CN204314207U - A kind of in angle many eyeglasses assembling part rotating disc type propulsion test device - Google Patents

Abstract

The utility model is open a kind of in angle many eyeglasses assembling part rotating disc type propulsion test device, comprise frame, the pick-up unit being arranged on the worktable in described frame and being arranged on described worktable, described pick-up unit comprises jig rotation mechanism, pressure sensor assembly and displacement sensor component, the rotation motor that described jig rotation mechanism comprises rotating disk and is in transmission connection with described rotating disk, on described rotating disk, circumference is evenly provided with multiple product orientation tool described rotating disk is divided into feeding station, several detect station and discharge station, described pressure sensor assembly is corresponding with described detection station with described displacement sensor component, described pressure sensor assembly is arranged on the top of described product orientation tool for exerting a force to eyeglass, and described displacement sensor component is arranged on the below of described rotating disk for detecting the change in displacement of eyeglass, above-mentioned each device is connected with PLC control device.The test machine measurement efficiency that the utility model provides is high, measuring accuracy is high, solves the precise quantitative test problems in angle many eyeglasses assembling part lens sticks firmness.

Description

A kind of in angle many eyeglasses assembling part rotating disc type propulsion test device

Technical field

The utility model relates to checkout equipment technical field, and particularly one is angle many eyeglasses assembling part rotating disc type propulsion test device.

Background technology

The situation that recent year eyeglass industry keeps higher speed to increase, eyeglass is widely used in the consumer electronics industry, current eyeglass manufacturing enterprise substantially also stops the eyeglass manual detection stage, there is the shortcoming that detection efficiency is low, labour intensity is large, testing cost is high, testing result is unstable.Be the situation that angle is installed for eyeglass and mirror frame, manual detection is got up with regard to more bothersome effort, technical difficulty is large, and therefore, how realizing being multiple lens sticks firmness high precision test of angle with mirror frame by automation equipment is a problem needing solution badly.

Utility model content

The utility model object is to provide a kind of in angle many eyeglasses assembling part rotating disc type propulsion test device, it can be used to detect with lens frame is many eyeglasses assembling part lens sticks firmness of angle, measuring accuracy is high, measuring speed is fast, Measurement sensibility and efficiency high.

Based on the problems referred to above, the technical scheme that the utility model provides is:

A kind of in angle many eyeglasses assembling part rotating disc type propulsion test device, it is characterized in that: comprise frame, the pick-up unit being arranged on the worktable in described frame and being arranged on described worktable, described pick-up unit comprises jig rotation mechanism, the pressure sensor assembly be circumferentially arranged along described jig rotation mechanism and displacement sensor component, the rotation motor that described jig rotation mechanism comprises rotating disk and is in transmission connection with described rotating disk, on described rotating disk, circumference is evenly provided with multiple product orientation tool described rotating disk is divided into feeding station, several detect station and discharge station, described pressure sensor assembly is corresponding with described detection station with described displacement sensor component, product to be measured comprises lens rim and is arranged on the multiple eyeglasses along the distribution of described lens rim circumference in described lens rim, in a certain angle between eyeglass and lens rim plane, described pressure sensor assembly is arranged on the top of described product orientation tool for exerting a force to described eyeglass, and described displacement sensor component is arranged on the below of described rotating disk for detecting the change of described eyeglass relative to lens rim displacement, above-mentioned each device is connected with PLC control device.

Further, described pick-up unit also comprises material loading auxiliary fixture, described material loading auxiliary fixture comprises tool fixture, tool bed die, upper cover plate, pilot pin and pilot lamp, being placed in by described product to be measured during use on described tool bed die and fixing with described upper cover plate, described pilot pin is judged whether described product installation site to be measured is correct and is shown by described pilot lamp.

Further, described product orientation tool comprises the position housing piece and displacement transducer fixed head that are provided with holddown spring, and described product to be measured is placed between described position housing piece and institute's displacement sensors fixed head.

Further, described pressure sensor assembly comprises the first fixed support, pressure transducer, the first cylinder and the detection head be arranged on described first fixed support, described detection head is connected with described first cylinder, described pressure sensor assembly is connected with precision positioning module, and during detection, described detection head is positioned at the top of described product to be measured and vertical with described eyeglass.

