness along the XY that X, Y-direction move；Measuring component includes measurement bracket, two displacement sensors, set on the two sides for measuring on bracket and being located at workpiece for measurement thickness direction, two displacement sensor faces settings；Two the first driving units are moved for drive displacement sensor along workpiece for measurement thickness direction.The utility model realizes positioning clamping, position adjustment and the thickness measure to workpiece for measurement by positioning clamping component, the mobile mould group of XY and measurement component respectively, and the automatic measurement to thickness of workpiece to be measured is realized using contact type measurement, improve measurement efficiency, the position of workpiece for measurement can also be adjusted by the mobile mould group of XY, it realizes the measurement of multiple positions, improves measurement accuracy.

Description

A kind of thickness detecting equipment

Technical field

The utility model relates to testing equipment field more particularly to a kind of thickness detecting equipments.

Background technique

As technology develops and people are to lightening, small size pursuit, to various products and inside when processing and manufacturing The size of structural member requires to be increasingly stringenter.

Such as the keyboard shell of notebook, the requirement to its thickness is very high, and when by manual measurement thickness, detection error is not Can control, therefore be not able to satisfy its error requirements to size；And detection efficiency is lower, improves production cost.

Utility model content

The purpose of this utility model is to provide a kind of thickness detecting equipments, can be realized the automatic detection of product thickness, Detection efficiency is improved, production cost is reduced.

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

A kind of thickness detecting equipment drives the positioning to clamp including the positioning clamping component for clamping workpiece for measurement Component moves mould group, and the measurement component for measuring the workpiece for measurement thickness along the XY that X, Y-direction move；The measurement component Include:

Bracket is measured,

Two displacement sensors on the measurement bracket and are located at the two of the workpiece for measurement thickness direction Side, two institute's displacement sensors face settings；

Two the first driving units, for driving, displacement sensors are moved along the workpiece for measurement thickness direction.

Further, the positioning clamping component includes:

Positioning unit, including being set in the mobile mould group of the XY and being set to the first of workpiece for measurement thickness direction side Positioning plate is arranged and is set to the second positioning plate of the workpiece for measurement thickness direction other side with the first positioning plate face, And in the mobile mould group of the XY and for driving second positioning plate to determine along what the workpiece for measurement thickness direction moved Position cylinder, and in the mobile mould group of the XY and it is respectively arranged on first locating piece and second positioning of the X to side and Y-direction side Block；

Three clamping units, for clamping the workpiece for measurement and being set with the positioning unit around the workpiece for measurement It sets.

Further, the clamping unit includes the first clamping plate set on workpiece for measurement thickness direction side, if It is and described in the mobile mould group of the XY and the first clamping cylinder that first clamping plate can be driven to move in the horizontal direction The setting of first clamping plate face and the second clamping plate for being set to the workpiece for measurement thickness direction other side, and it is connected to described the One clamping cylinder extension end and the revolution clamping cylinder that can be moved along the workpiece for measurement thickness direction.

It further, further include the positioning support plate in the mobile mould group of the XY, the positioning clamping component is set to On the positioning support plate.

Further, the mobile mould group of the XY includes the first base station, the second base station and two on first base station A second driving unit；

One of them described second driving unit is set on first base station, for driving second base station along the side X To movement；

Another second driving unit is set on second base station, for driving the positioning clamping component along Y-direction It is mobile.

Further, first base station and second base station are marble platform.

Further, further include rack, be equipped with circumferentially distributed damper between the mobile mould group of XY and the rack.

Further, first driving unit is KK mould group.

It further, further include electronic hand wheel and controller for adjusting the workpiece for measurement position, the controller It is electrically connected to the electronic hand wheel and the mobile mould group of the XY.

It further, further include covering at outside the mobile mould group of the positioning clamping component, the XY and the measurement component Shield.

The utility model has the beneficial effects that the utility model is clamped workpiece for measurement by positioning clamping component, lead to The measurement position for crossing the mobile mould group adjustment workpiece for measurement of XY, is then measured by measuring component, uses first in measurement Driving unit drives the setting of two faces and is located at two displacement sensors of workpiece for measurement thickness direction two sides to be measured Workpiece is close, and makes two displacement sensor contact measured workpiece, then by workpiece for measurement be located in two displacement sensors it Between, it is realized by contact type measurement to the automatic measurement of thickness of workpiece to be measured, improves measurement efficiency, and can move by XY Dynamic model group adjusts the position of workpiece for measurement, realizes the measurement of multiple positions, improves measurement accuracy.

