CN213932982U - Efficient detection device for detecting underwater air tightness of LED lamp - Google Patents
Efficient detection device for detecting underwater air tightness of LED lamp Download PDFInfo
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- CN213932982U CN213932982U CN202023031893.6U CN202023031893U CN213932982U CN 213932982 U CN213932982 U CN 213932982U CN 202023031893 U CN202023031893 U CN 202023031893U CN 213932982 U CN213932982 U CN 213932982U
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- water tank
- console
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- led lamp
- detection device
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Abstract
The utility model discloses a detect high-efficient detection device of LED lamp gas tightness under water mainly includes water tank, control cabinet, transformer, mount, rolling gear, motor, detecting tube and test interface. Wherein, the control cabinet is arranged at one end of the outer wall of the water tank and is clamped with the water tank. The transformer is arranged in the console and is positioned at one end of the bottom of the console, which is close to the water tank. The fixed mount is arranged on the console and is positioned at one end of the top of the console, which is close to the water tank. One end of the top of the fixing frame, which is close to the water tank, is provided with a rolling gear, and the other end is provided with a motor. The motor is in transmission connection with the rolling gear. The detection tube is arranged in the water tank and is positioned at one end close to the fixed frame. One end of the detection tube close to the fixed frame is provided with a rolling gear groove. The test interface is arranged at the lower part of the detection tube and is one end of the detection tube far away from the console. The test interface is electrically connected with the transformer.
Description
Technical Field
The utility model belongs to LED lamp and LED lamp production detection area, in particular to detect high-efficient detection device of LED lamp gas tightness under water.
Background
The LED is a light emitting diode, a plurality of LED lamps are used in the market at present, the LED lamp is not only used for common illumination, but also used for a plurality of landscape lamps, especially, more and more existing LED lamps are used for water landscape and underwater landscape lamps, the air tightness is particularly critical for the LED lamps used underwater, in the production process, the air tightness of the LED lamps is tested in a simulation test mode for simplicity, so that the tested result is easy to have errors, and is not completely correct for users, and therefore, the underwater air tightness detection device is particularly important for the underwater LED lamps.
SUMMERY OF THE UTILITY MODEL
Utility model purpose: the utility model provides a detect high-efficient detection device of LED lamp airtightness under water, can effectually carry out the test of airtightness under water, the LED lamp that can be many detects simultaneously, improves detection efficiency.
The technical scheme is as follows: the utility model provides a detect high-efficient detection device of LED lamp airtightness under water, includes water tank, control cabinet, transformer, mount, rolling gear, motor, test tube and test interface.
Wherein, the control cabinet is arranged at one end of the outer wall of the water tank and is clamped with the water tank. The transformer is arranged in the console and is positioned at one end of the bottom of the console, which is close to the water tank. The fixed mount is arranged on the console and is positioned at one end of the top of the console, which is close to the water tank. One end of the top of the fixing frame, which is close to the water tank, is provided with a rolling gear, and the other end is provided with a motor. The motor is in transmission connection with the rolling gear. The detection tube is arranged in the water tank and is positioned at one end close to the fixed frame. One end of the detection tube close to the fixed frame is provided with a rolling gear groove. The test interface is arranged at the lower part of the detection tube and is one end of the detection tube far away from the console. The test interface is electrically connected with the transformer.
The utility model discloses a detect high-efficient detection device of LED lamp gas tightness under water mainly includes water tank, control cabinet, transformer, mount, rolling gear, motor, detecting tube and test interface. Wherein, the control cabinet is arranged at one end of the outer wall of the water tank and is clamped with the water tank. The transformer is arranged in the console and is positioned at one end of the bottom of the console, which is close to the water tank. The fixed mount is arranged on the console and is positioned at one end of the top of the console, which is close to the water tank. One end of the top of the fixing frame, which is close to the water tank, is provided with a rolling gear, and the other end is provided with a motor. The motor is in transmission connection with the rolling gear. The detection tube is arranged in the water tank and is positioned at one end close to the fixed frame. One end of the detection tube close to the fixed frame is provided with a rolling gear groove. The test interface is arranged at the lower part of the detection tube and is one end of the detection tube far away from the console. The test interface is electrically connected with the transformer. A actually measure for LED bulb's airtightness under water installs the LED bulb on test interface, through the removal of control detection tube under the water tank, through the environmental simulation of water tank, actually measures the airtightness performance under water of LED bulb, and its easy operation can know the actual airtightness under water of LED bulb fast, and short-term test need not through the detection of data simulation layer upon layer, and the test result reliability is high.