Further, described displacement sensor component comprises the second fixed support, be arranged on the second cylinder on described second fixed support and precise linear guide, displacement transducer is slidably connected with described precise linear guide and described precise linear guide is connected with the second cylinder, and during detection, institute's displacement sensors is positioned at the below of described product orientation tool and vertical with described eyeglass.

Further, described frame is also provided with protective cover, arranges electrical control cubicles in described protective cover, described protective cover outside is also provided with the touch-screen for showing testing result, is also provided with startup, stopping, scram button below described touch-screen.

Further, the bottom of described frame also arranges pin cup and castor.

Compared with prior art, the utility model has the advantages that:

Adopt the technical solution of the utility model, the utility model by with lens frame eyeglass at an angle on apply specified pressure perpendicular to eyeglass, detect the method for housings eyeglass displacement variable with the vertically arranged displacement transducer of eyeglass, the precise quantitative solving angularly lens sticks firmness detects a difficult problem.Described apparatus structure is compact, measuring accuracy is high, Measurement sensibility is high, can be applicable to eyeglass and institute's holder housing lens sticks firmness at an angle detects occasion, solves the problems such as manual detection precision is unstable, speed is slow, efficiency is low.Multiple eyeglass on each cycle detection one flake products, displacement accuracy is less than 6 μm, and every flake products is less than or equal to 8s detection time.

Accompanying drawing explanation

In order to be illustrated more clearly in the technical scheme of the utility model embodiment, below the accompanying drawing used required in describing embodiment is briefly described, accompanying drawing in the following describes is only embodiments more of the present utility model, for those of ordinary skill in the art, under the prerequisite not paying creative work, other accompanying drawing can also be obtained according to these accompanying drawings.

Fig. 1 is a kind of structural representation in angle many eyeglasses assembling part rotating disc type propulsion test device embodiment of the utility model;

Fig. 2 is the structural representation of pick-up unit in the utility model embodiment;

Fig. 3 is the structural representation in another direction of pick-up unit in the utility model embodiment;

Fig. 4 is station structure schematic diagram in jig rotation mechanism in the utility model embodiment;

Fig. 5 a is the structural representation of material loading auxiliary fixture in the utility model embodiment;

Fig. 5 b is the A-A cut-open view of Fig. 5 a;

Fig. 6 a is the structural representation of product orientation tool in the utility model embodiment;

Fig. 6 b is the B-B cut-open view of Fig. 6 a;

Fig. 7 is the structural representation of product to be measured in the utility model embodiment;

Fig. 8 a is the schematic diagram in another direction of product to be measured in the utility model embodiment;

Fig. 8 b is the stressed schematic diagram in A-A cross section in Fig. 8 a;

Fig. 8 c is the stressed schematic diagram in B-B cross section in Fig. 8 a;

Fig. 9 is the structural representation of pressure sensor assembly in the utility model embodiment;

Figure 10 is the structural representation in another direction of pressure sensor assembly in the utility model embodiment;

Figure 11 is the structural representation of displacement sensor component in the utility model embodiment;

Wherein: 1, pressure transducer; 2, displacement transducer; 3, frame; 4, worktable; 5, jig rotation mechanism; 6, rotation motor; 7, feeding station; 8, first station is detected; 9, second station is detected; 10, the 3rd station is detected; 11, the 4th station is detected; 12, discharge station; 13, displacement sensor component; 14, pressure sensor assembly; 15, precision positioning module; 16-1, the first fixed support; 16-2, the second fixed support; 17-1, the first cylinder; 17-2, the second cylinder; 18, detection head; 19, precise linear guide; 20, material loading auxiliary fixture; 21, tool fixture; 22, tool bed die; 23, pilot pin; 24, upper cover plate; 25, pilot lamp; 26, holddown spring; 27, position housing piece; 28, displacement transducer location-plate; 29, angle I eyeglass; 30, lens rim; 31, protective cover; 32, angle II eyeglass; 33, angle III eyeglass; 34, product orientation tool; 35, cylinder is rotatably compressed; 36, touch-screen; 37, PLC control device; 38, product to be measured; 39, tri coloured lantern; 40, pin cup; 41, castor; 42, electrical control cubicles; 43, startup, stopping, scram button; 44, angle IV eyeglass; 45, kidney-shaped mounting hole.

