CN215022114U - Intelligent foot bath device - Google Patents

Abstract

The utility model relates to an intelligence lavipeditum ware, it includes the lavipeditum bucket, be equipped with electrochemical generator in the lavipeditum bucket, electrochemical generator includes the base, go up electrode piece, lower electrode piece, the electrode piece shock insulator, first titanium screw and second titanium screw, electrode piece and base are gone up in first titanium screw downward pass, and be connected with the circuit board, first titanium screw will go up electrode piece pressure on the base, second titanium screw downward passes electrode piece and base down, and be connected with the circuit board, second titanium screw will descend electrode piece pressure on the base. The user is in the utility model discloses during bubble foot in the intelligence lavipeditum ware, the utility model discloses an go up electrode piece and electrode slice electrolysis water in the lavipeditum bucket down, water can produce a large amount of active ingredient at the electrolysis in-process, and above-mentioned active ingredient can kill the bacterium, restrain the growth of bacterium and the molecule of the produced peculiar smell of oxidative decomposition human foot to the realization is disinfected, is eliminated foot odor to user's foot.

Description

Intelligent foot bath device

Technical Field

The utility model relates to a technical field of lavipeditum ware, in particular to intelligence lavipeditum ware.

Background

Along with the improvement of living standard of people, people pay more attention to body building and health preserving after work and study. The foot bath device is a health care device, stimulates and massages the feet, can stimulate the potential functions of the human body, adjust the state of imbalance of yin and yang of the body, relieve the tension of the whole body and achieve the effects of disease prevention and health care.

As early as thousands of years ago, silver containers are used at home and abroad for containing drinking water and food; modern medical experiments show that silver and silver ions have extremely high sterilization and disinfection functions. Mr. zhangwen was discussed: the chemical structure of silver determines that silver has higher catalytic capability and extremely high reduction potential of silver in a high oxidation state. Sufficient to generate atomic oxygen in its surrounding space. Atomic oxygen has strong oxidizing property and can be sterilized. Ag + strongly attracts the sulfhydryl group (sH) on the protease in the bacterial body, rapidly binding it. When the bacteria are killed by Ag +, the Ag + is dissociated from the bacterial corpses and then contacts with other thalli, and the process is carried out repeatedly. This is also responsible for the durability of silver sterilization. Chemically, silver is therefore known as a "permanent biocide" (populi 2011).

The existing foot bath device is basically composed of a barrel body, a massage part and a function switch, the switch can realize power supply communication or massage part movement to massage the sole of a foot, the whole foot bath device is single in function, some foot bath devices are provided with an accommodating box for achieving disinfection and medicine health care effects, disinfectants (such as salt and the like) or traditional Chinese medicines are added independently, the adding process completely depends on water flow driven by foot soaking massage in the foot bath device, the concentration and the using amount are not easy to control, the operation is troublesome in the using process, the sterilization effect is limited, the traditional Chinese medicines are replaced frequently and have higher use cost, the use simplicity, the rapidness and the economy of people in daily life cannot be met, and the sterilization is thorough, and the aim of safety and convenience is achieved.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide an intelligent lavipeditum ware that can thoroughly disinfect, eliminate foot odor, moreover more economical convenient foot to foot.

The purpose of the utility model is realized like this:

an intelligent foot bath device comprises a foot bath barrel, wherein an electrochemical generating device is arranged in the foot bath barrel, a circuit board is arranged at the bottom of the foot bath barrel corresponding to the electrochemical generating device, the electrochemical generating device comprises a base, an upper electrode plate, a lower electrode plate, an upper cover, a fixing bolt, an electrode plate spacer, a first titanium screw and a second titanium screw, the upper electrode plate and the lower electrode plate are arranged at the top of the base at intervals, the circuit board is arranged at the bottom of the base, the first titanium screw penetrates through the upper electrode plate and the base downwards and is connected with the circuit board, the upper electrode plate is pressed on the base by the first titanium screw, the second titanium screw penetrates through the lower electrode plate and the base downwards and is connected with the circuit board, and the lower electrode plate is pressed on the base by the second titanium screw. The user is in the utility model discloses during bubble foot in the intelligence lavipeditum ware, the utility model discloses an go up electrode piece and electrode slice electrolysis water in the lavipeditum bucket down, water can produce a large amount of active ingredient at the electrolysis in-process, and above-mentioned active ingredient can kill the bacterium, restrain the growth of bacterium and the molecule of the produced peculiar smell of oxidative decomposition human foot to the realization is disinfected, is eliminated foot odor to user's foot.

