CN208419885U - A kind of semi-automatic dimension measuring apparatus - Google Patents
A kind of semi-automatic dimension measuring apparatus Download PDFInfo
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- CN208419885U CN208419885U CN201821175715.0U CN201821175715U CN208419885U CN 208419885 U CN208419885 U CN 208419885U CN 201821175715 U CN201821175715 U CN 201821175715U CN 208419885 U CN208419885 U CN 208419885U
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Abstract
The utility model relates to dimension measuring apparatus fields, specifically disclose a kind of semi-automatic dimension measuring apparatus, measurement component including two measurement components different location sizes to be measured, each measurement component includes the carrier for placing components to be measured, CCD for measuring the element size to be measured being located on the carrier of measurement station measures mould group, and the driving carrier travels to and fro between the driving unit of measurement station and feeding station.The utility model measures the size of components different location to be measured by two measurement components of setting respectively, components to be measured are placed on the carrier of one of measurement component, the portion size of components to be measured is measured using corresponding CCD measurement mould group, then the components to be measured are placed on the carrier of another measurement component again, another part size of components to be measured is measured using corresponding CCD measurement mould group later;Compared to manual measurement is used, measurement efficiency is substantially increased.
Description
Technical field
The utility model relates to dimension measuring apparatus field more particularly to a kind of semi-automatic dimension measuring apparatus.
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 various inner components of mobile phone, the requirement to size is very high, by people
When work measures size, measurement error can not control, therefore be not able to satisfy its error requirements to size;And it needs to measure more
A size, simple relies on manual measurement, and measurement efficiency is lower, improves production cost.
But for components irregular for shape and structure, it is difficult to realize the size measuring of the type component, therefore urgently
A kind of semi-automatic dimension measuring apparatus is needed, dimensional measurement is carried out with the components to special construction, to improve measurement efficiency.
Utility model content
The purpose of this utility model is to provide a kind of semi-automatic dimension measuring apparatus, can be to the components of special construction
Dimensional measurement is carried out, to improve measurement efficiency, reduces production cost.
For this purpose, the utility model uses following technical scheme:
A kind of semi-automatic dimension measuring apparatus, the measurement component including two measurement components different location sizes to be measured,
Each measurement component includes the carrier for placing the components to be measured, for measuring the load for being located at measurement station
The CCD of the element size to be measured on tool measures mould group, and the driving carrier travels to and fro between measurement station and feeding station
Driving unit.
It further, further include workbench, the driving unit includes:
Directive slide track is set on the workbench, and the carrier is equipped with the guide groove cooperated with the directive slide track;
Feeding cylinder is fixedly arranged on the workbench, for driving the carrier to slide along the directive slide track, makes described
Carrier travels to and fro between measurement station and feeding station.
Further, the carrier includes:
Station substrate, is connected to the feeding cylinder output end, and the station substrate is equipped with the guide groove;
First locating piece is set on the station substrate, for positioning to the components to be measured;
Second locating piece can cooperate with first locating piece to described to be measured zero be placed on first locating piece
Component is positioned.
Further, one end of second locating piece is connected with adjusting unit, and the adjusting unit includes one end connection
In the adjusting block and clamping screw of second locating piece, the station substrate, which is equipped with, adjusts protrusion, the clamping screw
One end passes through the adjusting protrusion and is connected to the adjusting block, and the adjusting block and first locating piece cooperation are to be measured zero
Component is clamped in the vertical direction.
Further, first locating piece is equipped with supporting block and positioning protrusion;The supporting block is used to support described
Components to be measured, the positioning protrusion be used for the components to be measured in a first direction and the direction vertical with first direction into
Row positioning, the first direction are the telescopic direction of the feeding cylinder.
Further, the supporting block of one of them measurement component is equipped with and the circle on the components to be measured
The positioning column of hole cooperation.
Further, one of them described measurement component is set there are two CCD measurement mould group, and two CCD measure mould groups
It is respectively arranged on the surface of the measurement station, along the side of the feeding cylinder telescopic direction.
