CN209419577U - A kind of solar assembly test apparatus and system - Google Patents

Abstract

The utility model relates to solar components detection technique fields, more particularly to a kind of solar assembly test apparatus and system, wherein solar components detection device includes vaccum-suction attachement pad, probe, bracket and the support moving assembly for driving probe mobile, bracket is the pipeline of inner hollow, one end of bracket is connect with vacuum line, the other end of bracket is connect with vaccum-suction attachement pad, bracket is movably set on support moving assembly, and probe is set on the region of the extraction end in contact of vaccum-suction attachement pad and solar components.The utility model can test the correlated performance of solar components automatically, the mechanical damage caused by solar components when reducing artificial connection electrode leads to client, manual operation plug electrode, promote test speed, save operating time and cost of labor, the production procedure time is saved, the test of solar components is enable accurately, easily and fast to carry out.

Description

A kind of solar assembly test apparatus and system

Technical field

The utility model relates to solar components detection technique field more particularly to a kind of solar assembly test device and System.

Background technique

Photovoltaic module is the basic device of photovoltaic power generation, is used directly for generating electricity, and either crystal silicon battery component is still Film assembly (including flexible unit) requires to test IV performance to photovoltaic module after producing.IV test is determination component etc. One of the critical process of grade.

Photovoltaic module IV test at present uses flash lamp as solar simulator, carries out simulated solar illumination to battery component It penetrates, so that working condition of the simulation under sunlight irradiation tests the electric property of solar module.Test the time It is parallel with solar simulator surface of light source to lie prostrate component front, needs to connect solar panel with probe plug-in package electrode leads to client Part, come signal needed for obtaining acquisition data, the process of plug is generally by having been manually done, while increasing the producing line operating time It will increase cost of labor, and for flexible unit, electrode leads to client is generally relatively thin, when probe contact is pushed or contacted upwards It will lead to exit to deform distortion, or even component caused to damage.If test probe is changed to clip, component electricity is clamped Pole exit is tested, then may cause the phenomenon for having warpage unhorizontal when module testing, test result accuracy.Separately Outside, manually-operated process can also have the risk damaged due to misoperation to component, thus to solar energy group Part generates certain damage.

Utility model content

(1) technical problems to be solved

The technical problems to be solved in the utility model is that existing solar assembly test device probe is easy exit It damages, influences the accuracy of test, the problem of probe plug process has been manually done Expenses Cost and time.

(2) technical solution

In order to solve the above-mentioned technical problem, the utility model provides a kind of solar assembly test device, including vacuum Suction tray, probe, bracket and the support moving assembly for driving the probe mobile, the bracket are the pipeline of inner hollow, institute The one end for stating bracket is connect with vacuum line, and the other end is connect with the vaccum-suction attachement pad, and the bracket is movably set to On the support moving assembly, the probe is set to the region of the extraction end in contact of the vaccum-suction attachement pad and solar components On.

It wherein, further include camera, the camera is embedded at the bottom surface of the vaccum-suction attachement pad, to scan the sun The bar code of the exit of energy component.

Wherein, the probe is two, including anode test probe and cathode test probe.

Wherein, the bracket is equipped with cylinder, and the cylinder is connect by spring with the probe.

Wherein, the support moving assembly includes guide frame, and the guide frame includes horizontally disposed slides laterally Guide rail and longitudinal side rails, the longitudinal side rails are vertical with the lateral slide rail to be connect, and the longitudinal sliding motion Guide rail can be moved along the lateral slide rail, and the bracket is vertically arranged on the longitudinal side rails and can be along described vertical It is mobile to slide rail.

Wherein, the support moving assembly further includes support frame, and support frame as described above is arranged perpendicular to the guide frame, and It is connect with the lateral slide rail, is used to support and moves up and down the guide frame, and the guide frame is driven to exist Horizontal plane rotation.

It wherein, further include data analysis processor, the data analysis processor is connect with the probe.

The utility model additionally provides a kind of solar assembly test system, including transmitting device, illumination apparatus and as above The solar assembly test device, the solar assembly test device are located at the illumination apparatus and the transmitting device Between, the transmitting device conveys the solar components；The illumination projected area of the illumination apparatus is the solar energy group The photoelectric conversion regions of part.