Detailed description of the invention

Fig. 1 is the structural schematic diagram of thickness measurement device described in the utility model；

Fig. 2 is the structural schematic diagram of not with protecting cover thickness measurement device in the utility model；

Fig. 3 is the structural schematic diagram of measurement component described in the utility model；

Fig. 4 is the structural schematic diagram at a visual angle of positioning clamping component described in the utility model and the mobile mould group of XY；

Fig. 5 is the structural schematic diagram of positioning clamping component described in the utility model and the mobile another visual angle of mould group XY；

Fig. 6 is the partial enlargement diagram in Fig. 4 at I；

Fig. 7 is the partial enlargement diagram in Fig. 5 at II.

In figure:

11, positioning unit；111, the first positioning plate；112, the second positioning plate；113, positioning cylinder；114, the first positioning Block；115, the second locating piece；12, clamping unit；121, the first clamping plate；122, the first clamping cylinder；123, the second clamping plate； 124, clamping cylinder is turned round；

2, the mobile mould group of XY；21, the first base station；22, the second base station；23, the second driving unit；24, sliding rail；

3, component is measured；31, bracket is measured；32, the first driving unit；33, displacement sensor；

40, rack；41, damper；42, positioning support plate；43, electronic hand wheel；44, shield；45, display screen；46, key Disk mouse mould group；47, scram button；48, start button；49, work light；

5, workpiece for measurement.

Specific embodiment

The technical issues of to solve the utility model, the technical solution of use and the technical effect that reaches are clearer, Further illustrate the technical solution of the utility model below with reference to the accompanying drawings and specific embodiments.It is understood that Specific embodiment described herein is used only for explaining the utility model, rather than the restriction to the utility model.In addition it also needs It is noted that illustrating only part relevant to the utility model for ease of description, in attached drawing and not all.

As depicted in figs. 1 and 2, a kind of thickness detecting equipment is present embodiments provided, including for clamping workpiece for measurement 5 Clamping component is positioned, drives the positioning clamping component to move mould group 2 along the XY that X, Y-direction move, and for measuring workpiece for measurement 5 The measurement component 3 of thickness.

Above-mentioned thickness detecting equipment further includes rack 40, and the mobile mould group 2 of XY is set in rack 40, and the mobile mould group 2 of XY It is equipped with circumferentially distributed damper 41 between the rack 40, the vibration in the course of work is reduced by damper 41, is guaranteed The stability of entire test process, improves measurement accuracy.Preferably, damper 41 is air-flotation type damper, if there are four, four Air-flotation type shock absorber strap is uniformly arranged around the center of 40 upper surface of rack.

Above-mentioned thickness detecting equipment further includes the electronic hand wheel 43 and controller for adjusting 5 position of workpiece for measurement, control Device is electrically connected to the mobile mould group 2 of electronic hand wheel 43, XY.Specifically, workpiece for measurement 5 can be inputted in X, Y by electronic hand wheel 43 Moving distance on direction (X referring to fig. 2, Y-direction), it is to be measured that controller will control the mobile movement of mould group 2 realization of XY The position of workpiece 5 adjusts.

Above-mentioned thickness detecting equipment further includes the shield 44 for being connected to rack 40, the positioning clamping component, the XY Mobile mould group 2 and the measurement component 3 are set in shield 44, play the role of dustproof and waterproof.Above-mentioned electronic hand wheel 43 is hung On shield 44, convenient for picking and placing.

Be additionally provided on shield 44 display screen 45 for being electrically connected to controller, keyboard and mouse mould group 46, scram button 47, Start button 48, work light 49.The position of measurement result and workpiece for measurement 5 can be directly displayed by display screen 45, It can be worked by keyboard and mouse mould group 46 with auxiliary positioning clamping component, the mobile mould group 2 of XY and measurement component 3, be pressed by emergency stop Button 47 realizes that emergency stop in unexpected situations, start button 48 are for prompting user for starting measurement, work light 49 It is no to be in measurement process.