It further, further include trimming assembly, the trimming assembly is arranged in a one-to-one correspondence with CCD measurement mould group, institute
Stating trimming assembly includes:
Fine-tuning stent,
First tuning plate can be slided relative to the fine-tuning stent;
First clamping screw, for connecting the first tuning plate and the fine-tuning stent;
Second tuning plate can be slided relative to first tuning plate, and first tuning plate is relative to described micro-
Adjust glide direction of the direction of bracket slide perpendicular to second tuning plate relative to first tuning plate;
Second clamping screw, for connecting the first tuning plate and second tuning plate.
The utility model has the beneficial effects that measuring components different location to be measured respectively by the way that two measurement components are arranged
Components to be measured are placed on the carrier of one of measurement component by size, using corresponding CCD measurement mould group to be measured zero
The portion size of component measures, and then the components to be measured are placed on the carrier of another measurement component again, are adopted later
Another part size of components to be measured is measured with corresponding CCD measurement mould group;Compared to manual measurement is used, significantly
Improve measurement efficiency.
Detailed description of the invention
Fig. 1 is the structural schematic diagram of the not with protecting cover semi-automatic dimension measuring apparatus of the utility model;
Fig. 2 is the structural schematic diagram of the first driving unit described in the utility model;
Fig. 3 is the partial enlargement diagram in Fig. 2 at II;
Fig. 4 is the partial enlargement diagram in Fig. 1 at I;
Fig. 5 is the structural schematic diagram of the second driving unit described in the utility model;
Fig. 6 is the partial enlargement diagram in Fig. 5 at III;
Fig. 7 is the structural schematic diagram of semi-automatic dimension measuring apparatus described in the utility model.
In figure:
11, the first carrier;111, station substrate;1111, protrusion is adjusted;112, the first locating piece;1121, supporting block;
1122, positioning protrusion;113, the second locating piece;12, the first driving unit;121, feeding cylinder;122, limiting buffer block;13,
First CCD measures mould group;14, the 2nd CCD measures mould group;
151, adjusting block;152, bolt is adjusted;
20, the second driving unit;21, the second carrier;211, positioning column;22, the 3rd CCD measures mould group;
3, trimming assembly;30, fine-tuning stent;301, first sliding groove;31, the first tuning plate;311, second sliding slot;32,
One fine adjustment block;33, the first clamping screw;34, the second tuning plate;341, third sliding slot;35, the second fine adjustment block;36, the second locking
Bolt;37, third tuning plate;371, perforating;38, third fine adjustment block;39, third clamping screw;
40, workbench;401, directive slide track;41, work light;42, shield;43, barn door;5, zero to be measured
Part.
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 shown in Figure 1, present embodiments providing a kind of semi-automatic dimension measuring apparatus, it is mainly used for not advising shape and structure
Components then measure.The semi-automatic dimension measuring apparatus includes two measurement 5 different location sizes of components to be measured
Component is measured, each measurement component includes the carrier for placing components 5 to be measured, is located at measurement station for measuring
The CCD of 5 size of components to be measured on carrier measures mould group, and the driving carrier travels to and fro between measurement station and feeding station
Driving unit.
The present embodiment measures the size of 5 different location of components to be measured by two measurement components of setting respectively, will be to be measured
Components 5 are placed on the carrier of one of measurement component, using corresponding CCD measurement mould group to the portion of components 5 to be measured
Point size measures, and then the components 5 to be measured is placed on the carrier of another measurement component again, later using corresponding
CCD measurement mould group measures another part size of components 5 to be measured;Compared to manual measurement is used, substantially increase
Measurement efficiency.
Since two measurement components will measure the size of 5 different location of components to be measured, the load of two measurement components
Tool is different, and two measurement components are specifically described separately below.
Two measurement components are respectively the first measurement component and the second measurement component, and the first measurement component includes the first carrier
11, the first driving unit 12, the first CCD measurement mould group 13, the 2nd CCD measure mould group 14.Above-mentioned semi-automatic dimension measuring apparatus
It further include workbench 40, as shown in Figures 2 and 3, workbench 40 is equipped with directive slide track 401, and the first driving unit 12 includes upper
Expect that cylinder 121, the first carrier 11 are equipped with the guide groove cooperated with directive slide track 401, is carried by the driving of feeding cylinder 121 first
Tool 11 is slided along directive slide track 401, and the first carrier 11 is made to travel to and fro between measurement station and feeding station.Directive slide track 401 is close to upper
Expect that one end of station is equipped with limiting buffer block 122, the stroke of the first carrier 11 is limited.
