CN212609706U - Sliding type electrocatalysis reaction device capable of adjusting electrode spacing - Google Patents

Abstract

The utility model provides an adjustable electrode spacing's of slidingtype electro-catalytic reaction device, fixed crossbearer include two piece at least opposite crossbeams, connect through an at least measuring rack between two crossbeams, and two crossbeam supports are equipped with two piece at least slide rails, and the slide rail is established under the crossbeam on the terminal surface, be equipped with a plurality of electrode mounting brackets on the slide rail, a plurality of electrode mounting brackets and slide rail sliding connection are equipped with on the electrode mounting bracket and press from both sides tight frame, and the plate electrode is established on pressing from both sides tight frame, be equipped with the scale mark on the measuring rack, be equipped with the detector clamp on the crossbeam and press from both sides tight machine, press from both sides tight frame and correspond with the scale mark, adjust the distance between the electrode mounting bracket through the slip slider to scale on the cooperation equipment can change electrode position and interelectro. In addition, the device is assembled by the simple components, and each component can be finished in a labor-saving mode, so that the construction time is shortened, and the construction cost is reduced.

Description

Sliding type electrocatalysis reaction device capable of adjusting electrode spacing

Technical Field

The utility model belongs to the technical field of electrochemistry technique and electrochemistry parametric measurement and specifically relates to an electro-catalytic reaction device of adjustable electrode spacing of slidingtype.

Background

Electrochemistry is the science of studying the charged interface phenomena formed by two types of conductors and the changes on the charged interface phenomena, and electrochemical technology is widely applied in the fields of electronic information, energy materials, metal corrosion and protection, environmental science and the like.

In recent years, with the experimental research of electrochemical methods at home and abroad, the electrochemical method has the characteristics of stronger oxidation and reduction capability than general chemical reactions, capability of thoroughly oxidizing and degrading organic matters and the like, so that the electrochemical method has good advantages in the pretreatment aspect of nonbiodegradable organic wastewater, the biodegradability of the wastewater can be improved to a great extent, and the subsequent biological treatment load can be reduced.

The electrochemical device system comprises electrodes, an electrolyte diaphragm and the like, wherein the electrodes can directly influence the resistance of the electrolyte at the placement position of the system and the distance between the electrodes, and the accuracy of experimental data is further influenced. When electrochemical reaction develops, the traditional electrode clamp has the problems that the electrode distance and the position are difficult to adjust, the distance between electrodes cannot be finely adjusted, and the electrodes are stabilized. In addition, the problems of poor contact between the electrode and the clamp and the like cause difficulty in developing electrochemical deposition. Meanwhile, the electrolytic efficiency of a single electrode is not high in the electrolytic process, and the effect of rapid and efficient treatment cannot be achieved, but the design requirements of the electrode clamps and the electrolytic bath for the installation of a plurality of electrode plates are increased, and the traditional electrode clamp loading device cannot well complete the function.

SUMMERY OF THE UTILITY MODEL

The utility model discloses a main aim at provides an adjustable electrode spacing's of slidingtype electro-catalytic reaction device, solve about the electrode position, unable accurate settlement or adjust between electrode distance, electrode and utensil contact failure's problem.

In order to solve the technical problem, the utility model discloses the technical scheme who adopts is: a sliding type electrocatalysis reaction device capable of adjusting electrode spacing comprises electrode clamping equipment, a reaction container and the electrode clamping equipment are detachable, the electrode clamping equipment comprises a fixed transverse frame, the fixed transverse frame comprises at least two opposite transverse beams, the two transverse beams are connected through at least one measuring frame, two transverse beam supports are provided with at least two sliding rails, the sliding rails are arranged on the lower end faces of the transverse beams, a plurality of electrode mounting frames are arranged on the sliding rails and are in sliding connection with the sliding rails, a clamping frame is arranged on the electrode mounting frames, a plate electrode is arranged on the clamping frame, a scale mark is arranged on the measuring frame, and a detector clamping machine is arranged on the transverse beams;

the clamping frame corresponds to the scale marks, and the distance between the electrode mounting frames is adjusted.

In the preferred scheme, the crossbeam below is equipped with the installation piece, the slide rail is established inside the installation piece.

In the preferred scheme, a first nut is arranged on the cross beam and penetrates through the cross beam to be in threaded connection with the sliding rail.

