CN207404906U - A kind of 3D printing electrocatalysis device for laboratory - Google Patents

Abstract

The utility model discloses a kind of 3D printing electrocatalysis device for laboratory, including power supply, suction pump, electrolytic cell, transition pond, TiO₂Foam nickel electrode, hack lever and hook, power supply and suction pump and TiO₂Foam nickel electrode is electrically connected；Electrolytic cell side wall is equipped with input hole and delivery outlet；Transition pond side wall is equipped with input hole and delivery outlet；Suction pump, electrolytic cell and transition pond are connected by pipeline；Hack lever across and be fixed on electrolytic cell, on hack lever have several card slots；Hook and card slot releasable connection；The spacing of two electrodes can be adjusted flexibly as needed, the percent of decolourization of electrolysis be made to reach optimal, Enhancement test effect.In addition, electrolytic cell, transition pond, hack lever and hook are the molding polylactic acid components of 3D printing, polylactic acid has hydrophobic property, and the device filling rate printed is high, can effectively avoid leak.The utility model can be efficiently applied to organic wastewater Study of electrocatalysis and Laboratory Waste Water Treatment and other field of Environment Protection.

Description

A kind of 3D printing electrocatalysis device for laboratory

Technical field

The present invention relates to a kind of foundation of 3D printing electrocatalysis device, and in particular to a kind of 3D printing electricity for laboratory The foundation of catalytic unit.

Background technology

The electrocatalysis device in laboratory is traditionally used for using the method built temporarily：Some plastic casings are passed through into puncture Afterwards, rubber tube is reconnected to realize.Though this method is simple and easy to get, easily there is the phenomenon that leak, make troubles to experiment, particularly When handling waste water, leak can pollute experimental bench, influence the progress of experiment.In addition, the distance between electrode not can determine that, it also can shadow Percent of decolourization is rung, causes experiment effect poor.

The content of the invention

In order to overcome drawbacks described above in the prior art, the present invention devises a kind of 3D printing electricity for laboratory Catalytic unit is specially that a kind of three-dimensional electro-catalysis for the use for laboratory established using the molding 3D printing technique of fusion stacking is filled It puts, is the molding polylactic acid component of 3D printing, can effectively solve the problems, such as leak in the prior art.Meanwhile it can lead to Crossing will link up on the different card slots that are erected on hack lever, further according to needing that the distance between two electrodes are adjusted flexibly, make electrolysis Percent of decolourization reach optimal.

The present invention solve its technical problem solution be：A kind of 3D printing electrocatalysis device for laboratory, bag It includes:Power supply, suction pump, electrolytic cell, transition pond, TiO₂Foam nickel electrode, hack lever and hook, the power supply respectively with suction pump and TiO₂Foam nickel electrode is electrically connected；The side wall of the electrolytic cell is equipped with electrolytic cell input hole and electrolytic cell delivery outlet；The transition The side wall in pond is equipped with transition pond input hole and transition pond delivery outlet；The output terminal of the suction pump connects with electrolytic cell input hole pipeline Logical, the electrolytic cell delivery outlet is connected with transition pond input hole pipeline, the input end pipe of transition pond delivery outlet and suction pump Road connects；The hack lever across and be fixed on electrolytic cell, on the hack lever have several card slots；The hook can with card slot Tear connection open；The TiO₂Foam nickel electrode is fixedly connected with hook；The electrolytic cell, hack lever and hook and transition pond are that 3D is beaten Print molding polylactic acid component.

As being further improved for above-mentioned technical proposal, partition plate is equipped in the electrolytic cell, the partition plate will be in electrolytic cell Part is divided into first area and second area, and the partition plate has the connected entrance covered with activity.

As being further improved for above-mentioned technical proposal, the connected entrance includes the 8th through hole and the 9th through hole, and the 8th is logical Hole is located above the 9th through hole.

As being further improved for above-mentioned technical proposal, the electrolytic cell side is equipped with：1st through hole, the 2nd through hole, the 3rd lead to Hole, the 4th through hole, the 1st through hole and the 3rd through hole respectively positioned at first area opposing sides side wall on, the 4th through hole with 3rd through hole is located on the side wall of first area the same side, and the 2nd through hole is located on the side wall of second area.

As being further improved for above-mentioned technical proposal, the 4th through hole is located above the 3rd through hole.

