CN219161930U - Magnesium alloy low-power corrosion test device - Google Patents

Abstract

The utility model relates to the technical field of magnesium alloy detection, in particular to a magnesium alloy low-power corrosion test device; including treatment chamber, exhaust collector, sample rack, actuating mechanism, cast ingot corrode the case, warp the case, the light washout case, the clean water tank, centrifuge and a plurality of ultrasonic vibrator, cast ingot corrode the case, warp and all be provided with ultrasonic vibrator in case and the light washout case, centrifuge sets up in the clean water tank, actuating mechanism sets up on the treatment chamber, actuating mechanism includes electric screw, sleeve and electric block, electric screw sets up in the treatment chamber, the outside of electric screw is located to the sleeve cover to with electric screw threaded fit, electric block and sleeve fixed connection, and be located telescopic below, sample rack is connected with electric block, through the setting of above-mentioned structure, realized that can control sample rack motion accomplish whole corrosion test, reduce operating personnel intensity of labour, labour saving and time saving.

Description

Magnesium alloy low-power corrosion test device

Technical Field

The utility model relates to the technical field of magnesium alloy detection, in particular to a magnesium alloy low-power corrosion test device.

Background

In the physicochemical detection analysis of metal materials, the low-power detection of magnesium alloy plays an important role in controlling the quality of products, has important guiding significance on the production process, analyzes all links of the detection flow according to the specification of GB/T4297-2004 deformation magnesium alloy low-power detection method, and comprises the following specific flows: sample selection, processing, corrosive liquid selection, sample surface corrosion, sample surface cleaning by using a lotion, rinsing by using clear water and observation. Firstly milling the detected surface of the low-power sample, keeping the surface clean, free of greasy dirt, pollution and scars after the processing, ensuring that the roughness (R) is not lower than 3.2 mu m, then selecting different corrosive liquids for soaking and corroding the samples (cast ingots and deformed magnesium alloy pieces) in different states, cleaning the samples with clear water after 0.5-3 min of corroding, placing the samples into a light cleaning agent for light cleaning, finally placing the samples into clear water for cleaning, and finally observing whether the samples have low-power tissue defects.

In the magnesium alloy low-power corrosion detection, the most original manual operation is used, and the labor intensity of operators is high, and time and labor are wasted although the standard requirements are basically met.

Disclosure of Invention

The utility model aims to provide a magnesium alloy low-power corrosion test device, and aims to solve the technical problems that in the magnesium alloy low-power corrosion test in the prior art, the most original manual operation is used, and the labor intensity of operators is high and time and labor are wasted although the standard requirements are basically met.

In order to achieve the above purpose, the magnesium alloy low-power corrosion test device comprises a processing chamber, an exhaust gas collector, a sample placing rack, a driving mechanism, an ingot corrosion box, a deformation piece corrosion box, a light washing box, a clear water box, a centrifugal machine and a plurality of ultrasonic vibrators, wherein the exhaust gas collector is arranged in the processing chamber;

the driving mechanism comprises an electric screw rod, a sleeve and an electric hoist, wherein the electric screw rod is arranged in the processing chamber, the sleeve is sleeved outside the electric screw rod and is in threaded fit with the electric screw rod, the electric hoist is fixedly connected with the sleeve and is positioned below the sleeve, and the sample placing rack is connected with the electric hoist.

The magnesium alloy low-power corrosion test device further comprises a concentration detection sensor and a low water level detection sensor, wherein the concentration detection sensor and the low water level detection sensor are respectively arranged on the inner wall of the cast ingot corrosion box.

The magnesium alloy low-power corrosion test device further comprises an observation table and a high-power optical magnifier, the processing chamber is provided with an observation cavity, the observation table is arranged in the observation cavity, and the high-power optical magnifier is arranged on the observation table.

The magnesium alloy low-power corrosion test device further comprises a waste liquid recovery treatment box and a concentration monitoring sensor, wherein the waste liquid recovery treatment box is respectively communicated with the cast ingot corrosion box, the deformed part corrosion box, the light washing box and the clear water box, and the concentration monitoring sensor is arranged in the waste liquid recovery treatment box.

The magnesium alloy low-power corrosion test device further comprises a pressurizing water gun, and the pressurizing water gun is arranged on the clean water tank.

According to the magnesium alloy low-power corrosion test device, the base of the sample placing rack is made of PP material and is provided with the seepage holes, the two sides of the base are provided with the movable stop rods, and stretching and shrinking movements can be carried out to meet the requirement of fixing test pieces with different specifications; the cast ingot corrosion box, the deformed piece corrosion box, the photowash box and the clean water tank are sequentially arranged in parallel in the processing chamber, the ultrasonic vibrators are arranged in the cast ingot corrosion box, the deformed piece corrosion box and the photowash box to ensure that attachments on the surface of a sample fall off so as to avoid the attachments on the sample from influencing the judgment result, the centrifuge enables water in the clean water tank to flow, the solution and corrosion products remained on the surface of the sample are better removed, the surface of the sample is better cleaned, the sample placing frame is arranged at the position right above each box body, the electric screw rod is used for horizontally moving the sample placing frame through the sleeve, through electric block comes control sample rack carries out the up-and-down motion, tests, carries out horizontal migration again after corroding for accomplish light washing and cleaning action, exhaust collector is connected with exhaust column, fan, active carbon adsorber, water tank, and the water tank below is provided with a plurality of shower nozzles, and waste gas transports in the active carbon adsorber through the exhaust column under the fan effect, and waste gas carries out better solution through the steam of injection this moment, thereby reaches pollution-free processing, has realized can control sample rack motion accomplishes whole corrosion test, reduces operating personnel intensity of labour, labour saving and time saving.

