CN219319692U - Watertight sealing experiment table - Google Patents
Watertight sealing experiment table Download PDFInfo
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- CN219319692U CN219319692U CN202221969696.5U CN202221969696U CN219319692U CN 219319692 U CN219319692 U CN 219319692U CN 202221969696 U CN202221969696 U CN 202221969696U CN 219319692 U CN219319692 U CN 219319692U
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- Y—GENERAL TAGGING OF NEW TECHNOLOGICAL DEVELOPMENTS; GENERAL TAGGING OF CROSS-SECTIONAL TECHNOLOGIES SPANNING OVER SEVERAL SECTIONS OF THE IPC; TECHNICAL SUBJECTS COVERED BY FORMER USPC CROSS-REFERENCE ART COLLECTIONS [XRACs] AND DIGESTS
- Y02—TECHNOLOGIES OR APPLICATIONS FOR MITIGATION OR ADAPTATION AGAINST CLIMATE CHANGE
- Y02E—REDUCTION OF GREENHOUSE GAS [GHG] EMISSIONS, RELATED TO ENERGY GENERATION, TRANSMISSION OR DISTRIBUTION
- Y02E30/00—Energy generation of nuclear origin
- Y02E30/30—Nuclear fission reactors
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Abstract
The utility model discloses a watertight sealing experiment table, which comprises an experiment box, wherein a partition plate is fixedly connected in the experiment box, the partition plate divides the experiment box into a detection cavity and a water storage cavity, the detection cavity is positioned above the water storage cavity, a sample window is fixedly connected on the side wall of the experiment box, the sample window is correspondingly arranged with the detection cavity, and the watertight sealing experiment table further comprises a water guide piece, which is arranged in the experiment box, and the detection cavity is communicated with the water storage cavity through the water guide piece; the air supply piece is arranged in the detection cavity and comprises an air supply plate, the air outlet end of the air supply plate is arranged corresponding to the sample window, and the height of the air supply plate is adjusted through the height adjusting piece. The utility model can simulate the disturbance of external wind to the accumulated water, so that the accumulated water is in a motion state and is contacted with the window, the simulated environment of the window is closer to the actual use environment, the test effect is improved on one hand, and the display effect is improved on the other hand.
Description
Technical Field
The utility model relates to the technical field of window testing, in particular to a watertight sealing experiment table.
Background
When carrying out watertight seal test to the window, install the window on the lateral wall of laboratory bench generally, through the water injection in to the laboratory bench, with the partial structure of window soak in ponding, observe whether the water in the laboratory bench can flow by the window to this sealed effect of survey window, simultaneously, the laboratory bench can be used as the show stand, through the sealed effect of laboratory bench to user show window promptly.
When current window seals test or show, mostly only to the laboratory bench in water injection, ponding in the laboratory bench does not receive external factor influence, leads to ponding in the laboratory bench to be in static state, however, when the window normal use, the outside ponding of window can receive external wind influence for ponding is in motion state, consequently, the ponding condition that the simulation window that the laboratory bench can not be fine encountered when normal use finally leads to test effect poor or bandwagon effect poor.
Disclosure of Invention
The utility model aims to provide a watertight sealing experiment table, which solves the problems in the prior art, can simulate external wind to disturb accumulated water, enables the accumulated water to be in a motion state and contact with a window, and enables the simulated environment of the window to be closer to the actual use environment, so that the test effect is improved on one hand, and the display effect is improved on the other hand.
In order to achieve the above object, the present utility model provides the following solutions: the utility model provides a watertight sealing experiment table, which comprises an experiment box, wherein a division plate is fixedly connected in the experiment box, the division plate divides the experiment box into a detection cavity and a water storage cavity, the detection cavity is positioned above the water storage cavity, a sample window is fixedly connected on the side wall of the experiment box, the sample window is correspondingly arranged with the detection cavity, the watertight sealing experiment table also comprises,
the water guide piece is arranged in the experiment box, and the detection cavity is communicated with the water storage cavity through the water guide piece;
the air supply piece is arranged in the detection cavity, the air supply piece comprises an air supply plate, the air outlet end of the air supply plate is correspondingly arranged with the sample window, the air supply plate is adjusted in height through a height adjusting piece, the air supply plate is adjusted in angle through an angle adjusting piece, and the adjusting positions of the height adjusting piece and the angle adjusting piece are all located outside the experimental box.