In the preferred scheme, the electrode mounting frame comprises a sliding block, the sliding block is connected with a sliding rail in a sliding mode, an adjusting block is arranged on the sliding block, an adjusting handle is arranged on the adjusting block, and the adjusting handle is arranged on the upper end face of the measuring frame.

In the preferred scheme, a second nut is further arranged and penetrates through the adjusting block and the sliding block to abut against the upper end face of the sliding rail.

In the preferred scheme, a pointer is arranged on one side of the adjusting handle.

In the preferred scheme, rubber strips are arranged on two sides in the clamping frame.

In the preferred scheme, the detector clamping machine comprises a fixed seat, a telescopic block is arranged on the fixed seat and is in sliding connection with the fixed seat, and a mounting ring is arranged on the telescopic block.

In the preferred scheme, the fixing seat below is equipped with the mounting groove, and the mounting groove card is on the crossbeam, and mounting groove one side is equipped with the fourth nut, and the fourth nut passes the fixing seat and supports and lean on the crossbeam.

In a preferred scheme, a third nut is arranged above the fixed seat, the third nut penetrates through the fixed seat and abuts against the telescopic block, a fourth nut is arranged on one side of the mounting ring, and the fourth nut penetrates through the mounting ring;

the cross beam is provided with a handle.

The utility model provides an adjustable electrode spacing's of slidingtype electro-catalytic reaction device adopts and makes the electrode plate can be accurate firm to carry on experiment platform, can insert a plurality of electrode slices, simultaneously slidingtype electrode is adjusted and is added and hold equipment, after inserting the electrode on the electrode mounting bracket, the sliding electrode mounting bracket changes the electrode spacing. The position of the electrode and the distance between the electrodes can be accurate by matching with a graduated scale on equipment, the accuracy of experimental data is improved, and meanwhile, the clamping equipment on the fixed cross beam can be fixed to measuring equipment such as a PH (potential of hydrogen) tester, a numerical thermometer and the like, so that multi-data dynamic measurement is realized, and the experimental precision is improved; meanwhile, the electrode is installed in an insertion mode and is connected with the electrode installation frame in a sliding mode, so that the electrode and the electrolysis equipment can be conveniently detached and assembled, the operation is simple, and the equipment is beneficial to cleaning and maintenance.

Drawings

The invention will be further explained with reference to the following figures and examples:

FIG. 1 is a general block diagram of the present invention;

FIG. 2 is an exploded view of the present invention;

FIG. 3 is a structural diagram of the electrode mounting frame and the fixing cross frame of the present invention;

FIG. 4 is a structural view of the electrode mounting bracket of the present invention;

FIG. 5 is a view of the mounting structure of the fixing cross frame and the measuring instrument clamping machine of the present invention;

FIG. 6 is a structural diagram of the clamping machine of the detecting instrument of the present invention;

in the figure: a reaction vessel 1; a fixed cross frame 2; a measuring stand 201; scale lines 202; a slide rail 203; a mounting block 204; a first nut 205; a cross-beam 206; an electrode plate 3; an electrode mounting frame 4; a clamping frame 401; a second nut 402; an adjustment block 403; a slider 404; an adjustment knob 405; a pointer 406; a detector clamping machine 5; a telescoping block 501; a fixed seat 502; a third nut 503; a fourth nut 504; a mounting ring 505; a mounting groove 506; a power supply 6; a handle 7.

