CN201173851Y - Ice ball launcher for detecting anti-collision of solar energy cell assembly - Google Patents

Abstract

The utility model discloses a crash-proof ice hockey emitter for testing a solar module, which comprises an emission tube, an ice hockey, an electromagnetic valve, a high pressure air storage tank, a pressure gauge, a pressure regulating valve, an electromagnetic valve control switch and an infra-red sighting device control switch. The ice hockey is mounted in the emission tube, the infra-red sighting device automatically sights targets, constant high pressure gas serves as emission power, the kinetic energy of the emitted ice hockey is determined by the pressure height of the high pressure gas. When gas pressure is set, the emitted ice hockey has the same energy under the same condition and has accurate striking position. A detecting conclusion by the crash-proof ice hockey emitter for testing a solar module is stable and creditable.

Description

Detect the ice hockey transmitter of solar module anticollision

Technical field:

The utility model relates to a kind of verifying attachment of solar module, relates in particular to a kind of pick-up unit that is used to detect the anti-freezing hail impact property of solar module.

Background technology:

Solar module is the final application product of solar cell, and according to the product standard requirement, this product must reach the serviceable life of 20-30 in physical environment.Therefore, solar module must be prevented the hail impulse test before dispatching from the factory, and in order to detect this technical indicator, the hail that people simulate in the atmosphere with the mode of ice hockey bump impacts.Concrete method for testing and detecting is the regulation surface location that clashes into solar components with the ice hockey of certain particle diameter with certain speed.Original used ice hockey emitter of people is a catapult, because the elastic force of catapult is provided by the lengthening deformation of rubber covered wire, rubber covered wire is easy to wear out in long-term use, the identical length of different times rubber covered wire stretching provides the emissivity difference, the flying speed of ice hockey changes greatly, adopt catapult emission ice hockey, the impact resistance of not only measuring is inaccurate, and the direction of catapult emission ice hockey should not be controlled.In order to overcome the deficiency that catapult emission ice hockey exists, people have developed ice hockey spring ejecting gun again, and the emission ice hockey of using is launched the problem that ice hockey can run into similar catapult equally with ice hockey spring ejecting gun, and ice hockey speed also should not be controlled in long-term use.

The utility model content:

In order to detect the anti-freezing hail impact property of solar module exactly, overcome the deficiency that existing ice hockey emitter exists, the purpose of this utility model provides a kind of ice hockey transmitter that detects the solar module anticollision.

The technical solution adopted in the utility model is as follows:

The ice hockey transmitter of described detection solar module anticollision, it is characterized in that: it comprises power valve, ice hockey, efferent duct, solenoid valve, high pressure tank, input pipe, tensimeter, pressure regulator valve, the solenoid control switch, the sniperscope gauge tap, sniperscope, ice hockey is installed in the power valve, sniperscope is installed on the power valve, power valve communicates with high pressure tank by efferent duct and solenoid valve, high pressure tank passes through input pipe, pressure regulator valve is connected with high-pressure air source, tensimeter communicates with high pressure tank, and the sniperscope gauge tap is electrically connected with sniperscope; The solenoid control switch is electrically connected with solenoid valve, and power valve and high pressure tank all are fixedly mounted on the transmitter frame.

Further, described tensimeter, pressure regulator valve, solenoid control switch, sniperscope gauge tap are installed on the control panel, and control panel is installed on the transmitter frame.

Because ice hockey is installed in the power valve, guidance quality is good during emission, the bump target of ice hockey is aimed at automatically by sniperscope, the gases at high pressure that high-pressure air source is sent here feed high pressure tank after pressure regulator valve is regulated control, the gases at high pressure that meet launch requirements are through efferent duct, solenoid valve links to each other with power valve, place the ice hockey in the power valve to be launched away as long as start the solenoid control switch, the ice hockey of being launched under constant gases at high pressure effect has identical kinetic energy, detect the anti-freezing hail impact property of solar module with it, Impact energy is identical, impingement position is accurate, detect the anti-freezing hail impact property of solar module with the utility model, the detection conclusion that is drawn is stablized credible.