Wherein, camera bellows is provide on the transmitting device, the illumination apparatus is located in the camera bellows, the entrance of the camera bellows Equipped with inlet sensor.

Wherein, further include control device, the control device respectively with the transmitting device, illumination apparatus, described Solar assembly test device connected with the inlet sensor.

(3) beneficial effect

The above-mentioned technical proposal of the utility model has the following advantages that the utility model solar assembly test device passes through Moving assembly is supported to drive bracket mobile, bracket designs for hollow pipeline, and upper end connects vacuum line, and lower end connects vacuum suction Disk is covered with vacuum sucking holes on vaccum-suction attachement pad, and solar components have the exit as conductive positive and negative anodes, and probe setting is true Empty suction tray can contact on the position of solar components exit, after the completion of supporting moving assembly to drive bracket running fix, Vaccum-suction attachement pad can be vacuumized with extraction end in contact by vacuum line, after vacuum pressure reaches certain value, vacuum suction The part of the extraction end in contact of disk and solar components can adsorb exit, and the partial adsorbates beyond exit are in the sun The surface of holding element below energy component, is fixed solar components exit with this, while probe is because of vacuum suction The suction-operated of disk is contacted with end surfaces are drawn, to be tested, after the completion of test, vacuum release, probe lift return to Survey state.The utility model can test the correlated performance of solar components automatically, reduce artificial connection electrode leads to client, artificial The mechanical damage caused by solar components when operation plug electrode, promotes test speed, saves operating time and cost of labor, The production procedure time is saved, the test of solar components is enable accurately, easily and fast to carry out.

In addition to the utility model described above solve the technical issues of, composition technical solution technical characteristic and Have except advantage brought by the technical characteristic of these technical solutions, the other technical characteristics of the utility model and these technologies are special The advantages of sign is brought, will further illustrate in conjunction with attached drawing.

Detailed description of the invention

Fig. 1 is the main view of the utility model embodiment solar assembly test device；

Fig. 2 is the structural schematic diagram of the utility model embodiment solar components；

Fig. 3 is the bottom view of the test probe of the utility model embodiment solar assembly test device；

Fig. 4 is the main view of the test probe of the utility model embodiment solar assembly test device；

Fig. 5 is the top view of the utility model embodiment solar assembly test device；

Fig. 6 is the top view of the utility model embodiment solar assembly test device；

Fig. 7 is the structural schematic diagram of the utility model embodiment solar assembly test system；

Fig. 8 is the structural schematic diagram of the utility model embodiment solar assembly test system；

Fig. 9 is the major side views of the transmitting device of the utility model embodiment solar assembly test system；

Figure 10 is the left side view of the transmitting device of the utility model embodiment solar assembly test system.

In figure: 1: probe；2: support moving assembly；3: solar components；4: data analysis processor；5: transmitting device； 6: illumination apparatus；7: camera bellows；8: inlet sensor；9: control device；10: vaccum-suction attachement pad；11: bracket；12: camera；1a: Anode test probe；1b: cathode tests probe；201: guide frame；202: support frame；203: guide groove；301: exit； 302: bar code；303: photoelectric conversion regions；501: testboard；502: transmission rail；503: driver；504: entrance conveyer belt； 505: outlet conveyer belt 2011: lateral slide rail；2012: longitudinal side rails.

Specific embodiment

It is practical new below in conjunction with this to keep the objectives, technical solutions, and advantages of the embodiments of the present invention clearer Attached drawing in type embodiment, the technical scheme in the utility model embodiment is clearly and completely described, it is clear that is retouched The embodiment stated is a part of the embodiment of the utility model, instead of all the embodiments.Based on the reality in the utility model Apply example, those of ordinary skill in the art's every other embodiment obtained without making creative work, all Belong to the range of the utility model protection.

In the description of the present invention, it should be noted that unless otherwise clearly defined and limited, term " is pacified Dress ", " connected ", " connection " shall be understood in a broad sense, for example, it may be being fixedly connected, may be a detachable connection, or integrally Connection；It can be mechanical connection, be also possible to be electrically connected；Can be directly connected, can also indirectly connected through an intermediary, It can be the connection inside two elements.For the ordinary skill in the art, above-mentioned art can be understood with concrete condition The concrete meaning of language in the present invention.