As shown in figure 3, the measurement component 3 includes measurement bracket 31, on the measurement bracket 31 and it is located at Two displacement sensors 33 of 5 thickness direction of workpiece for measurement (direction H shown in Fig. 3) two sides, the rheme for driving Two the first driving units 32 that displacement sensor 33 is moved along 5 thickness direction of workpiece for measurement, two 33 faces of displacement sensor are set It sets.Wherein, the first driving unit 32 is integrated KK mould group, can directly be commercially available, no longer be discussed in detail herein；Upper rheme Displacement sensor 33 is air-cylinder type displacement sensor, and above-mentioned measurement bracket 31 is made of marble, to guarantee displacement sensor 33 Levelness improves measurement accuracy.

The present embodiment is clamped workpiece for measurement 5 by positioning clamping component, adjusts work to be measured by the mobile mould group 2 of XY The measurement position of part 5 is then measured by measuring component 3, is driven respectively in measurement using two the first driving units 32 Dynamic two faces setting and two displacement sensors 33 for being located at 5 thickness direction two sides of workpiece for measurement are leaned on to workpiece for measurement 5 Closely, and make two displacement sensors, 33 contact measured workpiece 5, then by workpiece for measurement 5 be located in two displacement sensors 33 it Between, it is realized by contact type measurement to the automatic measurement of 5 thickness of workpiece for measurement, improves measurement efficiency, and XY can be passed through Mobile mould group 2 adjusts the position of workpiece for measurement 5, realizes the measurement of multiple positions, improves measurement accuracy.

As shown in Figure 4 and Figure 5, the mobile mould group 2 of XY includes the first base station 21, the second base on first base station 21 Platform 22 and two the second driving units 23；One of them described second driving unit 23 is set on first base station 21, is used for Second base station 22 is driven to move in X direction；Another second driving unit 23 is set on second base station 22, is used for It drives the positioning clamping component to move along Y-direction, the position tune of workpiece for measurement 5 in the horizontal plane is realized by the mobile mould group 2 of XY It is whole.On the first base station 21 and upper surface of the second base station 22 is equipped with sliding rail 24, the lower surface of the second base station 22 and positioning support The lower surface of plate 42 is equipped with the sliding slot cooperated with sliding rail 24.

The mobile mould group of XY is equipped with positioning support plate 42, specifically, the sliding of positioning support plate 42 is set to the second base station On 22.The second base stations 22 and positioning support plate 42 moving along the direction XY respectively are realized by two the second driving units 23, two A second driving unit 23 is motor screw structure in the prior art, is no longer discussed in detail herein；It is U-shaped for measuring bracket 31 Structure, measurement bracket 31 are fixedly connected with the first base station 21.

Preferably, the first base station 21 and the second base station 22 are marble platform, guarantee to survey by using marble platform The flatness of workpiece for measurement 5, then improves measurement accuracy when amount.

As shown in Figure 6 and Figure 7, positioning clamping component is set on the positioning support plate 42 comprising 11 He of positioning unit Three clamping units 12 for being clamped to workpiece for measurement 5, positioning unit 11 and three clamping units 12 are around work to be measured Part 5 is arranged, and the workpiece for measurement 5 in the present embodiment is keyboard shell, can also be other workpieces for measurement 5 certainly, no longer specific herein Restriction, positioning unit 11 and three clamping units 12 are located at four corner locations of keyboard shell.

Specifically, as shown in fig. 6, positioning unit 11 includes being set in the mobile mould group 2 of the XY and being set to 5 thickness of workpiece for measurement The first positioning plate 111 for spending direction side is arranged with 111 face of the first positioning plate and is set to 5 thickness direction of workpiece for measurement Second positioning plate 112 of the other side, and in the mobile mould group 2 of the XY and for drive second positioning plate 112 along to The positioning cylinder 113 of 5 thickness direction of workpiece movement is surveyed, and in the mobile mould group 2 of the XY and is respectively arranged on X to side and Y To the first locating piece 114 and the second locating piece 115 of side.Wherein, the first positioning plate 111 and positioning cylinder 113 are set to fixed In the support plate 42 of position.The adjacent two sides of workpiece for measurement 5 are close to the side of the first locating piece 114 and the second locating piece 115 respectively Face is realized to workpiece for measurement 5 in X, the positioning of Y-direction, the position of the second positioning plate 112 is adjusted by positioning cylinder 113, so that Workpiece for measurement 5 is located between the first positioning plate 111 and the second positioning plate 112, determine on thickness direction to workpiece for measurement 5 Position.