Description of drawings:

Fig. 1 is a structural principle synoptic diagram of the present utility model;

Among the figure: the 1-power valve; The 2-ice hockey; The 3-efferent duct; The 4-solenoid valve; The 5-high pressure tank; The 6-input pipe; The 7-tensimeter; The 8-pressure regulator valve; 9-solenoid control switch; 10-sniperscope gauge tap; The 11-control panel; The 12-gases at high pressure; The 13-sniperscope; 14-transmitter frame.

Embodiment:

Below in conjunction with accompanying drawing, describe embodiment of the present utility model in detail.

The ice hockey transmitter of described detection solar module anticollision, as shown in Figure 1, it is by power valve 1, ice hockey 2, efferent duct 3, solenoid valve 4, high pressure tank 5, input pipe 6, tensimeter 7, pressure regulator valve 8, solenoid control switch 9, sniperscope gauge tap 10, control panel 11, gases at high pressure 12, sniperscope 13, transmitter frame 14 is formed, ice hockey 2 is installed in the power valve 1, sniperscope 13 is housed on power valve 1, power valve 1 communicates with high pressure tank 5 by efferent duct 3 and solenoid valve 4, high pressure tank 5 is by input pipe 6, tensimeter 7, pressure regulator valve 8 is connected with high-pressure air source, tensimeter 7, pressure regulator valve 8, solenoid control switch 9, sniperscope gauge tap 10 all is installed on the control panel 11, and sniperscope gauge tap 10 is electrically connected with sniperscope 13; Solenoid control switch 9 is electrically connected with solenoid valve 4.Power valve 1, control panel 11, high pressure tank 5 all are fixedly mounted on the transmitter frame 14.

Its course of work is as follows:

Gases at high pressure 12 lead to high pressure tank 5 from input pipe 6 through pressure regulator valve 8, high pressure tank 5 is by efferent duct 3, solenoid valve 4 is connected with power valve 1, because ice hockey 2 is installed in the power valve 1, the bump target of ice hockey 2 is aimed at automatically by sniperscope 13, the gases at high pressure 12 that high-pressure air source is sent here feed high pressure tank 5 after pressure regulator valve 8 is regulated control, gases at high pressure 12 in the high pressure tank 5 show its numerical value by tensimeter 7, the gases at high pressure 12 that meet launch requirements are through efferent duct 3, solenoid valve 4 links to each other with power valve 1, as long as start solenoid control switch 9 and sniperscope gauge tap 10, place the ice hockey 2 in the power valve 1 under constant gases at high pressure effect, to be launched away, because it is constant to be used to launch the high-pressure gas pressure of ice hockey, therefore the kinetic energy of launching that ice hockey possessed is identical, detect the anti-freezing hail impact property of solar module with it, not only impact energy is identical, and impingement position is accurate, detect the anti-freezing hail impact property of solar module with the utility model, the detection conclusion that is drawn is stablized credible.

Claims (2)

1, a kind of ice hockey transmitter that detects the solar module anticollision, it is characterized in that: it comprises power valve (1), ice hockey (2), efferent duct (3), solenoid valve (4), high pressure tank (5), input pipe (6), tensimeter (7), pressure regulator valve (8), solenoid control switch (9), sniperscope gauge tap (10), sniperscope (13), ice hockey (2) is installed in the power valve (1), sniperscope (13) is installed on the power valve (1), power valve (1) communicates with high pressure tank (5) by efferent duct (3) and solenoid valve (4), high pressure tank (5) is by input pipe (6), pressure regulator valve (8) is connected with high-pressure air source, tensimeter (7) communicates with high pressure tank (5), and sniperscope gauge tap (10) is electrically connected with sniperscope (13); Solenoid control switch (9) is electrically connected with solenoid valve (4), and power valve (1) and high pressure tank (5) all are fixedly mounted on the transmitter frame (14).

2, according to the ice hockey transmitter of the described detection solar module of claim 1 anticollision, it is characterized in that: described tensimeter (7), pressure regulator valve (8), solenoid control switch (9), sniperscope gauge tap (10) are installed on the control panel (11), and control panel (11) is installed on the transmitter frame (14).

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