Electrolyzed water machine
Technical field
The utility model relates to a kind of tap water processing units, particularly relates to a kind of electrolyzed water machine.
Background technology
The continuous exposure of the news such as waterhead area pollutes, not up to standard, the urban pipe network secondary pollution of water factory's process, tap water are defective, bottled water pollution, people's safe drinking water problem is allowed finally to have been laid out table top, also increasing family is allowed to recognize, the importance of safe drinking water.And the unavoidable problem such as chlorine residue, heavy metal, secondary pollution that tap water itself exists, and the problem such as bottled water market is very different, shortage standard, make people progressively start to find a kind of safer, more healthy water way, for this reason, electrolyzed water machine is applied and gives birth to.
Electrolyzed water machine, by negative electrode and anode electrolysis plate, on the basis of tap water, does not add the process of any material electrolysis: by electric energy conversion, changes the physical structure of water, isolates the mineral substance of useful absorption of human body, trace element; Also isolate the useful daily water consumption of acid ion.
But existing electrolytic water machine structure is simple, can not reach good electrolysis effectiveness, practicality is not strong, and cost is higher, can not meet consumer demand.
Utility model content
Therefore, the purpose of this utility model is the electrolyzed water machine that provides a kind of electrolysis effectiveness good, practical.
A kind of electrolyzed water machine, comprise a shell and the water purifier be installed in shell and electrolysis generator, described water purifier is connected with electrolysis generator by pipeline, described electrolysis generator comprises a water stream board, some first deckle boards, the second deckle board, panel, some negative plates, some positive plates and some ionic membranes, described second deckle board is located between two first deckle boards, and described water stream board and panel are covered on two first deckle boards in outside respectively, the middle part of described first deckle board is provided with a window, the middle part of described second deckle board is provided with a window, described ionic membrane seals the window of the first deckle board and the window of the second plate respectively, second deckle board forms the first electrolyte space and the second electrolyte space respectively by the first deckle board of ionic membrane and both sides, described positive plate and negative plate interlock and are installed in the first electrolyte space, in second electrolyte space, electrolysis generator is provided with the first water entry, second water entry, first water exit, second water exit, first electrolyte space and the first water entry, first water exit is communicated with, second electrolyte space is communicated with the second water entry, second water exit.
Further, described first deckle board both sides are respectively front and back, the both sides of described second deckle board are similarly front and back, the back side of described first deckle board and the second deckle board is all towards water stream board, each ionic membrane is installed in the back side of the first deckle board or the second deckle board, and described negative plate and positive plate interleaved are installed in the front of the first deckle board, the second deckle board.
Further, the both sides of described water stream board lower end are provided with and are respectively equipped with the first water-in and the second water-in, the both sides of water stream board upper end are respectively equipped with the first water outlet and the second water outlet, described first both sides, deckle board lower end are respectively equipped with the first plate endoporus and the second plate endoporus, first both sides, deckle board upper end is provided with the 3rd plate endoporus and the 4th plate endoporus, second both sides, deckle board lower end is respectively equipped with the first perforation and the second perforation, second both sides, deckle board upper end is provided with the 3rd perforation and the 4th perforation, described first water-in, first plate endoporus, first perforation is alignment formation first water entry mutually, second water-in, second plate endoporus, second perforation is alignment formation second water entry mutually, described first water outlet, 4th plate endoporus, 4th perforation is alignment formation first water exit mutually, described second water outlet, 3rd plate endoporus, 3rd perforation is alignment formation second water exit mutually.
Further, the front of the first deckle board offers the first plate inside groove of connection first plate endoporus, the front of the first deckle board offers the second plate inside groove of connection the 4th plate endoporus, the front of the second deckle board offers biperforate first connectivity slot of connection, the front of the second deckle board offers the second connectivity slot of connection the 3rd perforation, first electrolyte space is communicated with the first water entry, the first water exit by the first plate inside groove, the second plate inside groove, and the second electrolyte space is communicated with the second water entry, the second water exit by the first connectivity slot, the second connectivity slot.
Further, described second water outlet vertical direction homonymy, described second water-in, the 3rd water outlet hold up direction homonymy.
Further, described first plate endoporus and the 4th plate endoporus are that diagonal angle is arranged, and described second plate endoporus and the 3rd plate endoporus are that diagonal angle is arranged,
Further, described first perforation and the 4th perforation are arranged in diagonal angle, and described second perforation and the 3rd perforation are arranged in diagonal angle.
