CN204903360U - Built -in corrosion experiment sample stores pylon - Google Patents

Abstract

The utility model provides a built -in corrosion experiment sample stores pylon, including base (11) and pallet (12) of split type setting, the material of base (11) and pallet (12) is plastics, base (11) contain bottom plate (1) and a seat section of thick bamboo (2), a seat section of thick bamboo (2) perpendicular to bottom plate (1), pallet (12) contain lifter (5), and lifter (5) outer evenly distributed has many jib (7) that are used for hanging sample (20), and jib (7) can dismantle with lifter (5) and be connected, lifter (5) along vertical orientation setting, and the lower extreme of lifter (5) is pegged graft in a seat section of thick bamboo (2), and lifter (5) can follow vertical orientation and move by fixed. Arrange this built -in corrosion experiment sample stores pylon and sample in contain the corrosive liquid container, both can adjust the sample height at will, can guarantee mutual contactless between the sample again, still improved dispersibility and space utilization simultaneously.

Description

A kind of built-in corrosion experiment sample hanger

Technical field

The utility model relates to a kind of built-in corrosion experiment sample hanger.

Background technology

At present, the corrosion resisting property of corrosion experiment many employings long period of soaking method evaluation sample.Its process one group of sample (being generally 3-6) is placed on one contain in the container of etchant solution, takes out sample and carry out analysis detection after long period of soaking.In the most important index of relevant major part corrosion immersion standard all using weight loss rate as evaluation corrosivity power, therefore, require that sample unsettledly must be placed in soaking solution in immersion process, do not allow to contact with chamber wall, diminish because specimen surface can be caused like this to contact solution area; Sample is not allowed to contact with each other, because the evaluation that bimetallic corrosion may be caused to affect weightless result like this impacts yet.Traditional placement specimen method is to take at beaker oral area puts a crossbeam, is being hung on crossbeam, is adjusting line length by during nylon wire setting fastening according to solution height, sample is suspended in solution by nylon wire and crossbeam by nylon wire by the aperture on sample top.

This method is simple, but also there is following Railway Project: in first experimentation, sample solution slides and causes contact.Because not to the locating device of nylon wire on crossbeam, nylon wire easily slides in long period of soaking process, drive sample to move along crossbeam and cause contacting with each other of sample.It two is that the space efficiency utilization of soaking container is too low.Because major part corrosion soaking container is all the cylindrical shape as beaker sample, the sample hung under nylon wire can only be arranged in straight line along crossbeam, when cylindrical container both sides sample meet not contacting container wall, the space availability ratio in container center region is lower.Its three be sample space arrangement dispersiveness bad.Under prior art condition, sample is arranged along crossbeam by nylon wire, and in the space that sample is limited in a reservoir, dispersion is uneven, if the corrosive solution ion-diffusibility in container is not strong, is easy to the concentration difference causing topical solutions.Its four be sample suspension height unadjustable.Because the sample in a reservoir height of rest position is controlled by the length of nylon wire, once determine that nylon wire length just cannot adjust, change if now need adjustment specimen height can only cut nylon wire, very inconvenient.

Utility model content

In order to solve the uncontrollable problem of height of traditional sample suspension, the utility model provides a kind of built-in corrosion experiment sample hanger, this built-in corrosion experiment sample hanger and sample are placed in the container containing corrosive liquid, both arbitrarily specimen height can be adjusted, can ensure again to be not in contact with each other between sample, also improve dispersiveness and space availability ratio simultaneously.

The utility model solves the technical scheme that its technical matters adopts: a kind of built-in corrosion experiment sample hanger, and comprise base and the pallet of split type setting, the material of base and pallet is plastics; Base contains base plate and seat cylinder, and seat cylinder is perpendicular to base plate, and the lower end of seat cylinder is fixedly connected with base plate; Pallet contains elevating lever, and suspension rod and elevating lever removably connect, and elevating lever is vertically arranged for hanging the suspension rod of sample to be evenly distributed with many outside elevating lever, and the lower end of elevating lever is plugged in seat cylinder, and elevating lever can vertically move and be fixed.

Base plate is arranged in the horizontal direction, and base plate is circular, and seat cylinder is arranged on the center of base plate.

The barrel of seat cylinder is provided with the axial slide vertically offered, the barrel of seat cylinder is also provided with the multiple radial grooves offered in the horizontal direction, each radial groove size and shape is all identical, each radial groove is all communicated with axial slide, and the lower end of elevating lever is fixed with the tommy that can slide in axial slide and radial groove.

