CN103067552B - Mobile phone automatic checkout system - Google Patents

Abstract

The present invention is a kind of mobile phone automatic checkout system, comprise mechanical finger operating mechanism, image acquisition mechanism and testing and control mechanism, also comprise bridge-type cylinder operation platform, bridge-type cylinder operation platform comprises pedestal (1), its upper surface forms multiple mobile phone fixture (2) set in a row, and mechanical finger operating mechanism and image acquisition mechanism are all arranged on mobile phone fixture (2) top; Mechanical finger operating mechanism drive unit, the control of tested person controlling organization, drives mechanical finger operating mechanism along the slippage successively of each mobile phone fixture (2); Image acquisition mechanism drive unit, the control of tested person controlling organization, drives image acquisition mechanism after mechanical finger operating mechanism along the slippage successively of each mobile phone fixture (2). The present invention provides that multiple stage mobile phone can be tested by one simultaneously, structure is simple, low cost of manufacture, operation of mobile phone can being slided screen and be suitable for neXgenius^TMThe mobile phone automatic checkout system of V2.1 system.

Description

Mobile phone automatic checkout system

Technical field

The present invention relates to mobile phone test field, specifically a kind of mobile phone automatic checkout system.

Background technology

Auto-Test System refers to when people seldom participates in or do not participate in, and automatically measures, process data, and the system showing in a suitable manner or outputing test result. Compared with manual testing, when automatically test economizes, laborsaving, improving labour productivity and quality product, production, scientific research and national defence are all played an important role by it.

Along with mobile phone terminal technology develops rapidly, mobile phone terminal product is more and more abundanter, and function is more and more complicated, releases frequency also more and more faster, thus causes R&D cycle shortening, research and development task to increase. In mobile phone R&D process, mobile phone test is related to R&D cycle and mobile phone quality, is a very important job. Mobile phone manual testing's efficiency is low and easily makes testing engineering teacher feel fatigue, and can not meet the demand of current society mobile phone test.

On this basis, Chinese patent literature CN1976526A discloses a kind of mobile phone automatized test macro, comprise mechanical press-key apparatus, image collecting device and test control device, wherein said mechanical press-key apparatus, it is connected with described test control device, for receiving machinery key controlling command, mobile phone is carried out smart key; Described image collecting device, is connected with described test control device, gathers control command for receiving image, is taken pictures by mobile phone screen or make a video recording, and view data is sent to described test control device; Described test control device, for sending machinery key controlling command to described mechanical press-key apparatus, sends image to described image collecting device and gathers control command, and the view data received processed. This mobile phone automatized test macro utilizes mechanical press-key apparatus to achieve the smart key to mobile phone, image collecting device is utilized to achieve the supervision to mobile phone screen, test control device is utilized to achieve the judgement to test result, directly mobile phone UI is operated, test is comprehensively, it is possible to reach the effect identical with manual testing;Improve test efficiency, reduce testing cost. but in use still there is following problem in the prior art: 1, in the prior art, obtain mechanical key control command, send positioning command, mechanical finger is located, send key commands, mechanical finger button, then mechanical finger returns to initial point, camera is taken, carry out image analysis, analyze complete, camera is removed, mechanical finger returns to working position by initial point and carries out next step action, action is complete returns to initial point again, a mobile phone can only be operated by the prior art simultaneously, after mobile phone key instruction terminates, mechanical finger operating result is taken by image collecting device, but now mechanical press-key apparatus is in idle state, reduce the working efficiency of cell-phone function test macro, therefore the prior art measuring technology need further improvement, 2, in the prior art, for receiving, mobile phone is carried out smart key to mechanical press-key apparatus by machinery key controlling command, but mobile phone can not being slided screen and drag operation, be not suitable for the intelligent touch-screen mobile phone based on Android system of popular, range of application is narrow.