Further, described positive plate is arranged on the first electrolyte space and interior, and described negative plate is arranged in the second electrolyte space.
Further, described positive plate is arranged in the second electrolyte space, and described negative plate is arranged in the first electrolyte space.
In sum, the utility model electrolyzed water machine is by draining in the first electrolyte space, the second electrolyte space by water, electrolysis is carried out by spaced negative plate and positive plate, produce in the brine electrolysis with positive and negative ion group, and drawn by different water exits, electrolytic water machine structure of the present utility model is simple, volume is little, cost is low, and electrolysis effectiveness is good, practical.The subset of brine electrolysis, infiltration and solvency power strong.Body intracellular metabolic can be promoted, improve immunity of organisms, following disease is had to the effect of assisting therapy: hypertension; High glutinous hyperlipidaemia; Diabetes; Coronary heart disease; Fatty liver, alcoholic liver; Fat-reducing; Flu; Get rid of calculus etc.
Accompanying drawing explanation
Fig. 1 is the structural representation of the utility model electrolyzed water machine.
Fig. 2 is the structural representation of electrolyzed water machine shown in Fig. 1, and wherein partial shell does not show.
Fig. 3 is the structural representation of the electrolysis generator of electrolyzed water machine shown in Fig. 2.
Fig. 4 is the exploded view of electrolyzed water machine shown in Fig. 3.
The further exploded view that Fig. 5 is electrolyzed water machine shown in Fig. 4.
Embodiment
In order to make the technical solution of the utility model more clearly show, below in conjunction with accompanying drawing, the utility model is described in further detail.
As shown in Figures 1 to 5, the utility model provides a kind of electrolyzed water machine, for tap water being carried out filtration and electrolysis, this electrolyzed water machine comprises a shell 10 and the water purifier 20 be installed in shell 10 and electrolysis generator 30, described water purifier 20 is connected with electrolysis generator 30 by pipeline, and described water purifier 20 pairs of tap water filter, removing impurities in water, electrolysis generator 30 carries out electrolysis to the tap water after filtration again, forms acid electrolyzed functional water and alkaline ion water.
Described electrolysis generator 30 comprises water stream board 40,2 first deckle board 50,1 second deckle board 60, panel 70, some negative plate (not shown), some positive plate (not shown) and some ionic membranes 80, described second deckle board 60 is located between two first deckle boards 50, first deckle board 50 and the second deckle board 60 are arranged alternately, and described water stream board 40 and panel 70 are covered on the outer side of 2 first deckle boards 50 respectively; Described first deckle board 50 both sides are respectively front and back, the both sides of described second deckle board 60 are similarly front and back, the back side of the first deckle board 50 and the second deckle board 60 is all towards water stream board 40, described negative plate and positive plate interleaved are installed on the first deckle board 50, second deckle board 60 front, as positive plate installed by the first deckle board 50, second deckle board 60 is installed negative plate and is installed positive plate, and each ionic membrane 80 is installed in the back side of the first deckle board 50 or the second deckle board 60.
The both sides of described water stream board 40 lower end are provided with and are respectively equipped with the first water-in 41 and the second water-in 42, the both sides of water stream board 40 upper end are respectively equipped with the first water outlet 43 and the second water outlet 44, described first water-in 41, second water outlet 44 vertical direction homonymy, described second water-in 42, the 3rd water outlet vertical direction homonymy.
The rectangular setting of described first deckle board 50, the middle part of the first deckle board 50 is provided with a window 57, described ionic membrane 80 seals the window 57 of the first deckle board 50, first both sides, deckle board 50 bottom is respectively equipped with the first plate endoporus 51 and the second both sides, plate endoporus 52, first deckle board 50 upper end are provided with the 3rd plate endoporus 53 and the 4th plate endoporus 54; In the present embodiment, described first plate endoporus 51 and the 4th plate endoporus 54 are arranged in diagonal angle, and described second plate endoporus 52 and the 3rd plate endoporus 53 are arranged in diagonal angle.The front upper portion that the lower end, front of the first deckle board 50 offers the first plate inside groove 55, first deckle board 50 of connection first plate endoporus 51 and window 57 offers the second plate inside groove 56 of connection the 4th plate endoporus 54 and window 57.