Embodiment

Below in conjunction with specific embodiment, such scheme is described further.Should be understood that these embodiments are not limited to for illustration of the utility model limit scope of the present utility model.The implementation condition adopted in embodiment can do further adjustment according to the condition of concrete producer, and not marked implementation condition is generally the condition in normal experiment.

See Fig. 1-11, for the structural representation of the utility model embodiment, there is provided a kind of in angle many eyeglasses assembling part rotating disc type propulsion test device, it comprises frame 3, the pick-up unit being arranged on the worktable 4 in frame 3 and being arranged on worktable 4, this pick-up unit comprises jig rotation mechanism 5, the pressure sensor assembly 14 be circumferentially arranged along jig rotation mechanism 5 and displacement sensor component 13, the rotation motor 6 that this jig rotation mechanism 5 comprises rotating disk and is in transmission connection with this rotating disk, on rotating disk, circumference is evenly provided with multiple product orientation tool 34 rotating disk is divided into feeding station, several detect station and discharge station, the i.e. corresponding product orientation tool 34 of each station, product 38 to be measured comprises lens rim 30 and is arranged on the multiple eyeglasses along the distribution of lens rim 30 circumference in lens rim 30, in a certain angle between eyeglass and lens rim 30 plane, the number detecting station is consistent with the number of eyeglass on product 38 to be measured, above-mentioned each device is connected with PLC.

Six product orientation tools 34 are provided with in this example on rotating disk, corresponding rotating disk is divided into feeding station 7, first detects station 8, second detects station 9, 3rd detects station 10, 4th detects station 11 and discharge station 12, product 38 to be measured comprises lens rim 30 and is arranged on four eyeglasses along the distribution in angle of lens rim 30 circumference in lens rim 30, i.e. angle I eyeglass 29, angle II eyeglass 32, angle III eyeglass 33 and angle IV eyeglass 44, angle in this example between every two eyeglasses is 90 degree, angle between eyeglass and lens rim plane is respectively 5 °,-5 °, 6 °,-6 °.Each detection station is respectively equipped with pressure sensor assembly 14 and displacement sensor component 13, pressure sensor assembly 14 is arranged on the top of product orientation tool 34 for exerting a force to eyeglass, the Impact direction of eyeglass is as shown in F in Fig. 8, and displacement sensor component 13 is arranged on the below of rotating disk for detecting the change in displacement of eyeglass in lens rim 30, and be sent to PLC control device 37 compare detecting data with the change in displacement value preset, whether qualified to judge the bonding firmness of eyeglass in lens rim 30.

The purpose of this utility model is the detection whether qualified to the bonding firm intensity between glue process rear lens with lens rim 30, due to the assembling part that product 38 to be measured is in the many eyeglasses of angle, in order to ensure the repeatability of installing in the product orientation tool 34 of product 38 to be measured, pick-up unit is also provided with material loading auxiliary fixture 20, see Fig. 5, it comprises tool fixture 21, be arranged on the pilot pin 23 in tool fixture 21 and pilot lamp 25, the effect of pilot pin 23 guarantees that on each product orientation tool 34,38 products to be measured are installed in same position, during use, tool bed die 22 is placed in tool fixture 21, product to be measured 38 after a upper procedure point glue is placed on the holddown spring 26 of the position housing piece 27 of tool bed die 22, then cover upper cover plate 24 to buckle clasp and fix, the top of upper cover plate 24 is displacement transducer location-plate 28, eyeglass now in tool bed die 22 faces up, pilot pin 23 judges whether product to be measured is in place and is shown by pilot lamp 25.