As being further improved for above-mentioned technical proposal, transition pond side is equipped with：5th through hole, the 6th through hole, the 7th lead to Respectively on the side wall of opposing sides, the 6th through hole is located at same with the 5th through hole for hole, the 5th through hole and the 7th through hole On the side wall of side.

As being further improved for above-mentioned technical proposal, the 6th through hole is located above the 5th through hole.

As being further improved for above-mentioned technical proposal, filter screen is equipped in the transition pond.

As being further improved for above-mentioned technical proposal, spacing is equal between the card slot and card slot.

The beneficial effects of the invention are as follows：Provided by the present invention for the 3D printing electrocatalysis device in laboratory, hack lever is horizontal Across and be fixed on electrolytic cell, on hack lever have several card slots, hook with card slot releasable connection, experimenter can be by that will hang Hook housing is located on the different card slots on hack lever, so as to adjust the distance between two electrodes, and then is determined under specified conditions Electrolysis process rate；In addition, electrolytic cell, hack lever, hook and transition pond are the molding polylactic acid components of 3D printing, in 3D printing The polylactic acid used in journey has hydrophobic property, and the device filling rate printed is higher, can effectively avoid leak.The present invention can be effective Processing of Study of electrocatalysis and laboratory waste water of organic wastewater etc. is carried out, can be applied to the studies above and other environmental protection necks Domain.

Description of the drawings

To describe the technical solutions in the embodiments of the present invention more clearly, make required in being described below to embodiment Attached drawing is briefly described.Obviously, described attached drawing is the part of the embodiment of the present invention rather than all implements Example, those skilled in the art without creative efforts, can also be obtained according to these attached drawings other designs Scheme and attached drawing.

Fig. 1 is the 3D printing electrocatalysis device simple structure schematic diagram of embodiment 1 in the present invention；

Fig. 2 is the 3D printing electrocatalysis device simple structure schematic diagram of embodiment 2 in the present invention；

Fig. 3 is the three-dimensional view after electrolytic cell, hack lever and the hook in the present invention assemble；

Fig. 4 is the three-dimensional view of the electrolytic cell in the present invention；

Fig. 5 is the transition pond three-dimensional view of embodiment 1 in the present invention；

Fig. 6 is the transition pond three-dimensional view of embodiment 2 in the present invention；

Fig. 7 is the three-dimensional view of the hack lever in the present invention；

Fig. 8 is the three-dimensional view of the hook in the present invention；

Reference sign：

1st, suction pump；2nd, electrolytic cell；3rd, transition pond；4th, hack lever；5th, link up with；

201st, the 1st through hole；202nd, the 2nd through hole；203rd, the 3rd through hole；204th, the 4th through hole；305th, the 5th through hole；306th, the 6th Through hole；307th, the 7th through hole；228th, the 8th through hole；229th, the 9th through hole；211st, partition plate；231st, first area；232nd, second area； 401st, card slot.

Specific embodiment

The technique effect of the design of the present invention, concrete structure and generation is carried out below with reference to embodiment and attached drawing clear Chu is fully described by, to be completely understood by the purpose of the present invention, feature and effect.Obviously, described embodiment is this hair Bright part of the embodiment rather than whole embodiments, based on the embodiment of the present invention, those skilled in the art is not paying The other embodiment obtained on the premise of creative work, belongs to the scope of protection of the invention.In addition, be previously mentioned in text All connection/connection relations not singly refer to component and directly connect, and refer to be added deduct by adding according to specific implementation situation Few couple auxiliary, to form more preferably coupling structure.Each technical characteristic in the invention, in not conflicting conflict Under the premise of can be with combination of interactions.