In addition, in the description of the present invention, unless otherwise indicated, " multiple ", " more ", " multiple groups " are meant that two A or more than two, " several ", " several ", " several groups " are meant that one or more.

As shown in Figure 1, Figure 2, Figure 3 and Figure 4, solar assembly test device provided by the embodiment of the utility model, including Vaccum-suction attachement pad 10, probe 1, bracket 11 and the support moving assembly 2 for driving probe 1 mobile, bracket 11 are the pipe of inner hollow The one end in road, bracket 11 is connect with vacuum line, and the other end of bracket 11 is connect with vaccum-suction attachement pad 10, and bracket 11 is moveable It is set on support moving assembly 2, probe 1 is set to the area that vaccum-suction attachement pad 10 is contacted with the exit 301 of solar components 3 On domain.

The utility model solar assembly test device drives bracket mobile by support moving assembly, and bracket is hollow tube Road design, upper end connect vacuum line, and lower end connects vaccum-suction attachement pad, is covered with vacuum sucking holes, solar energy group on vaccum-suction attachement pad Part has the exit as conductive positive and negative anodes, and vaccum-suction attachement pad, which is arranged in, in probe can contact the position of solar components exit On, after the completion of supporting moving assembly to drive bracket running fix, vaccum-suction attachement pad can pass through vacuum line with extraction end in contact It is vacuumized, after vacuum pressure reaches certain value, the part of the extraction end in contact of vaccum-suction attachement pad and solar components can be right Exit is adsorbed, the surface of holding element of the partial adsorbates beyond exit below solar components, with this to too It is positive can component exit be fixed, while probe is contacted with extraction end surfaces because of the suction-operated of vaccum-suction attachement pad, thus into Row test, after the completion of test, vacuum release, probe, which lifts, returns to state to be measured.The utility model can test solar energy automatically The correlated performance of component, the machine caused by solar components when reducing artificial connection electrode leads to client, manual operation plug electrode Tool damage, promotes test speed, saves operating time and cost of labor, saves the production procedure time, makes the survey of solar components Examination accurately, can be carried out easily and fast.

Wherein, the solar assembly test device of the utility model further includes camera 12, and camera 12 is embedded at vacuum The bottom surface of suction tray 10, to scan the bar code 302 of the exit 301 of solar components 3.The exit of solar components has group The bar code of part number, bar code can be two dimensional code or bar code, bar code, that is, component ID number, the associated production information containing component. Before testing, alignment positioning can be carried out by the marginal position that the camera embedded in vaccum-suction attachement pad bottom surface scans exit, Determine porous vacuum suction tray and probe depressed position, and device related information is passed to MES system by the two dimensional code scanned thereon System carries out automatic input to information.Positioning, automatically scanning two dimensional code or the bar code of camera, test data can be automatically real When input producing line data processing system.

Wherein, probe 1 is two, including anode test probe 1a and cathode test probe 1b.Since solar components have There is the exit of positive and negative anodes conduction, so probe, which also respectively corresponds, is divided into anode test probe and cathode test probe, anode is surveyed It sounds out needle to fix with anode extraction end in contact, cathode is tested probe and fixed with cathode extraction end in contact.

Wherein, bracket 11 is equipped with cylinder, and cylinder is connect by spring with probe 1.It is fixed too in vaccum-suction attachement pad absorption After the exit of positive energy component, probe moving down in vertical direction is controlled by the cylinder pressure being arranged on bracket, makes to visit Needle pushing is contacted with exit, and cylinder pressure stops pushing after reaching certain value.Probe is additionally provided on bracket to control up and down Route and signal transmission line, probe is transmitted, is vacuumized up and down, the route of signal transmission is uniformly integrated in signal transmssion line beam In.