After product is in place, tool bed die 22 is taken out and be placed on product orientation tool 34 after turning over turnback, see Fig. 6, eyeglass now in product orientation tool 34 faces down, product orientation tool 34 is followed successively by position housing piece 27, product to be measured 38 and displacement transducer location-plate 28 from top to bottom, and position housing piece 27 is provided with holddown spring 26 and is compressed by product 38 to be measured.Product orientation tool 37 to be placed in jig rotation mechanism 5 from feeding station 7 and to compress with rotatably compressing cylinder 35, under jig rotation mechanism 5 drives, detect station 8, second through first successively detect station 9, the 3rd detection station 10 and the 4th detection station 11 carry out pressure and displacement successively detection to the angle I eyeglass 29 on product 38 to be measured, angle II eyeglass 32, angle III eyeglass 33 and angle IV eyeglass 44, from discharge station 12, product is taken off after detection, enter next process according to testing result certified products, unacceptable product is reprocessed or is abandoned.

See Fig. 9-10, above-mentioned pressure sensor assembly 14 comprises the first fixed support 16-1, be arranged on the pressure transducer 1 on the first fixed support 16-1, first cylinder 17-1 and detection head 18, the wherein eyeglass at right angle setting of detection head 18 and product 38 to be measured, detection head 18 is connected with the first cylinder 17-1 above the first fixed support 16-1, detection head 18 pairs of eyeglass forces are driven by the first cylinder 17-1 during detection, the top of product 38 to be measured is positioned at and vertical with eyeglass in addition in order to accurately adjust pressure sensor assembly 14, pressure sensor assembly 14 is connected with precision positioning module 15.In addition, the regulating by the kidney-shaped mounting hole 45 after pressure sensor assembly 14 holder relative to the angle of eyeglass to be measured of pressure sensor assembly 14.

Participate in Figure 11, above-mentioned displacement sensor component 13 comprises the second fixed support 16-2, be arranged on the second cylinder 17-2 on the second fixed support 16-2 and precise linear guide 19, displacement transducer 2 is slidably connected with precise linear guide 19 and precise linear guide 19 is connected with the second cylinder 17-2, detecting front second cylinder 17-2 drives displacement transducer 2 to move to displacement transducer location-plate 28 below product orientation tool 34 and vertical with eyeglass along precise linear guide 19, and the setting angle of displacement transducer 2 regulates by kidney-shaped mounting hole 45.

In order to make structure of the present utility model compacter, frame 3 is also provided with protective cover 31, and electrical control cubicles 42 is set in protective cover 31, the top of protective cover 31 is provided with the tri coloured lantern 39 showing and detect the utility model pick-up unit and whether normally run, protective cover 31 is also provided with touch-screen 36, the testing result of product to be measured is shown by touch-screen 36, and the below of touch-screen 36 is also provided with startup, stopping, scram button 43, and convenient operation personnel carry out corresponding operating according to testing result; The bottom of frame 3 is also provided with pin cup 40 and castor 41; The side of frame 3 arranges PLC control device 37.

In the utility model, pressure sensor assembly design of pressure is 0.5kg ~ 5kg, pressurize precision ± 0.1kg, the dwell time can set arbitrarily, and accessible technical indicator is: 4 eyeglasses on each cycle detection one flake products, displacement accuracy is less than 6 μm, and every flake products is less than or equal to 8s detection time.

Below in conjunction with Fig. 1-11, workflow of the present utility model is simply described below:

Step 1: tool bed die 22 is placed in tool fixture 21;

Step 2: product 38 to be measured is placed on tool bed die 22;

Step 3: upper cover plate 24 is placed on tool bed die 22, locks clasp;

Step 4: the bright display product 38 of pilot lamp 25 is in place in tool;

Step 5: take off tool bed die 22 and turn over turnback the eyeglass in tool bed die 22 is faced down;

Step 6: by tool bed die 22 clamping after upset in product orientation tool 34, and be placed in feeding station 7, press start button 43;

Step 7: the angle I eyeglass 29 in angle on product 38 to be measured, angle II eyeglass 32, angle III eyeglass 33 and angle IV eyeglass 44 detect station 8, second through first successively and detect station 9, the 3rd detection station 10 and the 4th detection station 11, pressure sensor assembly 14 vertically exerts a force to each eyeglass and the change in displacement of displacement sensor component 14 vertical detection eyeglass in lens rim 30 detection data are transferred to PLC control device 37, and testing result is shown by OK pilot lamp, NG pilot lamp on touch-screen 36;

Step 8: the product orientation tool 34 taking off discharge station 12, according to testing result, certified products enter next operation, and unacceptable product is reprocessed or abandoned.