Preferably, the water guide piece comprises a water supply pump arranged in the water storage cavity, the water outlet end of the water supply pump is communicated with the experiment box through a water inlet pipe, a water drain valve is fixedly connected to the top end of the partition plate, the water inlet end of the water drain valve is communicated with the detection cavity, and the water outlet end of the water drain valve is communicated with the water storage cavity.
Preferably, the side wall of the experiment box is provided with an adjusting port, the adjusting port is communicated with the water storage cavity, and the adjusting port is correspondingly arranged with a control handle of the water discharging valve.
Preferably, the outer wall of the experiment box is fixedly connected with an air supply pump, an air outlet end of the air supply pump is communicated with an air supply hose, and the air outlet end of the air supply hose is communicated with the air supply plate.
Preferably, the angle adjusting piece is including setting up square pole in the detection chamber, square pole both ends respectively through the bull stick with the division board with the experimental box top rotates to be connected, is located the top square pole runs through the experimental box and stretches out outside the experimental box, the cover is equipped with the connecting plate on the square pole, the connecting plate with square pole sliding connection, the air supply board with the connecting plate rigid coupling.
Preferably, the height adjusting piece comprises a lifting plate sleeved on the square rod, the lifting plate is located below the connecting plate, the top end of the lifting plate is in contact with the bottom end of the connecting plate, a gap exists between the lifting plate and the square rod, and the lifting plate is lifted through a magnetic force suite.
Preferably, the magnetic force external member include with lifter plate lateral wall rigid coupling's first magnet, first magnet is located the lifter plate is close to one side of experiment case inner wall, be provided with the second magnet on the experiment case lateral wall, the second magnet with first magnet adaptation, first magnet passes through the second magnet goes up and down.
Preferably, the connection part of the rotating rod and the inner wall of the experiment box and the connection part of the rotating rod and the partition plate are all fixed with sealing gaskets.
The utility model discloses the following technical effects:
1. through water guide intercommunication detection chamber and water storage chamber, when needs are tested, only need through the water guide with the water guide in the water storage chamber leading-in detection chamber can, after the test is accomplished, only need through the water guide with the detection intracavity ponding in the water storage chamber can for when detecting the window, reduce the water consumption, and water supply and drain conveniently.
2. Through setting up the air feed piece, the air feed piece is bloied to the ponding of detecting the intracavity, and then simulates the disturbance that ponding received when external world, improves detection effect and bandwagon effect.
3. Through setting up high regulating part, adjust the height of air supply board, when detecting the ponding high change of intracavity, the high follow of air supply board changes, and then ensures the normal work of air supply board, adjusts the air-out angle of air supply board through the angle regulating part, further simulates the disturbance of external wind to the ponding.
Drawings
In order to more clearly illustrate the embodiments of the present utility model or the technical solutions of the prior art, the drawings that are needed in the embodiments will be briefly described below, it being obvious that the drawings in the following description are only some embodiments of the present utility model, and that other drawings may be obtained according to these drawings without inventive effort for a person skilled in the art.
FIG. 1 is a schematic diagram of the structure of an experiment table;
FIG. 2 is an enlarged view of a portion of FIG. 1 at A;
FIG. 3 is a perspective view of the connection of the height adjustment member and the angle adjustment member;
FIG. 4 is a perspective view of the air supply plate rotated by a certain angle;
the device comprises a 1-experiment box, a 2-partition plate, a 3-detection cavity, a 4-water storage cavity, a 5-sample window, a 6-air supply plate, a 7-water supply pump, an 8-water drain valve, a 9-adjusting port, a 10-control handle, an 11-air supply pump, a 12-air supply hose, a 13-square rod, a 14-rotating rod, a 15-connecting plate, a 16-lifting plate, a 17-first magnet, a 18-second magnet and a 19-sealing gasket.
Detailed Description
The following description of the embodiments of the present utility model will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present utility model, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the utility model without making any inventive effort, are intended to be within the scope of the utility model.
In order that the above-recited objects, features and advantages of the present utility model will become more readily apparent, a more particular description of the utility model will be rendered by reference to the appended drawings and appended detailed description.