For this situation, before applicant company, release a neXgeniusV2.1 Auto-Test System for being tested by multiple stage mobile phone simultaneously. This system is for improving mobile phone test efficiency and strengthen test accuracy rate and research and develop, it supports the Intelligent mobile equipment that all existing markets are popular, comprises Android, ios, featurephone, symbian (S60V3&S60V5), windowsphone and rim etc. Taking javascript script language as test script edit language, farthest for testing engineering teacher provides the convenience of development and testing script. This system covers the multiple test scenes such as the function test of mobile equipment, performance test, concurrent test and interactivity; Meet mobile equipment Basic function testing and third-party application test; For the test and regression test is provided convenience, quick and efficient automatization test is supported of smoldering of testing engineering Shi Chang, it is possible to be embedded in the existing continuance test system of user. Test set can be set up flexibly according to test demand, the test state of control and measuring set in test process, statistical test result, send test report, generate testing journal sheet. This system can in minutes create multiple test assignment, and the management having permission controls and supports 7*24 hour uninterruptedly to test use scenes. But, this mobile phone automatic test system to be realized being tested by multiple stage mobile phone simultaneously, needs the support of corresponding hardware device.

Chinese patent literature CN102185948A discloses the Multifunctional handset testing machine for handset of a kind of desk-top structure, comprise electric box and the computer of test board, gantry air cylinder support, cylinder assembly and test, table top arranged transversely many chutes of test board, many group gantry air cylinder supports and mobile phone to be measured are installed, carry out the test of multiple stage mobile phone simultaneously; Mobile phone to be measured is located in described gantry air cylinder support lower slip by having the mobile phone fixed pulley of eccentric wheel structure, changes the relative position between mobile phone to be measured and gantry air cylinder support by chute; Described gantry air cylinder support is provided with cylinder assembly, the mobile phone under it is carried out the test of disparity items. The prior art can realize the function that multiple stage mobile phone is tested simultaneously, it is to increase test efficiency, saves testing cost. But in use also there are some problems in the prior art: the subassembly 1, arranging multiple gantry air cylinder support and cylinder assembly on the test board of the prior art is to test while realizing multiple stage mobile phone, the prior art complex structure, test board manufacturing cost height;2, in the prior art, the adjustment of frock height, by manually operating, will increase the workload of operator like this when mobile phone test, and the sharpness of regulation of frock height also is difficult to ensure, so that affects the accuracy of mobile phone test result; 3, in the prior art, cylinder pressing operation can only be simulated staff and be carried out button operation, and can not simulate staff and carry out the sliding screen of mobile phone and drag operation, is not suitable for the test of the existing smart mobile phone based on Android system.

Summary of the invention

For this reason, technical problem to be solved by this invention is in prior art, manufacturing cost height complicated for mobile phone automatized test system structure that multiple stage mobile phone is tested simultaneously and be only applied to the problem of mobile phone reliability testing, thus provide that multiple stage mobile phone can be tested by one simultaneously, structure simple, low cost of manufacture, operation of mobile phone can being slided screen and be suitable for said n eXgenius^TMThe mobile phone automatic checkout system of V2.1 system.

A kind of mobile phone automatic checkout system that testing mobile phone can carry out switching on and shutting down operation in test process is provided further again.

For solving the problems of the technologies described above, the present invention is a kind of mobile phone automatic checkout system, comprising mechanical finger operating mechanism, image acquisition mechanism and testing and control mechanism, wherein said testing and control mechanism is for controlling described mechanical finger operating mechanism, described image acquisition mechanism; Mobile phone, by the control of described testing and control mechanism, is carried out mechanical finger operation by described mechanical finger operating mechanism; Mobile phone screen, by the control of described testing and control mechanism, is carried out image collection, and view data feeds back to described testing and control mechanism by described image acquisition mechanism; Also comprising bridge-type cylinder operation platform, described bridge-type cylinder operation platform comprises pedestal, and its upper surface forms multiple mobile phone fixture set in a row, and described mechanical finger operating mechanism and described image acquisition mechanism are all arranged on above described mobile phone fixture; Mechanical finger operating mechanism drive unit, by the control of described testing and control mechanism, drives described mechanical finger operating mechanism along each described mobile phone fixture slippage successively; Image acquisition mechanism drive unit, by the control of described testing and control mechanism, drives described image acquisition mechanism after described mechanical finger operating mechanism along each described mobile phone fixture slippage successively.

Described mechanical finger operating mechanism drive unit comprises the first transition axis, it is vertically installed in directly over described mobile phone fixture, and the axial direction due of described first transition axis and described mobile phone fixture is consistent discharged to direction, described mechanical finger operating mechanism can be arranged on described first transition axis axially slidably; First drives structure, described first drives structure drives described mechanical finger operating mechanism axially to slide along described first transition axis.