First carrier 11 includes station substrate 111, is connected to 121 output end of feeding cylinder, and guide groove is set to station base
On plate 111;Station substrate 111 is equipped with groove, and the first locating piece for being positioned to components 5 to be measured is equipped in groove
112, set that there are two supporting block 1121 and two positioning protrusion 1122 on the first locating piece 112;Two supporting blocks 1121 and company
Positioning protrusion 1122 is distributed along first direction, and wherein supporting block 1121 is used to support components 5 to be measured, and positioning protrusion 1122 is used
In positioning in a first direction with the direction vertical with first direction to components 5 to be measured, first direction is feeding cylinder 121
Telescopic direction.
First carrier 11 further includes the second locating piece 113, and one end of the second locating piece 113 is connected with adjusting unit, described
Adjusting unit includes that one end is connected to the adjusting block 151 of second locating piece 113 and adjusts bolt 152, the station substrate
111 are equipped with adjusting protrusion 1111, and described one end for adjusting bolt 152 passes through the adjusting protrusion 1111 and is connected to the tune
Locking nub 151 adjusts the position of the second locating piece 113 of adjustment by adjusting bolt 152, enables the second locating piece 113 along second
Direction is mobile, so that the second locating piece 113 is located at the surface of components 5 to be measured, components 5 to be measured are located in second and are determined
Between position block 113 and supporting block 1121, i.e., components 5 to be measured are clamped in vertical direction.Preferably, above-mentioned second positioning
There are two block 113 is set, components 5 to be measured is avoided deflection occur.Above-mentioned second direction refer on horizontal plane with feeding cylinder 121
The vertical direction of telescopic direction.
Referring to Fig.1, the first CCD measures mould group 13 and the 2nd CCD measurement mould group 14 is being located at the measurement station just
Top, along the side of 121 telescopic direction of feeding cylinder.Semi-automatic dimension measuring apparatus described in the present embodiment further includes fine tuning
Component 3, trimming assembly 3 and CCD measurement mould group are arranged in a one-to-one correspondence, as shown in figure 4, corresponding with the first CCD measurement mould group 13
Trimming assembly 3 includes the fine-tuning stent 30 on workbench 40, and fine-tuning stent 30 is equipped with first sliding groove 301, first sliding groove
301 are arranged along first direction, and the first tuning plate 31, the fine-tuning stent 30 of 31 one end of the first tuning plate are equipped in first sliding groove 301
It is equipped with the first fine adjustment block 32, the first fine adjustment block 32 is equipped with the first clamping screw 33, and one end of the first clamping screw 33 passes through
First fine adjustment block 32 simultaneously screws in the first tuning plate 31, and the nut of the first clamping screw 33 is made to press on the outer of the first fine adjustment block 32
On wall, the distance in the first tuning plate 31 is protruded by adjusting the first clamping screw 33, the first tuning plate 31 can be adjusted the
Position in one sliding slot 301.
First tuning plate 31 is equipped with second sliding slot 311, and second sliding slot 311 is arranged in a second direction, in second sliding slot 311
Equipped with the second tuning plate 34, the upper end of the first tuning plate 31 is equipped with the second fine adjustment block 35, and the second fine adjustment block 35 is equipped with the second lock
Tight bolt 36, one end of the second clamping screw 36 pass through the second fine adjustment block 35 and screw in the second tuning plate 34, make the second locking
The nut of bolt 36 presses on the outer wall of the second fine adjustment block 35, protrudes into the second tuning plate 34 by adjusting the second clamping screw 36
Interior distance can adjust position of second tuning plate 34 in second sliding slot 311.