Furthermore, the efficient detection device for detecting the underwater air tightness of the LED lamp further comprises a test switch. The test switch is arranged on the console and is positioned at the middle end of the top of the console. The test switch is electrically connected with the transformer. As a preferred, test switch can be quick after the test is prepared to accomplish start detecting and stop detecting.
Furthermore, the efficient detection device for detecting the underwater air tightness of the LED lamp further comprises a mobile control button. The mobile control button is arranged on the control console and is positioned at one end close to the test switch. The mobile control button is electrically connected with the motor. As a preferred, the mobile control button can control reciprocating of motor to the test tube and control, improves the change speed of LED bulb on the test tube.
Furthermore, the efficient detection device for detecting the underwater air tightness of the LED lamp further comprises a water inlet pipe. The water inlet pipe is arranged on the side wall of one end, far away from the detection pipe, in the water tank, one end of the water inlet pipe is positioned outside the water tank, and the other end of the water inlet pipe is positioned at the bottom of the water tank. As a preferred, longer inlet tube can prevent that steam from splashing when adding water, and the inlet tube can also be used as the drinking-water pipe simultaneously.
Furthermore, seven test interfaces are sequentially arranged on the detection tube of the high-efficiency detection device for detecting the underwater air tightness of the LED lamp. As the utility model discloses a preferably, can set up a plurality of test interface on the detecting tube, test interface's quantity can influence the test quantity of same time, the utility model discloses the preferred seven test interface that are provided with.
Further, the efficient detection device for detecting the underwater air tightness of the LED lamp further comprises a base. The base is provided with a water tank and the bottom of the control console. As an optimization of the utility model, the base is convenient to be kept stable when testing.
Furthermore, the base of the efficient detection device for detecting the underwater air tightness of the LED lamp is made of an insulating material, and the bottom of the base is provided with a layer of elastic pad. As the utility model discloses a preferred, the base has insulating nature, and the outside vibrations of absorption that the cushion of bottom can be fine simultaneously make whole device originally stable.
The technical scheme shows that the invention has the following beneficial effects: the utility model discloses a detect high-efficient detection device of LED lamp gas tightness under water mainly includes water tank, control cabinet, transformer, mount, rolling gear, motor, detecting tube and test interface. Wherein, the control cabinet is arranged at one end of the outer wall of the water tank and is clamped with the water tank. The transformer is arranged in the console and is positioned at one end of the bottom of the console, which is close to the water tank. The fixed mount is arranged on the console and is positioned at one end of the top of the console, which is close to the water tank. One end of the top of the fixing frame, which is close to the water tank, is provided with a rolling gear, and the other end is provided with a motor. The motor is in transmission connection with the rolling gear. The detection tube is arranged in the water tank and is positioned at one end close to the fixed frame. One end of the detection tube close to the fixed frame is provided with a rolling gear groove. The test interface is arranged at the lower part of the detection tube and is one end of the detection tube far away from the console. The test interface is electrically connected with the transformer. The device is used for actually measuring the underwater air tightness of the LED bulb, the LED bulb is arranged on the test interface, the underwater air tightness of the LED bulb is actually measured through controlling the movement of the detection tube under the water tank and through environmental simulation of the water tank, the operation is simple, the actual underwater air tightness of the LED bulb can be quickly known, the detection is quick, detection through layer-by-layer data simulation is not needed, the reliability of a test result is high, the test switch can quickly start detection and stop detection after test preparation is finished, the movement control button can control the motor to control the up-and-down movement of the detection tube, the replacement speed of the LED bulb on the detection tube is improved, a longer water inlet tube can prevent water vapor sputtering when water is added, meanwhile, the water inlet tube can also be used as a water pumping tube, a plurality of test interfaces can be arranged on the detection tube, and the number of the test interfaces can influence the test number at the same time, the utility model discloses the preferred seven test interface that are provided with, the base is convenient when testing remain stable, and the base has insulating nature, and the outside vibrations of absorption that the cushion of bottom can be fine simultaneously make whole device originally stable.