Described mechanical finger operating mechanism drive unit also comprises two synchronous single tape axles, the opposing parallel both sides being arranged at described pedestal upper surface, and the axial direction due of described synchronous single tape axle is arranged discharged to direction is vertical with described mobile phone fixture, described first transition axis by its two ends respectively single tape axle synchronous with described in two be arranged on above synchronous single tape axle described in two in the way of being slidably connected; 2nd drives structure, described 2nd drives structure drives described first transition axis to slide along synchronous single tape axle described in two.

Described image acquisition mechanism drive unit comprises bracing frame, is arranged on the upper surface of described pedestal; 2nd transition axis, is set in parallel on support frame as described above with described first transition axis, and described image acquisition mechanism is arranged on described 2nd transition axis; 3rd drives structure, described 3rd drives structure drives described image acquisition mechanism axially to slide along described 2nd transition axis.

Described mechanical finger operating mechanism comprises the first mechanical finger, the 2nd mechanical finger, for two mechanical fingers carry out the four-wheel drive structure that mechanical finger operation drives, described first mechanical finger contacts with mobile phone screen, for software operation;Described 2nd mechanical finger is for carrying out switching operation to cellular phone power supplies.

Described 2nd mechanical finger is rigid contact, in cross type.

Described image acquisition mechanism comprises camera.

Described testing and control mechanism comprise be connected with computer PLC controlling organization, for controlling the servo drive controller of described first drives structure, described 2nd drives structure, described 3rd drives structure and described four-wheel drive structure.

Described testing and control mechanism is located at the rear portion of described pedestal.

Described first drives structure comprises 100W servomotor, and described 2nd drives structure comprises 200W servomotor, and described 3rd drives structure comprises 100W servomotor, and described four-wheel drive structure comprises electricity cylinder.

When described first transition axis and described 2nd transition axis are furnished with for ensureing to run, line security drags chain.

Described base side surface is provided with operating panel, and described operating panel forms touch-screen, scram button and pneumatic stop button.

Described pedestal is provided with multiple USB port for mobile phone charging, and the quantity of described USB port is suitable with the quantity of described mobile phone fixture.

Support frame as described above is be fixed on the skeleton construction that described pedestal upper surface is square, and is arranged with the outer cover injected for weakening light outside described skeleton construction.

The technique scheme of the present invention has the following advantages compared to existing technology:

1, in the present invention, comprise the bridge-type cylinder operation platform that can be operated by multiple stage mobile phone successively, described bridge-type cylinder operation platform comprises pedestal, described pedestal forms multiple mobile phone fixture set in a row, also comprises for driving described mechanical finger operating mechanism along the mechanical finger operating mechanism drive unit of each described mobile phone fixture successively slippage and for driving described image acquisition mechanism image acquisition mechanism drive unit along each described mobile phone fixture successively slippage after described mechanical finger operating mechanism, after described mechanical finger operating mechanism is to a mobile phone operation, described bridge-type cylinder operation platform can make described mechanical finger operating mechanism be operated by next mobile phone at once, and when described mechanical finger operating mechanism leaves first mobile phone top position, described image acquisition mechanism can slide into first mobile phone top position by described bridge-type cylinder operation platform at once and be taken pictures or made a video recording in the interface that first mobile phone operation is complete, 2nd mobile phone is also like this, therefore described bridge-type cylinder operation platform makes the mobile phone automatic checkout system of the present invention can realize being tested by multiple stage mobile phone simultaneously, improve mobile phone test efficiency, and structure is simple, low cost of manufacture.

2, in the present invention, described mechanical finger operating mechanism comprises the first mechanical finger, the 2nd mechanical finger, described first mechanical finger contact with mobile phone screen, for software operation, and be possible not only to be tapped by mobile phone and mobile phone can also be slided screen and drag operation by button operation, enrich mobile phone operation content; Described 2nd mechanical finger is for carrying out switching operation to cellular phone power supplies so that the mobile phone automatic checkout system of the present invention mobile phone shutdown state can be tested and testing mobile phone power key whether handy.

3, in the present invention, mobile phone fixed panel front end is provided with multiple USB charge port, and this setting ensure that at test process cellular phone power supplies sufficient uninterrupted, prevents the test caused due to the power-off of mobile phone to interrupt.

