CN217345172U

CN217345172U - Electrochemical sample inlaying and clamping device

Info

Publication number: CN217345172U
Application number: CN202220660541.7U
Authority: CN
Inventors: 孔俊杰; 葛牧川; 范明杰; 韩昌泽; 王蕴轩; 文可桢; 孙齐磊
Original assignee: Shandong Jianzhu University
Current assignee: Shandong Jianzhu University
Priority date: 2022-03-23
Filing date: 2022-03-23
Publication date: 2022-09-02
Anticipated expiration: 2032-03-23

Abstract

The utility model provides a clamping device is inlayed to electrochemistry sample, includes the base, clamping part and inlay the portion, the clamping part set up in the base top, its lower extreme is connected with the base, and the clamping part upper end can the centre gripping research electrode the wire, and it can make research electrode place perpendicularly, inlay the portion setting and be in the base upper surface, and it is located the clamping part below, each subassembly of inlay the portion can the base upper surface removes, forms the portion of inlaying that is fit for not equidimension research electrode, the utility model discloses a be provided with the portion of inlaying that can adjust the volume size, realize the work of inlaying to the research sample of different volumes, with the clamping part setting this can avoid inlaying the influence of in-process wire to inlaying the effect in the top of portion of inlaying simultaneously.

Description

Electrochemical sample inlaying and clamping device

Technical Field

The utility model relates to an electrochemistry field, concretely relates to clamping device is inlayed to electrochemistry sample.

Background

The electrochemical test method of the three-electrode system is the most basic test means for researching corrosion. The method comprises the steps of placing a metal electrode sample connected with a welded lead of a manufactured research electrode in the middle of a rubber pad, enabling the metal electrode to be horizontally and tightly contacted with the rubber pad by adjusting the lead, pouring prepared acrylic into the metal electrode rubber pad, and curing for 24 hours to finish the preparation of the electrochemical sample. In the preparation process of the existing research electrode, in the process of curing the research electrode by using acrylic, because the research electrode is influenced by liquid flow, the position deviation is easy to occur, the surface of the research electrode cannot be in the horizontal state, the set area of the metal electrode cannot be ensured after curing, and a large error is caused to the experiment.

SUMMERY OF THE UTILITY MODEL

In order to solve the problem, the utility model provides a clamping device is inlayed to electrochemistry sample through being provided with the portion of inlaying that can adjust the size, realizes the work of inlaying to different volume research electrodes, considers the centre gripping position to be located the top of inlaying the portion simultaneously, and whole research electrode is inlaying the in-process and realizing arranging perpendicularly, and the wire that not only can guarantee like this to inlay the work in research electrode can not influence inlaying of research electrode, also can guarantee simultaneously to inlay the effect better.

The technical scheme of the utility model as follows: an electrochemical sample inlaying and clamping device comprises a base;

the clamping part is arranged above the base in a clamping manner, the lower end of the clamping part is connected with the base, and the upper end of the clamping part can clamp a lead of a research electrode and can enable the research electrode to be vertically placed;

inlay the portion, it sets up to inlay the portion the base upper surface, and it is located the clamping part below, each subassembly of portion of inlaying can the base upper surface removes, forms the portion of inlaying that is fit for not equidimension research electrode, realizes inlaying the research electrode of different volumes through the portion of inlaying that can adjust the volume size and seals the appearance.

Clamping device is inlayed to electrochemistry sample as above, the portion of inlaying includes first riser, second riser, first flexible diaphragm and the flexible diaphragm of second, first riser and second riser can move about on the base surface, first flexible diaphragm and the flexible diaphragm of second can the base surface reciprocates. Through first riser and second riser to and two flexible diaphragms between two risers, parallel translation can carry out between each subassembly, realizes the adjustment to the volume of inlaying.

According to the electrochemical sample inlaying and clamping device, the base is fixedly provided with the baffle, the baffle comprises the first baffle, the second baffle, the third baffle and the fourth baffle, the baffle forms a fixed space on the upper surface of the base, and the inlaying part is arranged in the fixed space.