Detailed Description

Example 1

As shown in fig. 1-6, an adjustable electrode spacing's of slidingtype electro-catalytic reaction device, including electrode clamping equipment, reaction vessel 1 and electrode clamping equipment can be dismantled, and electrode clamping equipment includes fixed crossbearer 2, and fixed crossbearer 2 includes two at least opposite crossbearers 206, connects through an at least measuring rack 201 between two crossbearers 206, and two crossbearer 206 supports are equipped with two at least slide rails 203, and slide rail 203 establishes under crossbeam 206 on the terminal surface, be equipped with a plurality of electrode mounting bracket 4 on the slide rail 203, a plurality of electrode mounting bracket 4 and slide rail 203 sliding connection are equipped with clamping frame 401 on electrode mounting bracket 4, and electrode plate 3 establishes on clamping frame 401, be equipped with scale mark 202 on measuring frame 201, be equipped with detector clamp 5 on crossbeam 206, clamping frame 401 corresponds with scale mark 202, adjusts the distance between a plurality of electrode mounting bracket 4. From this structure, two crossbeams 206 are used for supporting measuring rack 201, cut measuring rack 201 and crossbeam 206 structure as an organic whole, slide rail 203 of crossbeam 206 below is used for installing electrode mounting bracket 4, electrode mounting bracket 4 is used for pressing from both sides tightly and bears electrode plate 3, electrode plate 3 can freely insert or dismantle, also can insert a plurality of electrodes simultaneously, be used for satisfying the experimental requirement, after electrode inserting electrode mounting bracket 4, loosen second nut 402 a little, sliding slide adjusting block 403 on slide rail 203, reference scale mark 202 is as required the interval between the regulation electrode plate, moreover, the steam generator is simple in operation, dismantle and repetitious usage is convenient. The width is decided according to the electrode width between 4 electrode mounting brackets, the utility model discloses a practice is set for 6.8 cm.

In a preferable scheme, an installation block 204 is arranged below the cross beam 206, and the slide rail 203 is arranged inside the installation block 204. With this structure, the slide rail 203 is convenient to detach.

In a preferable scheme, a first nut 205 is arranged on the cross beam 206, and the first nut 205 penetrates through the cross beam 206 and is in threaded connection with the slide rail 203. With this structure, the first nut 205 is used to lock the entire slide rail 203.

In a preferred scheme, the electrode mounting frame 4 comprises a sliding block 404, the sliding block 404 is slidably connected with the sliding rail 203, an adjusting block 403 is arranged on the sliding block 404, an adjusting handle 405 is arranged on the adjusting block 403, and the adjusting handle 405 is arranged on the upper end surface of the measuring frame 201. With this structure, the adjustment knob 405 of the adjustment block 403 is used to slide the entire electrode mounting frame 4, and the adjustment knob 405 is provided above the upper end surface of the measurement frame 201, as in the structure shown in fig. 3 or 4.

Preferably, a second nut 402 is further provided, and the second nut 402 passes through the adjusting block 403 and the sliding block 404 to abut against the upper end surface of the sliding rail 203. With this structure, the second nut 402 serves to fix the position of the entire electrode mount 4, preventing the electrode mount 4 from sliding during use.

In a preferred scheme, a pointer 406 is arranged on one side of the adjusting handle 405. With this structure, the pointer 406 is used to precisely point to the graduation marks 202 on the measuring stand 201.

In a preferable scheme, rubber strips are arranged on two sides inside the clamping frame 401. From this structure, the rubber strip is established in the inside both sides of clamping frame 401 for the industry adhesive tape, and the distance between the rubber strip is 0.2mm ~0.3mm for the marginal position of tight electrode board 3 of clamp. Or the clamping frame 401 is surrounded by three sides of the grooved plexiglass. The distance of the slot opening is 0.2 mm-0.3 mm, and the slot opening is used for clamping the edge position of the electrode plate 3.

In a preferred embodiment, the detector clamping machine 5 includes a fixing base 502, a telescopic block 501 is disposed on the fixing base 502, the telescopic block 501 is slidably connected to the fixing base 502, and a mounting ring 505 is disposed on the telescopic block 501. With this structure, the measuring apparatus clamping device 5 is used for mounting the ph meter probe, the ph meter probe is mounted inside the mounting ring 505, and the position of the ph meter is adjusted by sliding the telescopic block 501.

Preferably, a mounting groove 506 is arranged below the fixing seat 502, the mounting groove 506 is clamped on the cross beam 206, a fourth nut 504 is arranged on one side of the mounting groove 506, and the fourth nut 504 passes through the fixing seat 502 and abuts against the cross beam 206. With this structure, the mounting groove 506 is used for adjusting the position of the fixing seat 502 on the cross beam 206, and the fourth nut 504 is used for locking the fixing seat 502, so that the fixing seat 502 is fixed on the cross beam 206.

Preferably, a third nut 503 is arranged above the fixed seat 502, the third nut 503 passes through the fixed seat 502 and abuts against the telescopic block 501, a fourth nut 504 is arranged on one side of the mounting ring 505, and the fourth nut 504 passes through the mounting ring 505. With this configuration, the third nut 503 is used to fix the telescopic position of the telescopic block 501, and functions to fix the telescopic block 501, and after the ph meter is mounted inside the mount ring 505, the ph meter is locked by the fourth nut 504, and the position of the ph meter is fixed.