Accompanying drawing explanation

In order to make the content of the present invention be more likely to be clearly understood, below according to a particular embodiment of the invention and by reference to the accompanying drawings, the present invention is further detailed explanation, wherein

Fig. 1 is the three-dimensional structure diagram of mobile phone automatic checkout system of the present invention.

In figure, Reference numeral represents and is: 1-pedestal, 2-mobile phone fixture, 3-first transition axis, 4-first drives structure, 5-two synchronous single tape axle, 6-the 2nd transition axis, 7-the 3rd drives structure, 8-first mechanical finger, 9-the 2nd mechanical finger, 10-camera, 11-touch-screen, 12-scram button, the pneumatic stop button of 13-, 14-outer cover.

Embodiment

As shown in Figure 1, a kind of mobile phone automatic checkout system of the present embodiment, comprising mechanical finger operating mechanism, image acquisition mechanism and testing and control mechanism, wherein said testing and control mechanism is used for described mechanical finger operating mechanism, described image acquisition mechanism transmission control order, mobile phone, for accepting the control command of described testing and control mechanism, is carried out mechanical finger operation by described mechanical finger operating mechanism, mobile phone screen, for accepting the control command of described testing and control mechanism, is carried out image collection by described image acquisition mechanism, and view data feeds back to described testing and control mechanism, also comprise bridge-type cylinder operation platform, described bridge-type cylinder operation platform comprises pedestal 1, its upper surface forms multiple mobile phone fixture 2 set in a row, described mechanical finger operating mechanism and described image acquisition mechanism are all arranged on above described mobile phone fixture 2, the positioning fixture that described mobile phone fixture 2 does for designated mobile phone size, described pedestal 1 has corresponding plug pilot hole, it is possible to carry out fast assembling-disassembling, described pedestal 1 forms the mobile phone retaining plate for mobile phone is fixed, the front end of described mobile phone retaining plate is provided with multiple USB charge port, the quantity of described USB charge port is suitable with the quantity of described mobile phone fixture 2, it is preferably 5 at this, described pedestal 1 is also provided with the touch-screen 11 of 7 inches, the size of certain described touch-screen 11 can be set as other sizes, also it is provided with scram button 12, pneumatic stop button 13, described scram button 12 and described pneumatic stop button 13 are for controlling described bridge-type cylinder operation platform, described bridge-type cylinder operation platform also comprises mechanical finger operating mechanism drive unit, described mechanical finger operating mechanism drive unit is by the control of described testing and control mechanism, drive described mechanical finger operating mechanism along each described mobile phone fixture 2 slippage successively, and described mechanical finger operating mechanism slip velocity, distance and direction can be controlled by described mechanical finger operating mechanism drive unit, described mechanical finger operating mechanism can also be carried out the slippage of vergence direction by described mechanical finger operating mechanism drive unit, its angle of inclination can be controlled with vertical slip velocity ratio by level of control slip velocity, also comprise image acquisition mechanism drive unit, described image acquisition mechanism drive unit is by the control of described testing and control mechanism, drive described image acquisition mechanism after described mechanical finger operating mechanism along each described mobile phone fixture 2 slippage successively, described image acquisition mechanism is after described mechanical finger operating mechanism is to mobile phone end of operation, the control slippage being subject to described testing and control mechanism carries out taking pictures or making a video recording to this mobile phone top position, and the view data collected is fed back to described testing and control mechanism, described testing and control mechanism feeds back to connected computer again, its data are analyzed by computer. mobile phone automatic checkout system of the present invention is applicable to said n eXgenius^TMV2.1 system, but it is not limited only to neXgenius^TMV2.1 system.

As shown in Figure 1, described mechanical finger operating mechanism drive unit comprises the first transition axis 3, described first transition axis 3 is vertically installed in directly over described mobile phone fixture 2, and the axial direction due of described first transition axis 3 and described mobile phone fixture 2 is consistent discharged to direction, described mechanical finger operating mechanism can be arranged on described first transition axis 3 axially slidably;First drives structure 4, described first drives structure 4 drives described mechanical finger operating mechanism axially to slide along described first transition axis 3, and described first drives structure 4 adopts servosystem, it is preferable to 100W servosystem;

Described mechanical finger operating mechanism drive unit also comprises two synchronous single tape axles 5, the described two opposing parallel both sides being arranged at described pedestal 1 upper surface of synchronous single tape axle 5, and the axial direction due of described synchronous single tape axle is arranged discharged to direction is vertical with described mobile phone fixture 2, described first transition axis 3 by its two ends respectively single tape axle synchronous with described in two be arranged on above synchronous single tape axle described in two in the way of being slidably connected; 2nd drives structure, described 2nd drives structure drives described first transition axis 3 to slide along synchronous single tape axle described in two, and in the present embodiment, described 2nd drives structure is preferably 200W servosystem.