Embodiment 1：With reference to Fig. 1, Fig. 3-5 and Fig. 7-8, a kind of 3D printing electrocatalysis device for laboratory, including electricity Source, suction pump 1, electrolytic cell 2, transition pond 3, TiO₂Foam nickel electrode, hack lever 4 and hook 5, the power supply respectively with suction pump 1 And TiO₂Foam nickel electrode is electrically connected；The side wall of the electrolytic cell 2 is equipped with electrolytic cell input hole and electrolytic cell delivery outlet, electrolytic cell Be equipped with partition plate 211 in 2, the partition plate 211 will be separated into first area 231 and second area 232 inside electrolytic cell 2, it is described every Plate 211 has the connected entrance covered with activity, and the connected entrance includes the 8th through hole 228 and the 9th through hole 229, and the 8th through hole 228 Above the 9th through hole 229,2 side of electrolytic cell is equipped with：1st through hole 201, the 2nd through hole 202, the 3rd through hole the 203, the 4th are logical Respectively on the side wall of 231 opposing sides of first area, the described 4th is logical for hole 204, the 1st through hole 201 and the 3rd through hole 203 204 and the 3rd through hole 203 of hole is located on the side wall of 231 the same side of first area, and the 4th through hole 204 is located on the 3rd through hole 203 Side, the 2nd through hole 202 are located on the side wall of second area 232；The side wall in the transition pond 3 be equipped with transition pond input hole and Transition pond delivery outlet, 3 side of transition pond are equipped with the 5th through hole 305, the 7th through hole 307, the 5th through hole 305 and the 7th through hole 307 are located on the side wall of 3 opposing sides of transition pond respectively.When pending waste liquid amount is less, envelope is covered in the activity of partition plate 211 It closes, the 8th through hole 228 and the 9th through hole 229 are in closure state, are electrolysed using the first area 231 of electrolytic cell 2.In this reality It applies in example：1st through hole 201 is used as electrolytic cell input hole, and the 3rd through hole 203 and the 4th through hole 204 are used as electrolytic cell delivery outlet；5th Through hole 305 is as transition pond input hole, and the 7th through hole 307 is as transition pond delivery outlet；The output terminal of the suction pump 1 and the 1st leads to Hole 201 pipeline connection, the 3rd through hole 203 are connected with 305 pipeline of the 5th through hole, the input of the 7th through hole 307 and suction pump 1 End pipe road connects, and the floccule of the 4th through hole 204 outflow is connected to outside through pipeline and is recycled again.The hack lever 4 across And be fixed on electrolytic cell 2, there are several card slots 401 on the hack lever 4；The hook 5 and 401 releasable connection of card slot；Institute State TiO₂Foam nickel electrode is fixedly connected with hook 5；The electrolytic cell 2, transition pond 3, hack lever 4 and hook 5 be 3D printing into The polylactic acid component of type.

Further, filter screen is equipped in the transition pond 3.

Embodiment 2：With reference to Fig. 2-4 and Fig. 6-8, a kind of 3D printing electrocatalysis device for laboratory including power supply, is taken out Water pump 1, electrolytic cell 2, transition pond 3, TiO₂Foam nickel electrode, hack lever 4 and hook 5, the power supply respectively with suction pump 1 and TiO₂ Foam nickel electrode is electrically connected；The side wall of the electrolytic cell 2 is equipped with electrolytic cell input hole and electrolytic cell delivery outlet, is set in electrolytic cell 2 There is partition plate 211, the partition plate 211 will be separated into first area 231 and second area 232, the partition plate 211 inside electrolytic cell 2 With the connected entrance covered with activity, the connected entrance includes the 8th through hole 228 and the 9th through hole 229, and the 8th through hole 228 is located at 9th through hole, 229 top, 2 side of electrolytic cell is equipped with：1st through hole 201, the 2nd through hole 202, the 3rd through hole 203, the 4th through hole 204, the 1st through hole 201 and the 3rd through hole 203 are located on the side wall of 231 opposing sides of first area respectively, the 4th through hole 204 and the 3rd through hole 203 is located on the side wall of 231 the same side of first area, and the 4th through hole 204 is located at 203 top of the 3rd through hole, 2nd through hole 202 is located on the side wall of second area 232；3 side of transition pond is equipped with the 5th through hole 305, the 6th through hole 306th, the 7th through hole 307, the 5th through hole 305 and the 7th through hole 307 are located on the side wall of 3 opposing sides of transition pond respectively, described 6th through hole 306 and the 5th through hole 305 are located on the side wall of the same side, and the 6th through hole 306 is located at 305 top of the 5th through hole.When treating When the waste liquid amount of processing is more, while using the first area 231 in electrolytic cell 2 and second area 232, by the work of partition plate 211 Dynamic cover is opened, and the 8th through hole 228 and the 9th through hole 229 are in opening, are electrolysed using entire electrolytic cell 2.