Wherein, as shown in Figure 5 and Figure 6, support moving assembly 2 includes guide frame 201, and guide frame 201 includes level The lateral slide rail 2011 and longitudinal side rails 2012 of setting, longitudinal side rails 2012 and lateral slide rail 2011 are hung down It is direct-connected to connect, and longitudinal side rails 2012 can slide along the transverse direction the movement of guide rail 2011, bracket 11 is vertically arranged at longitudinal sliding motion and leads And it can the movement of slide rail 2012 along longitudinal direction on rail 2012.Longitudinal side rails and lateral slide rail are mutually perpendicular to, and are formed " L " Type guide frame, lateral slide rail are main control guide rail, the main movement for controlling longitudinal side rails, longitudinal side rails phase Once it is determined that would not change during the test, longitudinal side rails are secondary control guidance for position for lateral slide rail Rail, position are arranged using the illumination for not blocking solar components reception solar simulator as principle, and longitudinal side rails are transversely Slide rail is mobile, changes the lateral position of probe, and slide rail is mobile along longitudinal direction for bracket, changes the lengthwise position of probe, from And realize that probe is fixed to finding accurately for exit.

In one embodiment of the utility model, longitudinal side rails 2012 are equipped with two guide grooves 203, two branch Frame 11 is connect with two guide grooves 203 respectively.The bracket of the bracket of anode test probe and cathode test probe in the present embodiment Respectively on two guide grooves of longitudinal side rails, when test, respectively corresponds the positive and negative anodes exit of solar components.Two Guide groove, respectively anode test probe and cathode test probe is mobile provides sliding rail.The positive and negative anodes of solar components draw Outlet is in the side of longitudinal side rails, and slide rail is mobile along longitudinal direction for the bracket of anode test probe, until anode test is visited Stop movement after camera scanning to the bar code on positive exit on head, the bracket of cathode test probe slides along longitudinal direction leads Rail is mobile, until stopping movement after the camera scanning to the bar code on cathode exit on cathode test probe.

Wherein, support moving assembly 2 further includes support frame 202, and support frame 202 is arranged perpendicular to guide frame 201, and with Lateral slide rail 2011 connects, and is used to support and moves up and down guide frame 201, and drive guide frame 201 in level Face rotation.Support frame is connect to supporting guide frame with cross slide way, and support frame can control guide frame and solar energy group The distance of part makes guide frame change vertical height and reaches operating position.When solar components slightly have in horizontal position upper angle When offset, angle adjustment can be carried out by camera position rotating, support frame carries out rotating within a certain angle driving Guide frame turns an angle, and preferably rotating range is -5 °~5 °, guarantees that probe finds positioning accurately to exit.In this reality With in novel other embodiments, support frame by screw thread pair rotate or the rising of extensible member extension and contraction control guide frame and under Drop, after guide frame reaches working depth, can be locked between support frame and guide frame, keep relatively fixed, then lead to It crosses rotary drive to rotate support frame, the angle of guide frame in the horizontal plane is adjusted.

Wherein, the utility model solar assembly test device further includes data analysis processor 4, data analysis processor 4 connect with probe 1.One end of probe is connect with conducting wire, accesses data analysis processor, the real-time testing content of probe by conducting wire As a result it is sent in data analysis processor, carries out the correlated performance test of solar components.

As shown in fig. 7, the utility model embodiment additionally provides solar assembly test system, including transmitting device 5, light According to device 6 and such as the solar assembly test device in above-described embodiment, solar assembly test device be located at illumination apparatus 6 and Between transmitting device 5, transmitting device 5 conveys solar components 3；The illumination projected area of illumination apparatus 6 is solar components 3 Photoelectric conversion regions 303.

The illumination apparatus of the utility model solar assembly test system be suspended from transmitting device just on, irradiation is facing towards biography Defeated device, the guide rail frame of solar assembly test device are located above transmitting device, are parallel to transmitting device.Transmitting device will Solar components are gradually transported to below illumination apparatus by outside, and illumination apparatus gives off lighting simulation natural light to transmitting device Light beam, the solar components photoelectric conversion regions on transmitting device will absorb and are converted into electric energy after receiving illumination, and will be related Test information is transferred to Data Analysis Services device.The utility model transmits solar components using transmitting device, automatic to carry out Position correction, positioning promote test accuracy, reduce the operating time；Entire test process is operated without personnel, reduces people Work cost is also not present the hidden danger in terms of personal safety, the sucker using mechanical gripper, larger size is not needed in test process Deng crawl, component will not leave transmitting device and be transmitted or shift, and there is no the risks such as fall, slide, and there is no gravity works With or collide with to component cause damage risk.