All radial grooves are all arranged on the same side of axial slide, and the distance between two adjacent radial grooves is equal, form location transverse slat between two adjacent radial grooves.

The upper end of elevating lever is provided with the jack for suspension rod grafting, and suspension rod is plugged in this jack.

The upper end of elevating lever is provided with two described jacks, and two suspension rods are each passed through two described jacks.

Two suspension rods are arranged all in the horizontal direction.

Two suspension rods are mutually vertical, in the vertical direction, and in two suspension rods, the height of is higher than the height of another root.

The two ends of two suspension rods are equipped with the through hole passed for cotton rope.

The material of base and pallet is teflon.

The beneficial effects of the utility model are, this built-in corrosion experiment sample hanger and sample are placed in the container containing corrosive liquid, both arbitrarily can adjust specimen height, can ensure again to be not in contact with each other between sample, also improve dispersiveness and space availability ratio simultaneously.

Accompanying drawing explanation

Below in conjunction with accompanying drawing, the utility model is described in further detail.

Fig. 1 is the front view of built-in corrosion experiment sample hanger.

Fig. 2 is the vertical view of base.

Fig. 3 is the front view of base.

Fig. 4 is the right view of base.

Fig. 5 is the side stretch-out view of seat cylinder.

Fig. 6 is the front view of pallet.

Fig. 7 is the vertical view of pallet.

Fig. 8 is the using state schematic diagram of built-in corrosion experiment sample hanger.

Wherein 11. bases, 12. pallets;

1. base plate, 2. a cylinder, 3. tommy, 4. radial groove, 5. elevating lever, 6. through hole, 7. suspension rod, 8. axial slide, 9. locate transverse slat;

20. samples, 21. cotton ropes.

Embodiment

It should be noted that, when not conflicting, the embodiment in the application and the feature in embodiment can combine mutually.Below with reference to the accompanying drawings and describe the utility model in detail in conjunction with the embodiments.

A kind of built-in corrosion experiment sample hanger, comprise base 11 and the pallet 12 of split type setting, the material of base 11 and pallet 12 is plastics; Base 11 is containing base plate 1 and seat cylinder 2, and seat cylinder 2 is perpendicular to base plate 1, and the lower end of seat cylinder 2 is fixedly connected with base plate 1; Pallet 12 is containing elevating lever 5, many are evenly distributed with for hanging the suspension rod 7 of sample 20 outside elevating lever 5, suspension rod 7 and elevating lever 5 removably connect, elevating lever 5 is vertically arranged, the lower end of elevating lever 5 is plugged in seat cylinder 2, elevating lever 5 can vertically move and be fixed, as shown in Figure 1.

In the present embodiment, base plate 1 is arranged in the horizontal direction, and base plate 1 is circular, and seat cylinder 2 is arranged on the center of base plate 1.The barrel of seat cylinder 2 is provided with the axial slide 8 vertically offered, the barrel of seat cylinder 2 is also provided with the multiple radial grooves 4 offered in the horizontal direction, each radial groove 4 size and shape is all identical, each radial groove 4 is all communicated with axial slide 8, and the lower end of elevating lever 5 is fixed with the tommy 3 that can slide in axial slide 8 and radial groove 4.When needing the height regulating elevating lever 5 at vertical direction, tommy 3 is made to be positioned at axial slide 8, now elevating lever 5 and tommy 3 can vertically slide up and down, when elevating lever 5 reaches predetermined altitude, rotating elevating lever 5 makes tommy 3 be positioned at radial groove 4, and elevating lever 5 will be motionless by location.Preferably all radial grooves 4 are all arranged on the same side of axial slide 8, and the distance between two adjacent radial grooves 4 is equal, form location transverse slat 9, between two adjacent radial grooves 4 as shown in Fig. 2, Fig. 3, Fig. 4, Fig. 5.

In the present embodiment, the upper end of elevating lever 5 is provided with the jack for suspension rod 7 grafting, and suspension rod 7 is plugged in this jack, as shown in Fig. 1, Fig. 6 and Fig. 7.Concrete, the upper end of elevating lever 5 is provided with two described jacks, and two suspension rods 7 are each passed through two described jacks.Two suspension rods 7 are arranged all in the horizontal direction.Two suspension rods 7 are mutually vertical, in the vertical direction, and in two suspension rods 7, the height of is higher than the height of another root.Two suspension rod 7 two ends are equipped with the through hole 6 passed for cotton rope 21.Have employed the mode that two suspension rods 7 are each passed through two described jacks in the present embodiment, make outside the upper end of elevating lever 5, to be distributed with four short steeves, also can adopt the mode that four short steeves are connected with the threaded upper ends of elevating lever 5.