Referring to fig. 1-4, the utility model provides a watertight sealing experiment table, which comprises an experiment box 1, wherein a partition plate 2 is fixedly connected in the experiment box 1, the partition plate 2 divides the experiment box 1 into a detection cavity 3 and a water storage cavity 4, the detection cavity 3 is positioned above the water storage cavity 4, a sample window 5 is fixedly connected on the side wall of the experiment box 1, the sample window 5 is correspondingly arranged with the detection cavity 3, and the watertight sealing experiment table further comprises a water guide piece, which is arranged in the experiment box 1, and the detection cavity 3 is communicated with the water storage cavity 4 through the water guide piece; the air supply piece is arranged in the detection cavity 3, the air supply piece comprises an air supply plate 6, the air outlet end of the air supply plate 6 is correspondingly arranged with the sample window 5, the air supply plate 6 is adjusted in height through a height adjusting piece, the air supply plate 6 is adjusted in angle through an angle adjusting piece, and the adjusting positions of the height adjusting piece and the angle adjusting piece are all located outside the experiment box 1.
When the sample window 5 or the sample window 5 is required to be tested, water in the water storage cavity 4 is led into the detection cavity 3 through the water guide piece, then the air supply plate 6 is started, the air supply plate 6 sprays air flow to disturb the water accumulation in the detection cavity 3, in the process, the position of the air supply plate 6 is adjusted through the height adjusting piece and the angle adjusting piece, and accordingly the air outlet direction of the air supply plate 6 is adjusted to simulate the disturbance of different directions of air to the water accumulation.
Further optimizing scheme, water guide spare is including setting up the working shaft 7 in water storage chamber 4, and working shaft 7 goes out the water end and communicates with experiment case 1 through the inlet tube, and division board 2 top rigid coupling has water drain valve 8, and water drain valve 8 advances the water end and detects the chamber 3 intercommunication, and water drain valve 8 goes out the water end and communicates with water storage chamber 4. The working pump 7 sets up in water storage chamber 4, it is used for promoting the water in the water storage chamber 4 to detect the intracavity 3, when sample window 5 tests, water drain valve 8 is in the closed state, make the ponding in the detection chamber 3 unable entering water storage chamber 4, after the test is accomplished, close working pump 7, open water drain valve 8, make the ponding in the detection chamber 3 import in water storage chamber 4 by water drain valve 8, in order to test of sample window 5 next time, simultaneously, the ponding in the detection chamber 3 is discharged, can make things convenient for the user to open sample window 5, observe or explain seal structure or other structures of sample window 5.
Further optimizing scheme, adjusting port 9 has been seted up to experimental box 1 lateral wall, and adjusting port 9 and water storage chamber 4 intercommunication, and adjusting port 9 and the control handle 10 of water drain valve 8 correspond the setting. The presence of the adjustment opening 9 facilitates the contact of the person with the control handle 10 of the drain valve 8, by rotating the control handle 10, opening and closing the drain valve 8.
Specifically, the water drain valve 8 may be a prior art, for example, a connection structure between the water drain valve 8 and the control handle 10 is a connection structure of a faucet.
Further optimizing scheme, the outer wall rigid coupling of experimental box 1 has air supply pump 11, and air supply pump 11 gives vent to anger the end intercommunication and has air supply hose 12, and air supply hose 12 gives vent to anger the end and is linked together with air supply board 6. The air supply pump 11 can be fixed on the top of the experiment box 1, and can also be fixed on the rest side wall of the experiment box 1 except the sample window 5, the air supply pump 11 supplies air to the air supply plate 6, so that the air supply plate 6 can disturb accumulated water, and the air supply hose 12 is a flexible hose, and the purpose is that the air supply plate 6 needs to rotate or lift, and the air supply hose 12 can enable the air supply pump 11 to normally supply air to the air supply plate 6.
Further, an air outlet (not shown in the figure) is formed in the top end of the experiment box 1. After the air supply plate 6 supplies air for a long time, the air pressure in the detection cavity 3 is increased, so that an air outlet can be arranged according to actual needs and used for guaranteeing the air pressure in the detection cavity 3 and normally detecting the tightness of the sample window 5.