As shown in fig. 7, the clamping unit 12 includes the first clamping plate 121 set on 5 thickness direction side of workpiece for measurement, The first clamping cylinder that in mould group 2 and first clamping plate 121 can be driven to move in the horizontal direction is moved set on the XY 122, it is arranged and is set to the second clamping plate 123 of the 5 thickness direction other side of workpiece for measurement with 121 face of the first clamping plate, And it is connected to 122 extension end of the first clamping cylinder and can be along the revolution clamping cylinder that 5 thickness direction of workpiece for measurement moves 124.Wherein, the first clamping cylinder 122 is set on positioning support plate 42.In the present embodiment, the plane of X-direction and Y-direction formation For horizontal plane, and horizontal direction is referred to along being located at any straight line direction in horizontal plane.

When clamping, the position of the first clamping plate 121 is adjusted by the first clamping cylinder 122 first, makes the first clamping plate 121 are located at the underface of the preserved grip position of workpiece for measurement 5, then adjust the second clamping plate by revolution clamping cylinder 124 123 position, so that the second clamping plate 123 and the setting of 121 face of the first clamping plate, are then made by turning round clamping cylinder 124 First clamping plate 121 and the second clamping plate 123 clamp the preserved grip position of workpiece for measurement, realize the clamping to workpiece for measurement 5. Wherein, there are three the preserved grip position of workpiece for measurement 5 is set, respectively by three clamping units 12 to three of workpiece for measurement 5 Preserved grip position is clamped.

Before initial measurement, the first positioning plate 111 and the setting of 112 face of the second positioning plate, the first clamping plate 121 and first The upper surface of positioning plate 111 is in same level.

The process for carrying out thickness measure to workpiece for measurement 5 using above-mentioned thickness detecting equipment is as follows:

1, the upper surface institute that workpiece for measurement 5 is placed in the first positioning plate 111 and the first clamping plate 121 in the horizontal plane, presses Lower start button 48 starts to measure work.

2, positioning clamping is carried out to workpiece for measurement 5: by the first positioning plate 111 and the first clamping plate 121 to workpiece for measurement into Row support, positioning cylinder 113 drives the first positioning plate 111, by the first locating piece 114 and the second locating piece 115 to work to be measured Part 5 carry out X, Y-direction positioning, by the cooperation between the first positioning plate 111 and the second positioning plate 112 to workpiece for measurement 5 into The positioning of 5 thickness direction of row workpiece for measurement；It turns round clamping cylinder 124 and drives the second clamping plate 123, pass through the first clamping plate 121 Cooperation with the second clamping plate 123 is clamped workpiece for measurement 5.

3, the position adjustment of workpiece for measurement 5: after completing the positioning to workpiece for measurement 5 and clamping, mobile 2 work of mould group of XY Make, driving workpiece for measurement 5 moves, and keeps one of them default measurement position on workpiece for measurement 5 and two displacement sensors 33 right It is quasi-.Default measurement position is equipped with multiple.

4, KK mould group works, and drives two displacement sensors 33 to contact respectively with the upper and lower surface of workpiece for measurement 5, then leads to Two displacement sensors 33 are crossed to measure the thickness of workpiece for measurement 5；After the completion of one-shot measurement, the mobile mould group 2 of XY continues to drive Dynamic workpiece for measurement 5 moves, and is directed at next default measurement position on workpiece for measurement 5 with two displacement sensors 33.According to After the completion of the above process is to the thickness measure of multiple default measurement positions, the measurement to 5 thickness of workpiece for measurement is completed.

If needing the thickness of the other positions to workpiece for measurement 5 in addition to default measurement position to measure, Ke Yitong The position that electronic hand wheel 43 adjusts workpiece for measurement 5 is crossed, is directed at the position to be measured with displacement sensor 33.