Second tuning plate 34 is equipped with third sliding slot 341, and third sliding slot 341 is arranged along the vertical direction, in third sliding slot 341
Equipped with third tuning plate 37, the upper end of the second tuning plate 34 is equipped with third fine adjustment block 38, and third fine adjustment block 38 is locked equipped with third
Tight bolt 39, one end of third clamping screw 39 pass through third fine adjustment block 38 and screw in third tuning plate 37, lock third
The nut of bolt 39 presses on the outer wall of third fine adjustment block 38, protrudes into third tuning plate 37 by adjusting third clamping screw 39
Interior distance can adjust position of the third tuning plate 37 in third sliding slot 341.
The lower end of third tuning plate 37 is equipped with perforating 371, and CCD measurement mould group one end is connected to after passing through perforating 371
Third tuning plate 37.Position by adjusting the first tuning plate 31, the second tuning plate 34 and third tuning plate 37, which is realized, surveys CCD
Measure the adjusting of mould group position.
And the 2nd CCD measures the corresponding trimming assembly 3 of mould group and measures the corresponding trimming assembly 3 of mould group 13 with the first CCD
Difference is only that, can be adjusted the 2nd CCD along first direction and second direction by corresponding trimming assembly 3 and be measured mould group 14
Position.
Second measurement component is set on workbench 40 comprising the second carrier 21, the second driving unit 20, the 3rd CCD are surveyed
Mould group 22 is measured, as shown in figure 5, wherein the structure of the second driving unit 20 is identical as the structure of the first driving unit 12, herein not
It is specific again to introduce.3rd CCD measurement mould group 22 is identical as the 2nd CCD measurement structure of mould group 14, and difference is only that and to be measured zero
The positional relationship of component 5 is different, and the 3rd CCD measures mould group 22 and components to be measured 5 and is arranged along first direction.
As shown in fig. 6, the structure of the second carrier 21 and the first carrier 11 is essentially identical, difference is only that, supporting block 1121
The upper positioning column 211 with the circular hole cooperation on components 5 to be measured, by the cooperation of positioning column 211 and circular hole to components 5 to be measured
Further positioned.
As shown in fig. 7, above-mentioned semi-automatic dimension measuring apparatus further includes the shield 42 equipped with opening, and it is set to described anti-
The barn door 43 of 42 open side of shield, specifically, barn door 43 and the 3rd CCD measurement mould group 22 are arranged along first direction, and the
Two carriers 21 are located between barn door 43 and the 3rd CCD measurement mould group 22.Wherein shield 42 primarily serves dustproof effect, to zero
When component carries out CCD detection, light source can issue highlighted polished bard eye, can cause discomfort to front-end operations personnel's eye, pass through shading
Plate 43 protects the eyes of operator, and light when CCD being avoided to detect damages the glasses of operator.Preferably, on
Stating barn door 43 is dark brown acrylic board.Above-mentioned semi-automatic dimension measuring apparatus further includes controller and display, feeding cylinder
121 and the first CCD measurement mould group 13, the 2nd CCD measurement mould group 14, the 3rd CCD measurement mould group 22 be electrically connected to controller, it is real
Existing semi-automatic measuring, and measurement result directly show by display, measurement result include components for qualified product or not
Qualified product.The side wall of shield 42 is equipped with power switch, and top is equipped with work light 41, when work light 41 lights,
The prompt above-mentioned semi-automatic dimension measuring apparatus of user is in the course of work.
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 (9)
1. a kind of semi-automatic dimension measuring apparatus, which is characterized in that including two measurement components (5) different location sizes to be measured
Measurement component, each measurement component includes carrier for placing the components to be measured (5), is surveyed for measuring to be located at
The CCD for measuring components (5) size to be measured on the carrier of station measures mould group, and the driving carrier travels to and fro between survey
Measure the driving unit of station and feeding station.
2. semi-automatic dimension measuring apparatus according to claim 1, which is characterized in that it further include workbench (40), it is described
Driving unit includes:
Directive slide track (401) is set on the workbench (40), and the carrier is equipped with to be cooperated with the directive slide track (401)
Guide groove;
Feeding cylinder (121) is fixedly arranged on the workbench (40), for driving the carrier along the directive slide track (401)
Sliding makes the carrier travel to and fro between measurement station and feeding station.