The cross beam 206 is provided with a handle 7. From this structure, hand (hold) 7 is used for carrying overall structure, with overall structure and reactor separation, conveniently washs and changes reactor 1.

The above-mentioned embodiments are merely preferred embodiments of the present invention, and should not be considered as limitations of the present invention, and the protection scope of the present invention should be defined by the technical solutions described in the claims, and includes equivalent alternatives of technical features in the technical solutions described in the claims. Namely, equivalent alterations and modifications within the scope of the invention are also within the scope of the invention.

Claims (10)

1. The utility model provides an adjustable electrode spacing's of slidingtype electro-catalytic reaction device, characterized by: the electrode clamping device comprises electrode clamping equipment, a reaction container (1) and the electrode clamping equipment can be disassembled, the electrode clamping equipment comprises a fixed transverse frame (2), the fixed transverse frame (2) comprises at least two opposite cross beams (206), the two cross beams (206) are connected through at least one measuring frame (201), at least two sliding rails (203) are arranged on supports of the two cross beams (206), the sliding rails (203) are arranged on the lower end face of the cross beams (206), a plurality of electrode mounting frames (4) are arranged on the sliding rails (203), the plurality of electrode mounting frames (4) are in sliding connection with the sliding rails (203), a clamping frame (401) is arranged on each electrode mounting frame (4), an electrode plate (3) is arranged on the clamping frame (401), scale marks (202) are arranged on the measuring frame (201), and a clamping detector (5) is arranged on each cross beam (206);

the clamping frame (401) corresponds to the scale marks (202), and the distance between the electrode mounting frames (4) is adjusted.

2. The sliding type electrocatalytic reaction device with adjustable electrode spacing as set forth in claim 1, wherein: an installation block (204) is arranged below the cross beam (206), and the slide rail (203) is arranged inside the installation block (204).

3. The sliding type electrocatalytic reaction device with adjustable electrode spacing as set forth in claim 2, wherein: a first nut (205) is arranged on the cross beam (206), and the first nut (205) penetrates through the cross beam (206) to be in threaded connection with the sliding rail (203).

4. The sliding type electrocatalytic reaction device with adjustable electrode spacing as set forth in claim 1, wherein: electrode mounting bracket (4) include slider (404), and slider (404) and slide rail (203) sliding connection are equipped with regulating block (403) on slider (404), are equipped with on regulating block (403) and adjust handle (405), and adjust handle (405) and establish at measuring frame (201) up end.

5. The sliding type electrocatalytic reaction device with adjustable electrode distance as set forth in claim 4, wherein: and a second nut (402) is further arranged, and the second nut (402) penetrates through the adjusting block (403) and the sliding block (404) and abuts against the upper end face of the sliding rail (203).

6. The sliding type electrocatalytic reaction device with adjustable electrode distance as set forth in claim 4, wherein: one side of the adjusting handle (405) is provided with a pointer (406).

7. The sliding type electrocatalytic reaction device with adjustable electrode spacing as set forth in claim 1, wherein: and rubber strips are arranged on two sides in the clamping frame (401).

8. The sliding type electrocatalytic reaction device with adjustable electrode spacing as set forth in claim 1, wherein: the detector clamping machine (5) comprises a fixed seat (502), a telescopic block (501) is arranged on the fixed seat (502), the telescopic block (501) is in sliding connection with the fixed seat (502), and a mounting ring (505) is arranged on the telescopic block (501).

9. The sliding type electrocatalytic reaction device with adjustable electrode spacing as set forth in claim 8, wherein: a mounting groove (506) is arranged below the fixing seat (502), the mounting groove (506) is clamped on the cross beam (206), a fourth nut (504) is arranged on one side of the mounting groove (506), and the fourth nut (504) penetrates through the fixing seat (502) and abuts against the cross beam (206).

10. The sliding type electrocatalytic reaction device with adjustable electrode spacing as set forth in claim 8, wherein: a third nut (503) is arranged above the fixed seat (502), the third nut (503) penetrates through the fixed seat (502) and abuts against the telescopic block (501), a fourth nut (504) is arranged on one side of the mounting ring (505), and the fourth nut (504) penetrates through the mounting ring (505);

and a handle (7) is arranged on the cross beam (206).

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