Drawings

In order to more clearly illustrate the embodiments of the utility model or the technical solutions in the prior art, the drawings that are required in the embodiments or the description of the prior art will be briefly described, it being obvious that the drawings in the following description are only some embodiments of the 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 structural view of a magnesium alloy low-power corrosion test apparatus according to the present utility model.

101-treatment chamber, 102-waste gas collector, 103-sample rack, 104-electric screw rod, 105-sleeve, 106-electric hoist, 107-cast ingot corrosion box, 108-deformation corrosion box, 109-light washing box, 110-clear water box, 111-centrifuge, 112-ultrasonic vibrator, 113-concentration detection sensor, 114-low water level detection sensor, 115-observation table, 116-high power optical magnifying glass, 117-observation cavity, 118-waste liquid recovery treatment box, 119-concentration monitoring sensor, 120-pressure boost squirt.

Detailed Description

Embodiments of the present utility model are described in detail below, examples of which are illustrated in the accompanying drawings, wherein like or similar reference numerals refer to like or similar elements or elements having like or similar functions throughout. The embodiments described below by referring to the drawings are illustrative and intended to explain the present utility model and should not be construed as limiting the utility model.

Referring to fig. 1 to 1, the utility model provides a magnesium alloy low-power corrosion test device, which comprises a processing chamber 101, an exhaust gas collector 102, a sample placing rack 103, a driving mechanism, an ingot corrosion box 107, a deformation corrosion box 108, a photo-washing box 109, a clean water box 110, a centrifugal machine 111 and a plurality of ultrasonic vibrators 112, wherein the exhaust gas collector 102 is arranged in the processing chamber 101, the ingot corrosion box 107, the deformation corrosion box 108, the photo-washing box 109 and the clean water box 110 are sequentially arranged in the processing chamber 101, the ultrasonic vibrators 112 are arranged in the ingot corrosion box 107, the deformation corrosion box 108 and the photo-washing box 109, the centrifugal machine 111 is arranged in the clean water box 110, the driving mechanism is arranged on the processing chamber 101, and the sample placing rack 103 is connected with the driving mechanism;

the driving mechanism comprises an electric screw rod 104, a sleeve 105 and an electric hoist 106, the electric screw rod 104 is arranged in the processing chamber 101, the sleeve 105 is sleeved outside the electric screw rod 104 and is in threaded fit with the electric screw rod 104, the electric hoist 106 is fixedly connected with the sleeve 105 and is located below the sleeve 105, and the sample placing frame 103 is connected with the electric hoist 106.

In this embodiment, the base of the sample rack 103 is made of PP material and is provided with a liquid seepage hole, and two sides of the base are provided with movable stop rods, so that stretching and shrinking movements can be performed to meet the requirement of fixing test pieces with different specifications; the utility model provides a test sample corrosion box 107, deformation piece corrosion box 108, the photo-wash box 109 the clean water tank 110 is in the treatment room 101 is in proper order and is arranged side by side, the ingot corrosion box 107 the deformation piece corrosion box 108 the ultrasonic vibrator 112 is all installed to the inside of photo-wash box 109, guarantees that sample surface attachment drops to avoid sample attachment to influence the decision result, centrifuge 111 makes the water flow in the clean water tank 110 gets up, better the getting rid of the remaining solution in sample surface and corrosion product, better washing sample surface, sample rack 103 is in the position directly over each box, uses electric screw 104 passes through sleeve 105 is right sample rack 103 carries out horizontal migration, through electric hoist 106 is controlled sample rack 103 carries out up-and-down motion, tests, carries out horizontal migration again after the corruption is accomplished for accomplish light washing and cleaning action, waste gas collector 102 is connected with exhaust pipe, active carbon, water tank, and is provided with a plurality of adsorbers, carries down the exhaust gas and carries out the motion to the exhaust pipe through the exhaust gas, thereby can realize the accurate control of time and realize the high-quality test sample, the high-quality control of water vapor concentration is accomplished to the time-saving, and the accurate control of the sample is realized to the time-saving through the exhaust gas is carried out.

Further, the magnesium alloy low-power corrosion test device further comprises a concentration detection sensor 113 and a low water level detection sensor 114, wherein the concentration detection sensor 113 and the low water level detection sensor 114 are respectively arranged on the inner wall of the ingot corrosion box 107.