As a preferred embodiment, the first baffle plate is arranged in parallel with the first telescopic transverse plate, the second baffle plate is arranged in parallel with the first vertical plate, the third baffle plate is arranged in parallel with the second telescopic transverse plate, the fourth baffle plate is arranged in parallel with the second vertical plate, each baffle plate is connected with a telescopic rod in a sliding manner, one end of each telescopic rod is fixedly connected with the corresponding embedded component of the baffle plate, and the telescopic rods connected to the baffle plates in a sliding manner drive the corresponding embedded components of the baffle plates to move on the upper surface of the base so as to change the size of the embedded part.

Furthermore, the first telescopic transverse plate and the second telescopic transverse plate are identical in structure and formed by mutually nesting a plurality of sections of sleeve plates different in width, and the telescopic transverse plate can be stretched in the length direction through the mutual nested structural design, so that the effect of changing the size of the inlaid part is realized.

In a preferable embodiment, springs are further arranged inside the first telescopic transverse plate and the second telescopic transverse plate, the distance between the first telescopic transverse plate and the second telescopic transverse plate is controlled by the elasticity of the springs,

clamping device is inlayed to electrochemistry sample as above, the clamping part includes support column, connecting rod and centre gripping subassembly, support column lower extreme fixed connection be in the base left end, support column upper segment right side fixedly connected with connecting rod, support column one end is kept away from to the connecting rod is connected with the centre gripping subassembly, and the centre gripping subassembly is located directly over the embedding part.

Furthermore, be equipped with the through-hole in the middle of the centre gripping subassembly, the diameter of through-hole is not less than study electrode's wire diameter places study electrode's wire in the through-hole, makes whole study electrode can place perpendicularly in the portion of inlaying, and the inlaying of the study electrode of being convenient for that like this can be better.

The utility model discloses for prior art gained beneficial effect lie in:

1. the utility model relates to a clamping device is inlayed to electrochemistry sample is through being provided with the portion of inlaying that the size can be adjusted at the base upper surface, and the research electrode sample of equidimension not volume is inlayed to the convenience like this, can guarantee the quality of inlaying and be favorable to going on of electrochemistry test in the effect of the portion of inlaying simultaneously.

2. The utility model relates to a clamping device is inlayed to electrochemistry sample, the clamping part sets up in the top of inlaying the portion, because research electrode generally comprises wire and research sample, just link together wire and research sample before inlaying, only need when inlaying with the wire with the junction and the non-experimental surface of research sample inlay can, set up the clamping part in the top of inlaying the portion, such can make whole research electrode arrange perpendicularly, just so make the wire of research electrode can not influence the work of inlaying.

Drawings

The aspects and advantages of the present application will become apparent to those skilled in the art from a reading of the following detailed description of the preferred embodiments. The drawings are only for purposes of illustrating the preferred embodiments and are not to be construed as limiting the invention.

In the drawings:

FIG. 1 is a schematic view of the overall structure of the present invention;

FIG. 2 is a top view of FIG. 1;

fig. 3 is a schematic structural view of the first and second retractable transverse plates of the present invention;

the components represented by the reference numerals in the figures are:

1. the base, 11, first baffle, 12, second baffle, 13, third baffle, 14, fourth baffle, 15, first telescopic link, 16, the second telescopic link, 17, the third telescopic link, 18, the fourth telescopic link, 2, the clamping part, 21, the bracing piece, 22, the connecting rod, 23, the centre gripping subassembly, 3, inlay the portion, 31, first flexible diaphragm, 32, the flexible diaphragm of second, 33, the first riser, 34, the second riser, 35, the spring.

Detailed Description

Exemplary embodiments of the present disclosure will be described in more detail below with reference to the accompanying drawings. It should be noted that these embodiments are provided so that this disclosure can be more completely understood and fully conveyed to those skilled in the art, and the present disclosure may be implemented in various forms without being limited to the embodiments set forth herein.

The directions mentioned in the present invention, front and back, left and right, etc., are only used to express the relative position relationship, and are not restricted by any specific direction reference in practical application.

Example 1

Referring to fig. 1, an electrochemical sample mosaic clamping device comprises a base 1, a clamping part 2 and a mosaic part 3.