The same rectangular setting of described second deckle board 60, the middle part of the second deckle board 60 forms a window 67, described ionic membrane 80 seals the window 67 of the second deckle board 60, second both sides, deckle board 60 bottom is respectively equipped with the first perforation 61 and second perforation the 62, second both sides, deckle board 60 upper end are provided with the 3rd perforation 63 and the 4th perforation 64; In the present embodiment, described first perforation 61 and the 4th perforation 64 are arranged in diagonal angle, described second perforation 62 and the 3rd perforation 63 are arranged in diagonal angle equally, the lower end, front of the second deckle board 60 offers connection second and bores a hole and 62 offer connection the 3rd with the front upper portion of the first connectivity slot 65, second deckle board 60 of window 67 and bore a hole the second connectivity slot 66 of 63 and window 67.
During assembling, by water stream board 40,1 first deckle board 50, second deckle board 60, another first deckle board 70, panel 70 stacked in multi-layers successively, second deckle board 60 forms the first electrolyte space and the second electrolyte space respectively by ionic membrane 80 and the first deckle board of both sides, surrounds the 3rd electrolyte space near outermost first deckle board of panel and panel and ionic membrane 80.
Described first water-in 41, first plate endoporus 51, first perforation 61 alignment formation first water entry 100 mutually, second water-in 42, second plate endoporus 52, second perforation 62 alignment formation second water entry 200 mutually, first water outlet 43, the 4th plate endoporus 54, the 4th perforation 64 be alignment formation first water exit 300, second water outlet 44, the 3rd plate endoporus 53, the 3rd perforation 63 alignment formation second water exit 400 mutually mutually.
First electrolyte space is communicated with the first water exit 300, first water entry 100 by the first plate inside groove 55, second plate inside groove about 56, second electrolyte space is communicated with the second water exit 400, second water entry the 200, three electrolyte space by the first connectivity slot 65, second connectivity slot about 66 and is communicated with the first water entry 100, first water exit 300 by the first plate inside groove 75, second plate inside groove 76.Positive plate, negative plate are contained in the first electrolyte space, the second electrolyte space respectively, are electrically connected with the positive and negative of outside in the 3rd electrolyte space, in the present embodiment, be arranged in the first electrolyte space and the 3rd electrolyte space for positive plate, being arranged in the second electrolyte space is negative plate.During electrolysis, two strands of current enter from the first water entry 100, second water entry 200 respectively, by the transfer of electronics, produce electronegative ionic group near positive plate, thus make to form alkaline water in the first electrolyte space, the 3rd electrolyte space, and flow out from the first water exit 300.The ionic group of generating strap positive electricity near negative plate, forms sour water in the 3rd electrolyte space, and flows out from the second water exit 400.
Understandably, in other embodiments, be arranged in the second electrolyte space also can for positive plate, correspondingly, be arranged in the first electrolyte space and the 3rd electrolyte space for negative plate, the first deckle board 50 be arranged alternately and the quantity of the second deckle board 60 and be not limited to three pieces also can be five pieces, seven pieces or more.In addition, for improving stopping property, first deckle board 50, second deckle board 60 back side is equipped with an annular caulking groove, and the utility model also comprises some cushion rubbers 90, and each cushion rubber 90 is embedded in a caulking groove.
In sum, the utility model electrolyzed water machine is by draining in the first electrolyte space, the second electrolyte space by water, electrolysis is carried out by spaced negative plate and positive plate, produce in the brine electrolysis with positive and negative ion group, and drawn by different water exits, electrolytic water machine structure of the present utility model is simple, volume is little, cost is low, and electrolysis effectiveness is good, practical.The subset of brine electrolysis, infiltration and solvency power strong.Body intracellular metabolic can be promoted, improve immunity of organisms, following disease is had to the effect of assisting therapy: hypertension; High glutinous hyperlipidaemia; Diabetes; Coronary heart disease; Fatty liver, alcoholic liver; Fat-reducing; Flu; Get rid of calculus etc.
The above embodiment only have expressed a kind of embodiment of the present utility model, and it describes comparatively concrete and detailed, but therefore can not be interpreted as the restriction to the utility model the scope of the claims.It should be pointed out that for the person of ordinary skill of the art, without departing from the concept of the premise utility, can also make some distortion and improvement, these all belong to protection domain of the present utility model.Therefore, the protection domain of the utility model patent should be as the criterion with claims.