Positioning cylinder 113, the first clamping cylinder 122, revolution clamping cylinder 124, the first driving unit in the present embodiment 32, the second driving unit 23, displacement sensor 33 etc. are electrically connected to controller, to realize the thickness of automatic measurement workpiece for measurement 5 Degree.The thickness detecting equipment through this embodiment, can be realized the automatic measurement to 5 thickness of workpiece for measurement, greatly improves Measurement efficiency, and measurement accuracy error can reach within 5 microns, improve measurement accuracy.

Obviously, the above embodiments of the present invention is used for the purpose of clearly illustrating examples for clearly illustrating the present invention, and It is not limitations of the embodiments of the present invention.For those of ordinary skill in the art, in above description On the basis of can also make other variations or changes in different ways.There is no need and unable to give all embodiments Exhaustion.Any modifications, equivalent replacements, and improvements made within the spirit and principle of the present invention etc., should be included in Within the protection scope of the utility model claims.

Claims (10)

1. a kind of thickness detecting equipment, which is characterized in that including the positioning clamping component for clamping workpiece for measurement (5), driving The positioning clamping component moves mould group (2) along the XY that X, Y-direction move, and the measurement group for measuring workpiece for measurement (5) thickness Part (3)；The measurement component (3) includes:

It measures bracket (31),

Two displacement sensors (33) are set on the measurement bracket (31) and are located at the workpiece for measurement (5) thickness side To two sides, the setting of two institute's displacement sensors (33) faces；

Two the first driving units (32), for driving, displacement sensors (33) are along the workpiece for measurement (5) thickness direction It is mobile.

2. thickness detecting equipment according to claim 1, which is characterized in that the positioning clamping component includes:

Positioning unit (11), the including being set on the XY mobile mould group (2) and being set to workpiece for measurement (5) thickness direction side One positioning plate (111) is arranged and another set on the workpiece for measurement (5) thickness direction with the first positioning plate (111) face The second positioning plate (112) of side is set on the XY mobile mould group (2) and for driving second positioning plate (112) along institute The positioning cylinder (113) of workpiece for measurement (5) thickness direction movement is stated, and is set on the XY mobile mould group (2) and is respectively arranged on X To the first locating piece (114) and the second locating piece (115) of side and Y-direction side；

Three clamping units (12), for clamping the workpiece for measurement (5) and with the positioning unit (11) around described to be measured Workpiece (5) setting.

3. thickness detecting equipment according to claim 2, which is characterized in that the clamping unit (12) includes set on described First clamping plate (121) of workpiece for measurement (5) thickness direction side is set on the XY mobile mould group (2) and can drive institute The first clamping cylinder (122) that the first clamping plate (121) moves in the horizontal direction is stated, with the first clamping plate (121) face It is arranged and is set to second clamping plate (123) of the workpiece for measurement (5) thickness direction other side, and is connected to described first and clamps Cylinder (122) extension end and the revolution clamping cylinder (124) that can be moved along the workpiece for measurement (5) thickness direction.

4. thickness detecting equipment according to claim 2, which is characterized in that further include being set to XY movement mould group (2) On positioning support plate (42), the positioning clamping component be set to the positioning support plate (42) on.

5. thickness detecting equipment according to claim 1, which is characterized in that the XY mobile mould group (2) includes the first base Platform (21), the second base station (22) being set on first base station (21) and two the second driving units (23)；

One of them described second driving unit (23) is set on first base station (21), for driving second base station (22) it moves in X direction；

Another second driving unit (23) is set on second base station (22), for driving the positioning clamping component edge Y-direction is mobile.

6. thickness detecting equipment according to claim 5, which is characterized in that first base station (21) and second base Platform (22) is marble platform.

7. thickness detecting equipment according to any one of claims 1 to 6, which is characterized in that further include rack (40), the XY Circumferentially distributed damper (41) is equipped between mobile mould group (2) and the rack (40).

8. thickness detecting equipment according to any one of claims 1 to 6, which is characterized in that first driving unit (32) For KK mould group.

9. thickness detecting equipment according to any one of claims 1 to 6, which is characterized in that further include for adjust it is described to The electronic hand wheel (43) and controller of workpiece (5) position are surveyed, the controller is electrically connected to the electronic hand wheel (43) and described XY is mobile mould group (2).

10. thickness detecting equipment according to any one of claims 1 to 6, which is characterized in that further include covering at the positioning The shield (44) of clamping component, the XY mobile mould group (2) and measurement component (3) outside.