In one embodiment of the present utility model, a power source (not shown) is provided outside the experiment box 1, and the power source is connected to the water supply pump 7 and the air supply pump 11, respectively, so that both work normally.
Further optimizing scheme, angle adjusting part is including setting up square pole 13 in detecting the chamber 3, and square pole 13 both ends are connected through bull stick 14 and division board 2 and experiment case 1 top rotation respectively, and square pole 13 that is located the top runs through experiment case 1 and stretches out outside the experiment case 1, and square pole 13 goes up the cover and is equipped with connecting plate 15, connecting plate 15 and square pole 13 sliding connection, air feed plate 6 and connecting plate 15 rigid coupling. The existence of square pole 13 for connecting plate 15 can follow square pole 13 and go up and down, simultaneously, when square pole 13 was rotatory, connecting plate 15 followed square pole 13 and was rotatory, and the bull stick 14 that is located the top stretches out outside experimental box 1, can be convenient for the personnel by the orientation of experimental box 1 external regulation air feed plate 6.
Further optimizing scheme, the altitude mixture control spare is including the cover setting up lifter plate 16 on square pole 13, and lifter plate 16 is located connecting plate 15 below, and lifter plate 16 top and connecting plate 15 bottom contact, exists the space between lifter plate 16 and the square pole 13, and lifter plate 16 goes up and down through the magnetic force external member. Under the effect of magnetic force external member for lifter plate 16 supports connecting plate 15, thereby makes connecting plate 15 liftable, and exists the space between lifter plate 16 and square pole 13, and the purpose is when square pole 13 rotates, the existence of lifter plate 16 does not influence its normal rotation.
Further optimizing scheme, magnetic force external member includes the first magnet 17 with lifter plate 16 lateral wall rigid coupling, and first magnet 17 is located the one side that lifter plate 16 is close to experimental box 1 inner wall, is provided with second magnet 18 on the experimental box 1 lateral wall, second magnet 18 and first magnet 17 adaptation, and first magnet 17 goes up and down through second magnet 18. Through the cooperation of first magnet 17 and second magnet 18, when the height of needs regulation air supply board 6, only need personnel remove second magnet 18 outside experimental box 1, second magnet 18 drives first magnet 17 and removes, and first magnet drives lifter plate 16 and removes.
Further optimizing scheme, the sealing gasket 19 is fixed at the joint of the rotating rod 14 and the inner wall of the experiment box 1 and the joint of the rotating rod 14 and the partition plate 2. The sealing gasket 19 is arranged, so that accumulated water is not easy to infiltrate into the junction between the rotating rod 14 and the inner wall of the experiment box 1 and the junction between the rotating rod 14 and the partition plate 2, and the rotating rod 14 is ensured to normally rotate.
The use principle is as follows:
when the sample window 5 or the sample display window 5 is required to be tested, the water supply pump 7 is started, the water drain valve 8 is closed, water in the water storage cavity 4 is led into the detection cavity 3, the air supply pump 11 is started, the air supply plate 6 sprays out water accumulation in the air flow disturbance detection cavity 3, in the process, the height of the air supply plate 6 is adjusted by moving the second magnet 18, the direction of the air supply plate 6 is adjusted by rotating the rotating rod 14 extending out of the experiment box 1, after the test is finished, the air supply pump 11 is closed, the water drain valve 8 is opened, and the water accumulation in the detection cavity 3 is led into the water storage cavity 4.
In the description of the present utility model, it should be understood that the terms "longitudinal," "transverse," "upper," "lower," "front," "rear," "left," "right," "vertical," "horizontal," "top," "bottom," "inner," "outer," and the like indicate or are based on the orientation or positional relationship shown in the drawings, merely to facilitate description of the present utility model, and do not indicate or imply that the devices or elements referred to must have a particular orientation, be constructed and operated in a particular orientation, and thus should not be construed as limiting the present utility model.
The above embodiments are only illustrative of the preferred embodiments of the present utility model and are not intended to limit the scope of the present utility model, and various modifications and improvements made by those skilled in the art to the technical solutions of the present utility model should fall within the protection scope defined by the claims of the present utility model without departing from the design spirit of the present utility model.