In the embodiments of the present invention, transmitting device 5 can be a whole conveyor, by solar components 3 by outside It is transported at solar assembly test device, again transports solar components 3 by solar assembly test device after being completed It sends out.

In another embodiment of the utility model, as shown in figure 8, transmitting device 5 includes testboard 501, transmission rail 502 and driver 503, the conveying direction on testboard 501 along solar components 3 is successively arranged a plurality of groove, transmission rail 502 It is embedded in groove, driver 503 is connect with transmission rail 502, to drive the operating conveying solar components 3 of transmission rail 502；Light The surface of testboard 501 is set to according to device 6, and the illumination projected area of illumination apparatus 6 is the photoelectricity turn of solar components 3 Change region 303.When solar components initially enter testboard, connect according to the corresponding transmission rail rise of the size of solar components Solar components are touched, solar components are gradually moved on testboard by outside, are passed in solar components to testboard Transmission rail drops to original position, flushes with testboard surface.Solar components photoelectric conversion regions on test platform receive Electric energy will be absorbed and be converted into after illumination, and dependence test information is transferred to Data Analysis Services device.The present embodiment uses Transmission rail transmits solar components, carries out position correction, positioning automatically, promotes test accuracy, reduce the operating time；It is whole A test process is operated without personnel, reduces cost of labor, also there is no the hidden danger in terms of personal safety, in test process not It needs to grab using mechanical gripper, sucker of larger size etc., component will not leave transmitting device and be transmitted or shift, not deposit In the risks such as fall, slide, there is no gravity or collides with and cause the risk of damage to component.

In another embodiment of the utility model, as shown in figure 9, transmitting device 5 further includes conveying along transmission rail 502 Direction is set in turn in the entrance conveyer belt 504 and outlet conveyer belt 505 at 501 both ends of testboard, and entrance conveyer belt 504 is by the sun Energy component 3 is passed to test device, and solar components 3 are transferred to subsequent processing by outlet conveyer belt 505.Enter and leave test device It is conveyer belt transmission, carries out position correction, positioning automatically, promote test accuracy, reduce the operating time.

In the present embodiment, illumination apparatus selects solar simulator, and it is strong that illumination apparatus to solar components gives off illumination Degree is 1000W/m²Natural light light beam is simulated, driver selects drive motor, and transmission rail is supported by track support and installed.It is preferred that The height that is risen when conveying solar components of transmission rail beyond testboard surface face 5mm~10mm.It is set on transmission rail There is corresponding responsible transmission rail to rise the jacking control structure of landing.

Wherein, as shown in Figure 10, camera bellows 7 is provide on transmitting device 5, illumination apparatus 6 is located in camera bellows 7, the entrance of camera bellows 7 Equipped with inlet sensor 8.Camera bellows, which is located above transmitting device, surrounds the test space with transmitting device, and camera bellows is filled close to inlet There is an inlet sensor, after laminating process, solar components are conveyed by transmitting device, and the entrance inductor of camera bellows front end senses After solar components, system is transmitted a signal to, is equipped with headlamp in camera bellows, headlamp is closed at this time, is transmitted in transmitting device When solar components enter camera bellows, headlamp opening illuminates.

Wherein, the utility model solar assembly test system further includes control device 9, control device 9 respectively with transmission Device 5, illumination apparatus 6, solar assembly test device and inlet sensor 8 connect.It will letter after camera detection to bar code Control device number is transferred to analyse whether to need through rotation support rod by the carry out angle adjustment of guide rail frame.Probe and extraction After the alignment of end, control device is transmitted a signal to, control device, which issues, pushes instruction, then receives instruction control by cylinder Probe pushes, and probe is contacted after pushing with the exit of solar components.Inlet sensor passes through conveyer belt relevant control Harness is connected with control device, and after laminating process, solar components are transmitted by transmission assembly, the entrance inductor of camera bellows front end After sensing solar components, control device is transmitted a signal to, so that control device carries out starting test device and illumination dress Set the work tested.

The utility model solar assembly test apparatus and system is not only applicable to solar components IV test, is also suitable In PL and the EL test of solar components or in which the two or triplicity.It is terminal box and position for solar components exit In the component of solar components non-illuminated surface, probe can be designed on testboard, be adjusted according to the size of solar components The position of conveyer belt can also design probe in testboard side.