Because this built-in corrosion experiment sample hanger needs to be immersed in corrosive liquid in use, so be called built-in corrosion experiment sample hanger, the material of preferred base 11 and pallet 12 is teflon, and namely all parts of this built-in corrosion experiment sample hanger are teflon and make.

The base plate 11 of this built-in corrosion experiment sample hanger is for fixed stand 12, and the pallet 12 of this built-in corrosion experiment sample hanger is for hanging sample 20.During use, by one end of nylon cotton rope 21 binding sample 20, the other end of nylon cotton rope 21 is bound to the outer end of suspension rod 7 through through hole 6.Then this built-in corrosion experiment sample hanger is placed in the container containing corrosive liquid together with sample 20, as shown in Figure 8, so both arbitrarily can adjusts specimen height, and can ensure again to be not in contact with each other between sample, also improve dispersiveness and space availability ratio simultaneously.

The above; be only specific embodiment of the utility model, the scope of utility model enforcement can not be limited with it, so the displacement of its equivalent assemblies; or the equivalent variations to do according to the utility model scope of patent protection and modification, all still should belong to the category that this patent is contained.In addition, the technical characteristic in the utility model and all can using by independent assortment between technical characteristic, between technical characteristic and technical scheme, between technical scheme and technical scheme.

Claims (10)

1. a built-in corrosion experiment sample hanger, it is characterized in that, described built-in corrosion experiment sample hanger comprises base (11) and the pallet (12) of split type setting, and the material of base (11) and pallet (12) is plastics;

Base (11) is containing base plate (1) and seat cylinder (2), and seat cylinder (2) is perpendicular to base plate (1), and the lower end of seat cylinder (2) is fixedly connected with base plate (1);

Pallet (12) is containing elevating lever (5), many are evenly distributed with for hanging the suspension rod (7) of sample (20) outside elevating lever (5), suspension rod (7) and elevating lever (5) removably connect, elevating lever (5) is vertically arranged, the lower end of elevating lever (5) is plugged in seat cylinder (2), and elevating lever (5) can vertically move and be fixed.

2. built-in corrosion experiment sample hanger according to claim 1, it is characterized in that, base plate (1) is arranged in the horizontal direction, and base plate (1) is circular, and seat cylinder (2) is arranged on the center of base plate (1).

3. built-in corrosion experiment sample hanger according to claim 1, it is characterized in that, the barrel of seat cylinder (2) is provided with the axial slide (8) vertically offered, the barrel of seat cylinder (2) is also provided with the multiple radial grooves (4) offered in the horizontal direction, each radial groove (4) size and shape is all identical, each radial groove (4) is all communicated with axial slide (8), and the lower end of elevating lever (5) is fixed with the tommy (3) that can slide in axial slide (8) and radial groove (4).

4. built-in corrosion experiment sample hanger according to claim 3, it is characterized in that, all radial grooves (4) are all arranged on the same side of axial slide (8), distance between two adjacent radial grooves (4) is equal, forms location transverse slat (9) between two adjacent radial grooves (4).

5. built-in corrosion experiment sample hanger according to claim 1, is characterized in that, the upper end of elevating lever (5) is provided with the jack for suspension rod (7) grafting, and suspension rod (7) is plugged in this jack.

6. built-in corrosion experiment sample hanger according to claim 5, is characterized in that, the upper end of elevating lever (5) is provided with two described jacks, and two suspension rods (7) are each passed through two described jacks.

7. built-in corrosion experiment sample hanger according to claim 6, is characterized in that, two suspension rods (7) are arranged all in the horizontal direction.

8. built-in corrosion experiment sample hanger according to claim 7, is characterized in that, two suspension rods (7) are mutually vertical, in the vertical direction, and in two suspension rods (7), the height of is higher than the height of another root.

9. built-in corrosion experiment sample hanger according to claim 5, is characterized in that, the two ends of two suspension rods (7) are equipped with the through hole (6) passed for cotton rope (21).

10. built-in corrosion experiment sample hanger according to claim 1, it is characterized in that, the material of base (11) and pallet (12) is teflon.