Drawings
Fig. 1 is a high-efficiency detection device for detecting underwater air tightness of an LED lamp according to embodiment 1 of the present invention;
fig. 2 is the utility model discloses embodiment 1 the detection LED lamp high-efficient detection device of gas tightness under water.
In the figure: the device comprises a water tank 1, a water inlet pipe 11, a base 12, a control console 2, a transformer 21, a test switch 22, a fixed frame 3, a rolling gear 31, a motor 32, a mobile control button 33, a detection pipe 4 and a test interface 41.
Detailed Description
The invention will be further elucidated with reference to the drawings and the specific embodiments.
Example 1
The high-efficiency detection device for detecting the underwater airtightness of the LED lamp shown in FIG. 1 comprises a water tank 1, a console 2, a transformer 21, a fixing frame 3, a rolling gear 31, a motor 32, a detection tube 4 and a test interface 41. Wherein, the control console 2 is arranged at one end of the outer wall of the water tank 1 and is clamped with the water tank 1. The transformer 21 is arranged in the console 2 and is positioned at one end of the bottom of the console 2 close to the water tank. The fixing frame 3 is arranged on the control console 2 and is positioned at one end, close to the water tank 1, of the top of the control console 2. One end of the top of the fixed mount 3 close to the water tank is provided with a rolling gear 31, and the other end is provided with a motor 32. The motor 32 is in transmission connection with the rolling gear 31. The detection tube 4 is arranged in the water tank 1 and is positioned at one end close to the fixed frame 3. One end of the detection tube 4 close to the fixed frame 3 is provided with a rolling gear groove. The test interface 41 is arranged at the lower part of the detection tube 4 and is the end of the detection tube 4 far away from the console 2. The test interface 41 is electrically connected to the transformer 21. In addition, a test switch 22 is included. The test switch 22 is provided on the console 2 and is located at the middle of the top of the console 2. The test switch 22 is electrically connected to the transformer 21. Also included is a movement control knob 33. The movement control knob 33 is provided on the console 2 at an end near the test switch 22. The movement control knob 33 is electrically connected to the motor 32.
Example 2
The high-efficiency detection device for detecting the underwater airtightness of the LED lamp shown in fig. 2 comprises a water tank 1, a console 2, a transformer 21, a fixing frame 3, a rolling gear 31, a motor 32, a detection tube 4 and a test interface 41. Wherein, the control console 2 is arranged at one end of the outer wall of the water tank 1 and is clamped with the water tank 1. The transformer 21 is arranged in the console 2 and is positioned at one end of the bottom of the console 2 close to the water tank. The fixing frame 3 is arranged on the control console 2 and is positioned at one end, close to the water tank 1, of the top of the control console 2. One end of the top of the fixed mount 3 close to the water tank is provided with a rolling gear 31, and the other end is provided with a motor 32. The motor 32 is in transmission connection with the rolling gear 31. The detection tube 4 is arranged in the water tank 1 and is positioned at one end close to the fixed frame 3. One end of the detection tube 4 close to the fixed frame 3 is provided with a rolling gear groove. The test interface 41 is arranged at the lower part of the detection tube 4 and is the end of the detection tube 4 far away from the console 2. The test interface 41 is electrically connected to the transformer 21. In addition, a test switch 22 is included. The test switch 22 is provided on the console 2 and is located at the middle of the top of the console 2. The test switch 22 is electrically connected to the transformer 21. Also included is a movement control knob 33. The movement control knob 33 is provided on the console 2 at an end near the test switch 22. The movement control knob 33 is electrically connected to the motor 32. Furthermore, a water inlet pipe 11 is included. The inlet tube is arranged on the side wall of one end of the water tank 1 far away from the detection tube 4, one end of the inlet tube 11 is positioned outside the water tank 1, and the other end is positioned at the bottom of the water tank 1. In addition, seven test interfaces 41 are sequentially arranged on the detection tube 4. Meanwhile, a base 12 is also included. The base 12 is provided at the bottom of the water tank 1 and the console 2. In addition, the base 12 is made of an insulating material, and a layer of elastic pad is arranged at the bottom of the base 12.