In conclusion the utility model solar assembly test device drives bracket mobile by support moving assembly, branch Frame designs for hollow pipeline, and upper end connects vacuum line, and lower end connects vaccum-suction attachement pad, and vacuum suction is covered on vaccum-suction attachement pad Hole, solar components have the exit as conductive positive and negative anodes, and probe, which is arranged, can contact solar components in vaccum-suction attachement pad On the position of exit, support moving assembly drive bracket running fix after the completion of, vaccum-suction attachement pad can with draw end in contact, It is vacuumized by vacuum line, after vacuum pressure reaches certain value, the extraction of vaccum-suction attachement pad and solar components is terminated The part of touching can adsorb exit, the table of holding element of the partial adsorbates beyond exit below solar components Face is fixed solar components exit with this, while suction-operated and extraction end surfaces of the probe because of vaccum-suction attachement pad Contact, to be tested, after the completion of test, vacuum release, probe, which lifts, returns to state to be measured.The utility model can be automatic The correlated performance of solar components is tested, to solar energy group when reducing artificial connection electrode leads to client, manual operation plug electrode Mechanical damage caused by part promotes test speed, saves operating time and cost of labor, saves the production procedure time, makes the sun The test of energy component accurately, can be carried out easily and fast.

Finally, it should be noted that above embodiments are only to illustrate the technical solution of the utility model, rather than its limitations； Although the utility model is described in detail with reference to the foregoing embodiments, those skilled in the art should understand that: It is still possible to modify the technical solutions described in the foregoing embodiments, or part of technical characteristic is carried out etc. With replacement；And these are modified or replaceed, various embodiments of the utility model technology that it does not separate the essence of the corresponding technical solution The spirit and scope of scheme.

Claims (10)

1. a kind of solar assembly test device, it is characterised in that: including vaccum-suction attachement pad, probe, bracket and drive the spy The mobile support moving assembly of needle, the bracket are the pipeline of inner hollow, and one end of the bracket is connect with vacuum line, separately One end is connect with the vaccum-suction attachement pad, and the bracket is movably set on the support moving assembly, and the probe is set It is placed on the region of the extraction end in contact of the vaccum-suction attachement pad and solar components.

2. solar assembly test device according to claim 1, it is characterised in that: it further include camera, the camera shooting Head is embedded at the bottom surface of the vaccum-suction attachement pad, to scan the bar code of the exit of the solar components.

3. solar assembly test device according to claim 1, it is characterised in that: the probe is two, including just Probe is tested in pole and cathode tests probe.

4. solar assembly test device according to claim 1, it is characterised in that: the bracket is equipped with cylinder, institute Cylinder is stated to connect by spring with the probe.

5. solar assembly test device according to claim 1, it is characterised in that: the support moving assembly includes leading To frame, the guide frame includes horizontally disposed lateral slide rail and longitudinal side rails, the longitudinal side rails It is vertical with the lateral slide rail to connect, and the longitudinal side rails can be moved along the lateral slide rail, the branch Frame is vertically arranged on the longitudinal side rails and can move along the longitudinal side rails.

6. solar assembly test device according to claim 5, it is characterised in that: the support moving assembly further includes Support frame, support frame as described above are arranged perpendicular to the guide frame, and connect with the lateral slide rail, be used to support and on The lower movement guide frame, and the guide frame is driven to rotate in horizontal plane.

7. solar assembly test device according to claim 1, it is characterised in that: it further include data analysis processor, The data analysis processor is connect with the probe.

8. a kind of solar assembly test system, it is characterised in that: including transmitting device, illumination apparatus and such as claim 1-7 Described in any item solar assembly test devices, the solar assembly test device are located at the illumination apparatus and the biography Between defeated device, the transmitting device conveys the solar components；The illumination projected area of the illumination apparatus be it is described too The photoelectric conversion regions of positive energy component.

9. solar assembly test system according to claim 8, it is characterised in that: be provide on the transmitting device dark Case, the illumination apparatus are located in the camera bellows, and the entrance of the camera bellows is equipped with inlet sensor.

10. solar assembly test system according to claim 9, it is characterised in that: it further include control device, the control Device processed is sensed with the transmitting device, the illumination apparatus, the solar assembly test device and the entrance respectively Device connection.