In the present embodiment：2nd through hole 202 is used as electrolytic cell input hole, and the 1st through hole 201, the 3rd through hole the 203 and the 4th are logical Hole 204 is used as electrolytic cell delivery outlet；As transition pond input hole, the 7th through hole 307 was used as 5th through hole 305 and the 6th through hole 306 Cross pond delivery outlet；The output terminal of the suction pump 1 is connected with 202 pipeline of the 2nd through hole, and the 1st through hole 201 is managed with the 5th through hole 305 Road connects, and the 3rd through hole 203 is connected with 306 pipeline of the 6th through hole, and the input terminal pipeline of the 7th through hole 307 and suction pump 1 connects Logical, the floccule of the 4th through hole 204 outflow is connected to outside through pipeline and is recycled again；The hack lever 4 across and be fixed on On electrolytic cell 2, there are several card slots 401 on the hack lever 4；The hook 5 and 401 releasable connection of card slot；The TiO₂Bubble Foam nickel electrode is fixedly connected with hook 5；The electrolytic cell 2, transition pond 3, hack lever 4 and hook 5 are the molding poly- breasts of 3D printing Sour component.

Further, filter screen is equipped in the transition pond 3.

As further preferred embodiment, spacing is equal between the card slot and card slot.

The better embodiment of the present invention is illustrated above, but the invention is not limited to the implementation Example, those skilled in the art can also make a variety of equivalent modifications on the premise of without prejudice to spirit of the invention or replace It changes, these equivalent modifications or replacement are all contained in the application claim limited range.

Claims (9)

1. a kind of 3D printing electrocatalysis device for laboratory, it is characterised in that：Including power supply, suction pump, electrolytic cell, transition Pond, TiO₂Foam nickel electrode, hack lever and hook, the power supply respectively with suction pump and TiO₂Foam nickel electrode is electrically connected；The electricity The side wall of Xie Chi is equipped with electrolytic cell input hole and electrolytic cell delivery outlet；The side wall in the transition pond is equipped with transition pond input hole and mistake Cross pond delivery outlet；The output terminal of the suction pump is connected with electrolytic cell input hole pipeline, the electrolytic cell delivery outlet and transition pond Input hole pipeline connects, and transition pond delivery outlet is connected with the input terminal pipeline of suction pump；The hack lever across and be fixed on On electrolytic cell, there are several card slots on the hack lever；The hook and card slot releasable connection；The TiO₂Foam nickel electrode with Hook is fixedly connected；The electrolytic cell, hack lever and hook and transition pond are the molding polylactic acid components of 3D printing.

2. the 3D printing electrocatalysis device according to claim 1 for laboratory, it is characterised in that：In the electrolytic cell Equipped with partition plate, the partition plate will be separated into first area and second area inside electrolytic cell, and there is the partition plate band activity to cover Connected entrance.

3. the 3D printing electrocatalysis device according to claim 2 for laboratory, it is characterised in that：The connected entrance bag The 8th through hole and the 9th through hole are included, the 8th through hole is located above the 9th through hole.

4. the 3D printing electrocatalysis device according to claim 2 for laboratory, it is characterised in that：The electrolytic cell side Face is equipped with the 1st through hole, the 2nd through hole, the 3rd through hole, the 4th through hole, and the 1st through hole and the 3rd through hole are located at first area phase respectively To on the side wall on two sides, the 4th through hole and the 3rd through hole are located on the side wall of first area the same side, the 2nd through hole is located at On the side wall of second area.

5. the 3D printing electrocatalysis device according to claim 4 for laboratory, it is characterised in that：4th through hole Above the 3rd through hole.

6. the 3D printing electrocatalysis device according to claim 1 for laboratory, it is characterised in that：Transition pond side Face is equipped with the 5th through hole, the 6th through hole, the 7th through hole, and the 5th through hole and the 7th through hole are located at the side of transition pond opposing sides respectively On wall, the 6th through hole and the 5th through hole are located on the side wall of the same side.

7. the 3D printing electrocatalysis device according to claim 6 for laboratory, it is characterised in that：6th through hole Above the 5th through hole.

8. the 3D printing electrocatalysis device according to claim 1 for laboratory, it is characterised in that：In the transition pond Equipped with filter screen.

9. the 3D printing electrocatalysis device according to claim 1 for laboratory, it is characterised in that：The card slot and card Spacing is equal between slot.