Above-mentioned example, only for technical conceive of the present utility model and feature are described, its object is to person skilled in the art person can be understood content of the present utility model and implement according to this, can not limit protection domain of the present utility model with this.All equivalent transformations of doing according to the utility model Spirit Essence or modification, all should be encompassed within protection domain of the present utility model.

Claims (7)

1. one kind is angle many eyeglasses assembling part rotating disc type propulsion test device, it is characterized in that: comprise frame (3), the pick-up unit being arranged on the worktable (4) in described frame (3) and being arranged on described worktable (4), described pick-up unit comprises jig rotation mechanism (5), the pressure sensor assembly (14) be circumferentially arranged along described jig rotation mechanism (5) and displacement sensor component (13), the rotation motor (6) that described jig rotation mechanism (5) comprises rotating disk and is in transmission connection with described rotating disk, on described rotating disk, circumference is evenly provided with multiple product orientation tool (34) described rotating disk is divided into feeding station (7), several detect station and discharge station (12), described pressure sensor assembly (14) is corresponding with described detection station with described displacement sensor component (13), product to be measured (38) comprises lens rim (30) and is arranged on the multiple eyeglasses along the distribution of described lens rim (30) circumference in described lens rim (30), in a certain angle between eyeglass and lens rim (30) plane, the top that described pressure sensor assembly (14) is arranged on described product orientation tool (34) is used for exerting a force to described eyeglass, and described displacement sensor component (13) is arranged on the below of described rotating disk for detecting the change in displacement of described eyeglass relative to lens rim (30), above-mentioned each device is connected with PLC control device (37).

2. according to claim 1 in angle many eyeglasses assembling part rotating disc type propulsion test device, it is characterized in that: described pick-up unit also comprises material loading auxiliary fixture (20), described material loading auxiliary fixture (20) comprises tool fixture (21), tool bed die (22), upper cover plate (24), pilot pin (23) and pilot lamp (25), during use, described product to be measured (38) is placed in described tool bed die (22) upper and fixing with described upper cover plate (24), described pilot pin (23) judges that whether described product to be measured (38) installation site is correct also by described pilot lamp (25) display.

3. according to claim 2 in angle many eyeglasses assembling part rotating disc type propulsion test device, it is characterized in that: described product orientation tool (24) comprises the position housing piece (27) and displacement transducer fixed head (28) that are provided with holddown spring (26), and described product to be measured is placed between described position housing piece (27) and institute's displacement sensors fixed head (28).

4. according to claim 1 in angle many eyeglasses assembling part rotating disc type propulsion test device, it is characterized in that: described pressure sensor assembly (14) comprises the first fixed support (16-1), be arranged on the pressure transducer (1) on described first fixed support (16-1), first cylinder (17-1) and detection head (18), described detection head (18) is connected with described first cylinder (17-1), described pressure sensor assembly (14) is connected with precision positioning module (15), during detection, described detection head (18) is positioned at the top of described product to be measured (38) and vertical with described eyeglass.

5. according to claim 1 in angle many eyeglasses assembling part rotating disc type propulsion test device, it is characterized in that: described displacement sensor component (13) comprises the second fixed support (16-2), be arranged on the second cylinder (17-2) on described second fixed support (16-2) and precise linear guide (19), displacement transducer (2) is slidably connected with described precise linear guide (19) and described precise linear guide (19) is connected with the second cylinder (17-2), during detection, institute's displacement sensors (2) is positioned at the below of described product orientation tool (34) and vertical with described eyeglass.

6. according to claim 1 in angle many eyeglasses assembling part rotating disc type propulsion test device; it is characterized in that: described frame (3) is also provided with protective cover (31); electrical control cubicles (42) is set in described protective cover (31); described protective cover (31) outside is also provided with the touch-screen (36) for showing testing result, and described touch-screen (36) below is also provided with startup, stopping, scram button (43).

7. according to claim 1 in angle many eyeglasses assembling part rotating disc type propulsion test device, it is characterized in that: the bottom of described frame (3) also arranges pin cup (40) and castor (41).