Described image acquisition mechanism drive unit comprises bracing frame, and support frame as described above is arranged on the upper surface of described pedestal 1; 2nd transition axis 6, described 2nd transition axis 6 is set in parallel on support frame as described above with described first transition axis 3, and described image acquisition mechanism is arranged on described 2nd transition axis 6; 3rd drives structure 7, described 3rd drives structure 7 drives described image acquisition mechanism axially to slide along described 2nd transition axis 6, and described 3rd drives structure 7 is preferably 100W servomotor in the present embodiment.

As shown in Figure 1, described mechanical finger operating mechanism comprises the first mechanical finger 8, the 2nd mechanical finger 9, for two mechanical fingers carry out the four-wheel drive structure that mechanical finger operation drives, described first mechanical finger 8 contacts with mobile phone screen, for software operation; Described 2nd mechanical finger 9 is for carrying out switching operation to cellular phone power supplies. The control that described first mechanical finger 8 is subject to described mechanical finger operating mechanism drive unit can realize being clicked by mobile phone, double-clicks, sliding screen and drag operation, enrich mobile phone operation so that the mobile phone automatic checkout system of the present invention is more comprehensive to the test of mobile phone. Described 2nd mechanical finger 9 is for carrying out switching operation to cellular phone power supplies, make the mobile phone automatic checkout system of the present invention mobile phone shutdown state can be tested and testing mobile phone power key whether handy, described 2nd mechanical finger 9 is rigid contact, it is preferable to cross type.

Described image acquisition mechanism comprises camera 10, it is possible to taken pictures by mobile phone operation interface, it is also possible to the dynamic result of mobile phone operation interface made a video recording.

Described testing and control mechanism comprise be connected with computer PLC controlling organization, for controlling the servo drive controller of described first drives structure, described 2nd drives structure, described 3rd drives structure and described four-wheel drive structure. Terminal program sends instruction to PLC controlling organization, PLC controlling organization finds corresponding sub-routine, as clicked, double-click, slide schedule of operation such as shielding, pull, control described mechanical finger operating mechanism drive unit and drive described mechanical finger operating mechanism that mobile phone is carried out aforesaid operations. Described testing and control mechanism is located at the rear portion of described pedestal 1, and this kind arranges and the mobile phone automatic checkout system structure of the present invention can be made more compact, and saving takes up space. Described four-wheel drive structure is preferably electricity cylinder and drives.

When described first transition axis 3 is furnished with for ensureing to run with described 2nd transition axis 6, line security drags chain.

Support frame as described above is preferably fixed on the skeleton construction that described pedestal 1 upper surface is square, and is arranged with the outer cover 14 injected for weakening light outside described skeleton construction.

Obviously, above-described embodiment is only for example is clearly described, and not to the restriction of the mode of enforcement. For those of ordinary skill in the field, can also make other changes in different forms on the basis of the above description. Here without the need to also cannot all enforcement modes be given exhaustive. And the apparent change thus extended out or variation are still among the protection domain of the invention.

Claims (14)

1. a mobile phone automatic checkout system, comprises mechanical finger operating mechanism, image acquisition mechanism and testing and control mechanism, wherein

Described testing and control mechanism is for controlling described mechanical finger operating mechanism, described image acquisition mechanism;

Mobile phone, by the control of described testing and control mechanism, is carried out mechanical finger operation by described mechanical finger operating mechanism;

Mobile phone screen, by the control of described testing and control mechanism, is carried out image collection, and view data feeds back to described testing and control mechanism by described image acquisition mechanism;

It is characterized in that: also comprise bridge-type cylinder operation platform, described bridge-type cylinder operation platform comprises

Pedestal (1), its upper surface forms multiple mobile phone fixture (2) set in a row, and described mechanical finger operating mechanism and described image acquisition mechanism are all arranged on described mobile phone fixture (2) top;

Mechanical finger operating mechanism drive unit, by the control of described testing and control mechanism, drives described mechanical finger operating mechanism along the slippage successively of each described mobile phone fixture (2);

Image acquisition mechanism drive unit, by the control of described testing and control mechanism, drives described image acquisition mechanism after described mechanical finger operating mechanism along the slippage successively of each described mobile phone fixture (2).