In the present embodiment, the inner wall of the ingot corrosion tank 107 is provided with the concentration detection sensor 113 and the low water level detection sensor 114 for detecting the concentration of the corrosive liquid and controlling the water amount.

Further, the magnesium alloy low-power corrosion test apparatus further comprises an observation stage 115 and a high-power optical magnifier 116, the processing chamber 101 is provided with an observation cavity 117, the observation stage 115 is arranged in the observation cavity 117, and the high-power optical magnifier 116 is arranged on the observation stage 115.

In this embodiment, the observation stage 115 is disposed at a parallel position of the clean water tank 110, the surface of the observation stage 115 is provided with a sample fixing frame, and the high power optical magnifier 116 is configured to observe a sample detection surface, by horizontally displacing the sample placement frame 103 on the observation stage 115, samples are sequentially placed for observation and detection, the high power optical magnifier 116 is composed of a computer and is used for photographing, recording and retaining work, and a movable compressed air gun can be disposed between the clean water tank 110 and the observation stage 115 to blow clean water retained on the surface of the samples, so as to realize intuitively and effectively accurately determining the detection result of the samples; for the record of the detection result, a photographing and gear reserving system is designed, so that the traceability of the product quality is effectively improved.

Further, the magnesium alloy low-power corrosion test device further comprises a waste liquid recovery processing box 118 and a concentration monitoring sensor 119, wherein the waste liquid recovery processing box 118 is respectively communicated with the cast ingot corrosion box 107, the deformed part corrosion box 108, the photo-washing box 109 and the clean water box 110, and the concentration monitoring sensor 119 is arranged in the waste liquid recovery processing box 118.

In this embodiment, the waste liquid recovery processing box 118 is respectively connected with the ingot casting corrosion box 107, the deformation corrosion box 108, the photo-washing box 109 and the clean water box 110 through the liquid discharge pipe, the concentration monitoring sensor 119 is arranged in the waste liquid recovery processing box 118, so that the PH value of the used waste liquid reaches the dischargeable range, and the waste liquid can be discharged, thereby effectively eliminating the environmental pollution and achieving the environmental protection effect.

Further, the magnesium alloy low-power corrosion test device further comprises a booster water gun 120, and the booster water gun 120 is arranged on the clean water tank 110.

In the present embodiment, the cleaning water tank 110 is configured to wash the sample using the pressurized water gun 120, so that the cleaning effect on the sample can be further improved.

The above disclosure is only a preferred embodiment of the present utility model, and it should be understood that the scope of the utility model is not limited thereto, and those skilled in the art will appreciate that all or part of the procedures described above can be performed according to the equivalent changes of the claims, and still fall within the scope of the present utility model.

Claims (5)

1. A magnesium alloy low-power corrosion test device is characterized in that,

the device comprises a processing chamber, an exhaust gas collector, a sample placing rack, a driving mechanism, an ingot corrosion box, a deformation corrosion box, a light washing box, a clean water tank, a centrifugal machine and a plurality of ultrasonic vibrators, wherein the exhaust gas collector is arranged in the processing chamber, the ingot corrosion box, the deformation corrosion box, the light washing box and the clean water tank are sequentially arranged in the processing chamber, the ultrasonic vibrators are arranged in the ingot corrosion box, the deformation corrosion box and the light washing box, the centrifugal machine is arranged in the clean water tank, the driving mechanism is arranged on the processing chamber, and the sample placing rack is connected with the driving mechanism;

the driving mechanism comprises an electric screw rod, a sleeve and an electric hoist, wherein the electric screw rod is arranged in the processing chamber, the sleeve is sleeved outside the electric screw rod and is in threaded fit with the electric screw rod, the electric hoist is fixedly connected with the sleeve and is positioned below the sleeve, and the sample placing rack is connected with the electric hoist.

2. The magnesium alloy low power corrosion test apparatus according to claim 1, wherein,

the magnesium alloy low-power corrosion test device further comprises a concentration detection sensor and a low water level detection sensor, wherein the concentration detection sensor and the low water level detection sensor are respectively arranged on the inner wall of the ingot corrosion box.

3. The magnesium alloy low power corrosion test apparatus according to claim 2, wherein,

the magnesium alloy low-power corrosion test device further comprises an observation table and a high-power optical magnifier, the processing chamber is provided with an observation cavity, the observation table is arranged in the observation cavity, and the high-power optical magnifier is arranged on the observation table.

4. A magnesium alloy low power corrosion test apparatus according to claim 3, wherein,

the magnesium alloy macroscopic corrosion test device further comprises a waste liquid recovery treatment box and a concentration monitoring sensor, wherein the waste liquid recovery treatment box is respectively communicated with the cast ingot corrosion box, the deformation corrosion box, the light washing box and the clear water box, and the concentration monitoring sensor is arranged in the waste liquid recovery treatment box.

5. The magnesium alloy low power corrosion test apparatus according to claim 4, wherein,

the magnesium alloy low-power corrosion test device further comprises a pressurizing water gun, and the pressurizing water gun is arranged on the clean water tank.

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