The foregoing is only a preferred embodiment of the present invention, and it should be noted that, for those skilled in the art, a plurality of modifications can be made without departing from the principles of the present invention, and these modifications should also be regarded as the protection scope of the present invention.
Claims (7)
1. A detect LED lamp high-efficient detection device of gas tightness under water: the method is characterized in that: the device comprises a water tank (1), a console (2), a transformer (21), a fixing frame (3), a rolling gear (31), a motor (32), a detection tube (4) and a test interface (41); the control console (2) is arranged at one end of the outer wall of the water tank (1) and is clamped with the water tank (1); the transformer (21) is arranged in the console (2) and is positioned at one end of the bottom of the console (2) close to the water tank; the fixed frame (3) is arranged on the console (2) and is positioned at one end, close to the water tank (1), of the top of the console (2); one end of the top of the fixed frame (3) close to the water tank is provided with a rolling gear (31), and the other end is provided with a motor (32); the motor (32) is in transmission connection with the rolling gear (31); the detection pipe (4) is arranged in the water tank (1) and is positioned at one end close to the fixed frame (3); one end of the detection tube (4) close to the fixed frame (3) is provided with a rolling gear groove; the test interface (41) is arranged at the lower part of the detection tube (4) and is one end of the detection tube (4) far away from the console (2); the test interface (41) is electrically connected with the transformer (21).
2. The high-efficiency detection device for detecting the underwater air tightness of the LED lamp according to claim 1, characterized in that: further comprising a test switch (22); the test switch (22) is arranged on the console (2) and is positioned at the middle end of the top of the console (2); the test switch (22) is electrically connected with the transformer (21).
3. The high-efficiency detection device for detecting the underwater air tightness of the LED lamp according to claim 2, characterized in that: also comprises a movement control button (33); the mobile control button (33) is arranged on the console (2) and is positioned at one end close to the test switch (22); the movement control button (33) is electrically connected with the motor (32).
4. The high-efficiency detection device for detecting the underwater air tightness of the LED lamp according to claim 1, characterized in that: also comprises a water inlet pipe (11); the inlet tube is arranged on the side wall of one end, far away from the detection tube (4), in the water tank (1), one end of the inlet tube (11) is arranged outside the water tank (1), and the other end of the inlet tube is arranged at the bottom of the water tank (1).
5. The high-efficiency detection device for detecting the underwater air tightness of the LED lamp according to claim 1, characterized in that: seven test interfaces (41) are sequentially arranged on the detection tube (4).
6. The high-efficiency detection device for detecting the underwater air tightness of the LED lamp according to claim 1, characterized in that: also comprises a base (12); the base (12) is arranged at the bottoms of the water tank (1) and the control console (2).
7. The high-efficiency detection device for detecting the underwater air tightness of the LED lamp according to claim 6, characterized in that: the base (12) is made of an insulating material, and a layer of elastic cushion is arranged at the bottom of the base (12).
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN202023031893.6U CN213932982U (en) | 2020-12-16 | 2020-12-16 | Efficient detection device for detecting underwater air tightness of LED lamp |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN202023031893.6U CN213932982U (en) | 2020-12-16 | 2020-12-16 | Efficient detection device for detecting underwater air tightness of LED lamp |
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Publication Number | Publication Date |
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CN213932982U true CN213932982U (en) | 2021-08-10 |
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Application Number | Title | Priority Date | Filing Date |
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CN202023031893.6U Expired - Fee Related CN213932982U (en) | 2020-12-16 | 2020-12-16 | Efficient detection device for detecting underwater air tightness of LED lamp |
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Country | Link |
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CN (1) | CN213932982U (en) |
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2020
- 2020-12-16 CN CN202023031893.6U patent/CN213932982U/en not_active Expired - Fee Related
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Legal Events
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GR01 | Patent grant | ||
GR01 | Patent grant | ||
CF01 | Termination of patent right due to non-payment of annual fee |
Granted publication date: 20210810 Termination date: 20211216 |
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CF01 | Termination of patent right due to non-payment of annual fee |