Clamping part 2 sets up 1 top of base, its lower extreme is connected with

base

1, 2 upper ends of clamping part can the centre gripping research electrode the wire, and can make research electrode place perpendicularly.

In this embodiment, clamping part 2 includes bracing piece 21, connecting rod 22 and centre gripping subassembly 23, bracing piece 21 lower extreme fixed connection be in the 1 left end of base, support column upper segment right side fixedly connected with connecting rod 22, connecting rod 22 keep away from support column one end and are connected with centre gripping subassembly 23, and centre gripping subassembly 23 is located directly over inlay 3.

Further, be equipped with the through-hole in the middle of the centre gripping subassembly 23, the diameter of through-hole is not less than study electrode's wire diameter passes the through-hole with study electrode's wire, and the wire passes one section of electrode and adopts the mode of rubber circle to fix, makes whole study electrode can place perpendicularly at inlay portion 3 like this, can be convenient for better study electrode inlay work.

Referring to fig. 2, the base 1 is fixedly provided with a baffle plate, the baffle plate comprises a first baffle plate 11, a second baffle plate 12, a third baffle plate 13 and a fourth baffle plate 14, the four baffle plates are respectively and fixedly connected to the upper surface, the lower surface, the left surface and the right surface of the base 1, and a fixing space is formed below the clamping portion 2.

Inlay portion 3, inlay portion 3 sets up in the space of compriseing first baffle 11, second baffle 12, third baffle 13 and fourth baffle 14 in the setting of base 1 upper surface, and inlay portion 3 and be located 2 below of clamping part, 3 each subassemblies in inlay portion can base 1 upper surface removes, forms the portion of inlaying 3 that is fit for not equidimension research electrode, and the portion of inlaying 3 realization through can adjusting the volume size is inlayed the research electrode of different volumes and is sealed the appearance.

In this embodiment, the embedded part 3 includes a first vertical plate 33, a second vertical plate 34, a first telescopic horizontal plate 31 and a second telescopic horizontal plate 32, the first vertical plate 33 and the second vertical plate 34 can move left and right on the surface of the base 1, and the first telescopic horizontal plate 31 and the second telescopic horizontal plate 32 can move up and down on the surface of the base 1. Through first riser 33 and second riser 34 to and two flexible diaphragms between two risers, parallel translation can carry out between each subassembly, realizes the adjustment to inlay 3 volume.

Referring to fig. 2, the first baffle 11 is arranged in parallel with the first telescopic cross plate 31, the second baffle 12 is arranged in parallel with the first vertical plate 33, the third baffle 13 is arranged in parallel with the second telescopic cross plate 32, the fourth baffle 14 is arranged in parallel with the second vertical plate 34, each baffle is connected with a telescopic rod in a sliding way, taking the first baffle plate 11 and the first retractable transverse plate 31 as an example, the first baffle plate 11 and the first retractable transverse plate 31 are arranged in parallel, the first retractable rod 15 is slidably connected to the first baffle plate 11, one section of the first retractable rod 15 is fixedly connected to the first retractable transverse plate 31, the position of the first telescopic transverse plate 31 can be changed by the back and forth movement of the first telescopic rod 15, the adjustment of the volume of the embedding part 3 is realized, all the other baffles are connected the same with all the other subassemblies of each inlay portion 3, and the adjustment of 3 volumes of inlay portion is realized through the linkage relation between the subassemblies of telescopic link, baffle and inlay portion 3 to unnecessary the repeated description here.

Referring to fig. 3, the first retractable transverse plate 31 and the second retractable transverse plate 32 have the same structure (the first retractable transverse plate 31 is described below as an example), the first retractable transverse plate 31 is formed by nesting 4 sections of sleeve plates with different widths, and the sleeve plates forming the transverse plates can slide relative to each other, because the length of each sleeve plate at the short edge is reduced in sequence, and meanwhile, a cavity is arranged between each sleeve plate to accommodate the next section of sleeve plate, the first retractable transverse plate 31 can be retracted in the length direction through the mutually nested structural design, and the effect of changing the size of the embedded part 3 is achieved.