The utility model can be further improved as follows.

An electric treatment groove is arranged in the foot bath barrel, and the electrochemical generating device is arranged in the electric treatment groove.

The electrode plate spacer is arranged on the base and located between the upper electrode plate and the lower electrode plate, and the electrode plate spacer effectively separates the upper electrode plate from the lower electrode plate.

The depth H of the electric treatment groove ranges from 0.5mm to 10mm, so that the concentration of active ingredients is effectively improved.

The distance range between the upper electrode plate and the lower electrode plate is 0.1mm-8 mm.

The upper cover is arranged at the top of the base, and the upper electrode plate, the lower electrode plate, the first titanium screw and the second titanium screw are located in the upper cover.

The top of base is equipped with central location arch, location bulge loop and supports the bulge loop, be equipped with first perforation and second perforation on location bulge loop and the support bulge loop respectively, it is equipped with first hole of stepping down to go up the electrode sheet and correspond first perforation, the circuit board corresponds first perforation and is equipped with the second hole of stepping down, and first titanium screw passes first hole of stepping down in proper order, first perforation, second hole of stepping down and is connected with first nut.

The electrode plate spacer is provided with a second locating ring corresponding to the second through hole, the lower electrode plate is provided with a fourth yielding hole corresponding to the second through hole, the circuit board is provided with a fifth yielding hole corresponding to the second through hole, and the second titanium screw sequentially penetrates through the second locating ring, the fourth yielding hole, the second through hole and the fifth yielding hole downwards and is connected with the second nut.

The electrode plate spacer is provided with a first positioning ring corresponding to the positioning convex ring, the lower electrode plate is provided with a second positioning hole corresponding to the positioning convex ring, the first positioning ring is sleeved on the positioning convex ring, and the second positioning hole is also sleeved on the positioning convex ring. The second positioning ring is provided with a separating convex ring, the upper electrode plate is provided with a third positioning hole corresponding to the separating convex ring, the separating convex ring is positioned on the third positioning hole, and the head of the second titanium screw is positioned in the second positioning ring.

Be equipped with first sealing washer between first titanium screw and the first perforation, be equipped with the second sealing washer between second titanium screw and the second perforation, thereby effectively prevent the utility model discloses take place to leak, avoid the circuit board to meet the water damage.

Be equipped with the third sealing washer between circuit board, first titanium screw and the first perforation, be equipped with the fourth sealing washer between circuit board, second titanium screw and the second perforation, thereby effectively prevent the utility model discloses take place to leak, avoid the circuit board to meet the water damage.

Be equipped with the mounting hole in the electricity processing groove, electrochemistry generating device locates on the mounting hole, be equipped with the fifth sealing washer between base and the mounting hole, thereby further prevent the utility model discloses take place to leak.

The base is provided with a fixing hole, the bottom of the electric treatment tank is provided with a connecting screw hole, and the fixing bolt upwards penetrates through the fixing hole and is connected with the connecting screw hole, so that the base is fixed on the electric treatment tank.

The electrode plate spacer is cross-shaped, and the electrode plate spacer includes central location circle, first location circle, second location circle, first partition arm and the second partition arm that is connected, four positions around first location circle, second location circle, first partition arm and second partition arm are connected respectively in central location circle.

The bottom of the foot bath barrel is provided with an upward concave mounting groove, the mounting groove forms a mounting boss in the foot bath barrel, the circuit board is arranged in the mounting groove, and the electrochemical generating device is arranged on the mounting boss.

The utility model has the advantages as follows:

the user is in the utility model discloses during bubble foot in the intelligence lavipeditum ware, the utility model discloses an go up electrode piece and electrode slice electrolysis water in the lavipeditum bucket down, water can produce a large amount of active ingredient at the electrolysis in-process, and above-mentioned active ingredient can kill the bacterium, restrain the growth of bacterium and the molecule of the produced peculiar smell of oxidative decomposition human foot to the realization is disinfected, is eliminated foot odor to user's foot.