3. semi-automatic dimension measuring apparatus according to claim 2, which is characterized in that the carrier includes:
Station substrate (111), is connected to the feeding cylinder (121) output end, and the station substrate (111) is equipped with described lead
To slot;
First locating piece (112) is set on the station substrate (111), for positioning to the components (5) to be measured;
Second locating piece (113) can cooperate with first locating piece (112) to being placed on first locating piece (112)
The components (5) to be measured positioned.
4. semi-automatic dimension measuring apparatus according to claim 3, which is characterized in that second locating piece (113)
One end is connected with adjusting unit, and the unit that adjusts includes the adjusting block (151) that one end is connected to second locating piece (113)
And clamping screw, the station substrate (111), which is equipped with, to be adjusted raised (1111), and one end of the clamping screw passes through the tune
It saves raised (1111) and is connected to the adjusting block (151), the adjusting block (151) and first locating piece (112) cooperation
Components to be measured (5) are clamped in the vertical direction.
5. semi-automatic dimension measuring apparatus according to claim 4, which is characterized in that on first locating piece (112)
Equipped with supporting block (1121) and positioning protrusion (1122);The supporting block (1121) is used to support the components to be measured (5), institute
State positioning protrusion (1122) for the components (5) to be measured in a first direction and the direction vertical with the first direction into
Row positioning, the first direction are the telescopic direction of the feeding cylinder (121).
6. semi-automatic dimension measuring apparatus according to claim 5, which is characterized in that one of them measurement component
The supporting block (1121) is equipped with the positioning column (211) with the circular hole cooperation on the components (5) to be measured.
7. semi-automatic dimension measuring apparatus according to claim 2, which is characterized in that one of them described measurement component is set
There are two CCD to measure mould group, and two CCD measurement Mo Zu are set to the surface of the measurement station, along the feeding respectively
The side of cylinder (121) telescopic direction.
8. semi-automatic dimension measuring apparatus according to claim 7, which is characterized in that it further include trimming assembly (3), it is described
Trimming assembly (3) is arranged in a one-to-one correspondence with CCD measurement mould group, and the trimming assembly (3) includes:
Fine-tuning stent (30),
First tuning plate (31) can be slided relative to the fine-tuning stent (30);
First clamping screw (33), for connecting the first tuning plate (31) and the fine-tuning stent (30);
Second tuning plate (34) can be slided relative to first tuning plate (31), and first tuning plate (31) is opposite
In the direction of the fine-tuning stent (30) sliding perpendicular to second tuning plate (34) relative to first tuning plate (31)
Glide direction;
Second clamping screw (36), for connecting the first tuning plate (31) and second tuning plate (34).
9. semi-automatic dimension measuring apparatus according to claim 1, which is characterized in that further include the shield equipped with opening
(42), and be set to the shield (42) open side barn door (43).
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
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CN201821175715.0U CN208419885U (en) | 2018-07-24 | 2018-07-24 | A kind of semi-automatic dimension measuring apparatus |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
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CN201821175715.0U CN208419885U (en) | 2018-07-24 | 2018-07-24 | A kind of semi-automatic dimension measuring apparatus |
Publications (1)
Publication Number | Publication Date |
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CN208419885U true CN208419885U (en) | 2019-01-22 |
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CN201821175715.0U Active CN208419885U (en) | 2018-07-24 | 2018-07-24 | A kind of semi-automatic dimension measuring apparatus |
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CN (1) | CN208419885U (en) |
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2018
- 2018-07-24 CN CN201821175715.0U patent/CN208419885U/en active Active
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Address after: 215300 50 Kuntai Road, Zhou Shi Town, Kunshan City, Suzhou, Jiangsu Patentee after: Suzhou solaneng Intelligent Technology Co., Ltd Address before: 215300 50 Kuntai Road, Zhou Shi Town, Kunshan City, Suzhou, Jiangsu Patentee before: KUNSHAN SUOLAINENG PHOTOELECTRIC TECHNOLOGY Co.,Ltd. |