Further, also be equipped with spring 35 in the middle of first flexible diaphragm 31 and the flexible diaphragm 32 of second, through the elasticity of spring 35 itself, play the purpose that changes flexible diaphragm length, can take fastening nut to carry out spacing mode simultaneously on the telescopic link, can make like this and inlaying the in-process, the volume size of portion 3 of inlaying can not change, can accomplish the work of inlaying to the research electrode.

The utility model provides a clamping device is inlayed to electrochemistry sample, specific working method does, when using the utility model discloses carry out the inlaying during operation of electrochemistry research sample, clamping part 2 through this device top, the wire section centre gripping that will study the electrode is in clamping part 2's through-hole department, and adopt the form of rubber circle, arrange study the electrode perpendicularly, make the wire can place in portion 3 of inlaying with the junction of studying the electrode, and pass through the telescopic link according to the volume size of research sample, the first flexible diaphragm 31 of back-and-forth movement, the flexible horizontal version of second, the size of portion 3 of inlaying is adjusted to first riser 33 and second riser 34, carry out ya keli solid seal.

The above description is only a preferred embodiment of the present invention, but the scope of the present invention is not limited thereto, and any changes or substitutions that can be easily conceived by those skilled in the art within the technical scope of the present invention should be covered by the present invention. Therefore, the protection scope of the present invention shall be subject to the protection scope of the claims.

Claims

1. The utility model provides an electrochemical sample inlays clamping device which characterized in that: comprises a base (1), a clamping part (2) and an embedding part (3); the clamping part (2) is arranged above the base, the lower end of the clamping part is connected with the base (1), and the upper end of the clamping part (2) can clamp a lead of a research electrode and enable the research electrode to be vertically placed; inlay portion (3) and set up base (1) upper surface, and it is located clamping part (2) below, each subassembly of inlay portion (3) can base (1) upper surface removes, forms inlay portion (3) that are fit for not equidimension research electrode.

2. The electrochemical sample mosaic clamping device as claimed in claim 1, wherein said mosaic part (3) comprises a first vertical plate (33), a second vertical plate (34), a first telescopic transverse plate (31) and a second telescopic transverse plate (32), said first vertical plate (33) and said second vertical plate (34) can move left and right on the surface of said base (1), said first telescopic transverse plate (31) and said second telescopic transverse plate (32) can move up and down on the surface of said base (1).

3. The electrochemical sample inlaying and clamping device according to claim 2, wherein the base (1) is fixedly provided with a baffle, the baffle comprises a first baffle (11), a second baffle (12), a third baffle (13) and a fourth baffle (14), the baffles form a fixing space on the upper surface of the base (1), and the inlaid portion (3) is arranged in the fixing space.

4. The electrochemical sample mosaic clamping device as claimed in claim 3, wherein a first baffle plate (11) is arranged in parallel with a first telescopic transverse plate (31), a second baffle plate (12) is arranged in parallel with a first vertical plate (33), a third baffle plate (13) is arranged in parallel with a second telescopic transverse plate (32), a fourth baffle plate (14) is arranged in parallel with a second vertical plate (34), each baffle plate is slidably connected with a telescopic rod, and one end of each telescopic rod is fixedly connected with a component of the mosaic part (3) corresponding to the baffle plate.

5. The electrochemical sample mosaic clamping device as claimed in claim 2, wherein said first (31) and second (32) telescopic cross plates are identical in structure and are composed of a plurality of nested plates with different widths.

6. The electrochemical sample mosaic clamping device as claimed in claim 3, wherein said first (31) and second (32) telescoping plates are further provided with springs (35) therein.

7. The electrochemical sample mosaic clamping device according to claim 1, wherein the clamping portion comprises a support rod (21), a connecting rod (22) and a clamping component (23), the lower end of the support rod (21) is fixedly connected to the left end of the base (1), the connecting rod (22) is fixedly connected to the right side of the upper section of the support rod (21), one end, away from the support rod (21), of the connecting rod (22) is connected with the clamping component (23), and the clamping component (23) is located right above the mosaic portion.

8. The electrochemical sample mosaic holding device of claim 7, wherein said holding member (23) has a through hole formed therein, said through hole having a diameter not smaller than the diameter of the wire of said research electrode.