Claims (8)
1. The utility model provides a watertight seal laboratory bench, includes experiment case (1), the rigid coupling has division board (2) in experiment case (1), division board (2) will experiment case (1) are separated for detecting chamber (3) and water storage chamber (4), detect chamber (3) are located water storage chamber (4) top, experiment case (1) lateral wall rigid coupling has appearance window (5), appearance window (5) with detect chamber (3) and correspond and set up, its characterized in that: also included is a method of manufacturing a semiconductor device,
the water guide piece is arranged in the experiment box (1), and the detection cavity (3) is communicated with the water storage cavity (4) through the water guide piece;
the air supply piece is arranged in the detection cavity (3), the air supply piece comprises an air supply plate (6), the air outlet end of the air supply plate (6) is correspondingly arranged with the sample window (5), the air supply plate (6) is adjusted in height through a height adjusting piece, the air supply plate (6) is adjusted in angle through an angle adjusting piece, and the adjusting positions of the height adjusting piece and the angle adjusting piece are all located outside the experimental box (1).
2. The watertight sealing laboratory bench as claimed in claim 1, characterized in that: the water guide piece comprises a water supply pump (7) arranged in the water storage cavity (4), the water outlet end of the water supply pump (7) is communicated with the experiment box (1) through a water inlet pipe, a water drain valve (8) is fixedly connected to the top end of the partition plate (2), the water inlet end of the water drain valve (8) is communicated with the detection cavity (3), and the water outlet end of the water drain valve (8) is communicated with the water storage cavity (4).
3. The watertight sealing laboratory bench as claimed in claim 2, characterized in that: the experimental box is characterized in that an adjusting port (9) is formed in the side wall of the experimental box (1), the adjusting port (9) is communicated with the water storage cavity (4), and the adjusting port (9) is correspondingly arranged with a control handle (10) of the water drain valve (8).
4. The watertight sealing laboratory bench as claimed in claim 1, characterized in that: the experimental box is characterized in that an air supply pump (11) is fixedly connected to the outer wall of the experimental box (1), an air outlet end of the air supply pump (11) is communicated with an air supply hose (12), and an air outlet end of the air supply hose (12) is communicated with the air supply plate (6).
5. The watertight sealing laboratory bench as claimed in claim 1, characterized in that: the angle adjusting piece is in including setting up square pole (13) in detecting chamber (3), square pole (13) both ends respectively through bull stick (14) with division board (2) with experimental box (1) top rotation is connected, is located the top square pole (13) run through experimental box (1) and stretch out outside experimental box (1), the cover is equipped with connecting plate (15) on square pole (13), connecting plate (15) with square pole (13) sliding connection, air feed board (6) with connecting plate (15) rigid coupling.
6. The watertight sealing laboratory bench as claimed in claim 5, characterized in that: the height adjusting piece comprises a lifting plate (16) sleeved on the square rod (13), the lifting plate (16) is located below the connecting plate (15), the top end of the lifting plate (16) is in contact with the bottom end of the connecting plate (15), a gap exists between the lifting plate (16) and the square rod (13), and the lifting plate (16) is lifted through a magnetic force suite.
7. The watertight sealing laboratory bench as claimed in claim 6, characterized in that: the magnetic force external member include with first magnet (17) of lifter plate (16) lateral wall rigid coupling, first magnet (17) are located lifter plate (16) are close to one side of experimental box (1) inner wall, be provided with second magnet (18) on experimental box (1) lateral wall, second magnet (18) with first magnet (17) adaptation, first magnet (17) are passed through second magnet (18) go up and down.
8. The watertight sealing laboratory bench as claimed in claim 5, characterized in that: sealing gaskets (19) are fixed at the joint of the rotating rod (14) and the inner wall of the experiment box (1) and the joint of the rotating rod (14) and the partition plate (2).
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
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CN202221969696.5U CN219319692U (en) | 2022-07-28 | 2022-07-28 | Watertight sealing experiment table |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN202221969696.5U CN219319692U (en) | 2022-07-28 | 2022-07-28 | Watertight sealing experiment table |
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CN219319692U true CN219319692U (en) | 2023-07-07 |
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CN202221969696.5U Active CN219319692U (en) | 2022-07-28 | 2022-07-28 | Watertight sealing experiment table |
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CN (1) | CN219319692U (en) |
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2022
- 2022-07-28 CN CN202221969696.5U patent/CN219319692U/en active Active
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