2. mobile phone automatic checkout system according to claim 1, it is characterised in that: it is characterized in that: described mechanical finger operating mechanism drive unit comprises

First transition axis (3), it is vertically installed in directly over described mobile phone fixture (2), and the axial direction due of described first transition axis (3) and described mobile phone fixture (2) is consistent discharged to direction, described mechanical finger operating mechanism can be arranged on described first transition axis (3) axially slidably;

First drives structure (4), described first drives structure (4) drives described mechanical finger operating mechanism axially to slide along described first transition axis (3).

3. mobile phone automatic checkout system according to claim 2, it is characterised in that: described mechanical finger operating mechanism drive unit also comprises

Two synchronous single tape axles (5), the opposing parallel both sides being arranged at described pedestal (1) upper surface, and the axial direction due of described synchronous single tape axle is arranged discharged to direction is vertical with described mobile phone fixture (2), described first transition axis (3) by its two ends respectively single tape axle synchronous with described in two be arranged on above synchronous single tape axle described in two in the way of being slidably connected;

2nd drives structure, described 2nd drives structure drives described first transition axis (3) to slide along synchronous single tape axle described in two.

4. mobile phone automatic checkout system according to claim 2, it is characterised in that: described image acquisition mechanism drive unit comprises

Bracing frame, is arranged on the upper surface of described pedestal (1);

2nd transition axis (6), is set in parallel on support frame as described above with the first transition axis (3), and described image acquisition mechanism is arranged on described 2nd transition axis (6);

3rd drives structure (7), described 3rd drives structure (7) drives described image acquisition mechanism axially to slide along described 2nd transition axis (6).

5. according to the mobile phone automatic checkout system described in claim 4, it is characterised in that:

Described mechanical finger operating mechanism comprises the first mechanical finger (8), the 2nd mechanical finger (9), operates, for two mechanical fingers carry out mechanical finger, the four-wheel drive structure driven, described first mechanical finger (8) contacts with mobile phone screen, for software operation;Described 2nd mechanical finger (9) is for carrying out switching operation to cellular phone power supplies.

6. mobile phone automatic checkout system according to claim 5, it is characterised in that: described 2nd mechanical finger (9) is rigid contact, in cross type.

7. mobile phone automatic checkout system according to claim 6, it is characterised in that: described image acquisition mechanism comprises camera (10).

8. mobile phone automatic checkout system according to claim 7, it is characterised in that: described testing and control mechanism comprise be connected with computer PLC controlling organization, for controlling the servo drive controller of described first drives structure, described 2nd drives structure, described 3rd drives structure and described four-wheel drive structure.

9. mobile phone automatic checkout system according to claim 8, it is characterised in that: described testing and control mechanism is located at the rear portion of described pedestal (1).

10. mobile phone automatic checkout system according to claim 9, it is characterized in that: described first drives structure comprises 100W servomotor, described 2nd drives structure comprises 200W servomotor, and described 3rd drives structure comprises 100W servomotor, and described four-wheel drive structure comprises electricity cylinder.

11. mobile phone automatic checkout systems according to claim 4, it is characterised in that: when described first transition axis (3) and described 2nd transition axis (6) are furnished with for ensureing to run, line security drags chain.

The 12. mobile phone automatic checkout systems according to any one of claim 1-4, it is characterized in that: described pedestal (1) surface, side is provided with operating panel, described operating panel forms touch-screen (11), scram button (12) and pneumatic stop button (13).

13. mobile phone automatic checkout systems according to claim 1, it is characterised in that:

Described pedestal (1) is provided with multiple USB port for mobile phone charging, and the quantity of described USB port is suitable with the quantity of described mobile phone fixture (2).

14. mobile phone automatic checkout systems according to claim 4, it is characterized in that: the skeleton construction that support frame as described above is square for being fixed on described pedestal (1) upper surface, outside described skeleton construction, it is arranged with the outer cover (14) injected for weakening light.