Drawings

Fig. 1 is a schematic structural view of the intelligent foot bath device of the present invention.

Fig. 2 is a top view of the intelligent foot bath device of the present invention.

Fig. 3 is a cross-sectional view at a-a in fig. 2.

Fig. 4 is an enlarged view at a in fig. 3.

Fig. 5 is an exploded view of the intelligent foot bath of the present invention.

Fig. 6 is an exploded view of an electrochemical generator of the present invention.

Detailed Description

The present invention will be further described with reference to the accompanying drawings and examples.

Embodiment one, as shown in fig. 1 to 5, an intelligent foot bath device includes a foot bath tub 1, a circuit board 22 is disposed at a position corresponding to an electrochemical generator at the bottom of the foot bath tub, the electrochemical generator 2 is disposed on the electrical processing tank 11, the electrochemical generator 2 includes a base 20, an upper electrode plate 23, a lower electrode plate 24, a fixing bolt 212, an electrode plate spacer 25, an upper cover 21, a first titanium screw 26 and a second titanium screw 27, the upper electrode plate 23 and the lower electrode plate 24 are disposed at the top of the base 20 at intervals, the circuit board 22 is disposed at the bottom of the base 20, the first titanium screw 26 penetrates the upper electrode plate 23 and the base 20 downward and is connected to the circuit board 22, the upper electrode plate 23 is pressed on the base 20 by the first titanium screw 26, the second titanium screw penetrates the lower electrode plate 24 and the base 20 downward and is connected to the circuit board 22, the second titanium screw 27 presses the lower electrode pad 24 against the base 20.

As a more specific technical solution of the present invention.

The bottom of the foot bath barrel 1 is provided with an upward concave mounting groove 12, the mounting groove 12 forms a mounting boss 13 in the foot bath barrel 1, the circuit board is arranged in the mounting groove 12, and the electrochemical generating device is arranged on the mounting boss 13.

An electric treatment tank 11 is arranged in the foot bath barrel 1, and the electrochemical generating device 2 is arranged in the electric treatment tank 11.

And the electrode plate spacer 25 is positioned between the upper electrode plate 23 and the lower electrode plate 24.

The depth H of the electric treatment tank 11 ranges from 0.5mm to 10 mm.

The distance between the upper electrode plate 23 and the lower electrode plate 24 is 0.1mm-8 mm.

The upper cover 21 is arranged at the top of the base, and the upper electrode plate, the lower electrode plate, the first titanium screw and the second titanium screw are located in the upper cover.

The top of the base 20 is provided with a central positioning protrusion 207, a positioning convex ring 201 and a supporting convex ring 202, and the positioning convex ring 201 and the supporting convex ring 202 are respectively provided with a first through hole 204 and a second through hole 203.

The upper electrode plate 23 is provided with a first abdicating hole 232 corresponding to the first perforation 204, the circuit board 22 is provided with a second abdicating hole 221 corresponding to the first perforation 204, the first titanium screw 26 sequentially penetrates the first abdicating hole 232, the first perforation 204 and the second abdicating hole 221 downwards and is connected with the first nut 210, the electrode plate spacer 25 is provided with a first positioning ring 251 corresponding to the positioning convex ring 201, the lower electrode plate 24 is provided with a second positioning hole 241 corresponding to the positioning convex ring 201, the first positioning ring 251 is sleeved on the positioning convex ring 201, and the second positioning hole 241 is also sleeved on the positioning convex ring 201.

The electrode plate spacer, the lower electrode plate and the upper electrode plate are respectively provided with a central positioning ring 253, a first central hole 243 and a second central hole 233 corresponding to the central positioning bulges. The electrode plate spacer, the lower electrode plate and the upper electrode plate are sequentially sleeved on the central positioning bulge from bottom to top through the central positioning ring 253, the first central hole 243 and the second central hole 233 respectively.

The electrode piece spacer 25 is equipped with the second position circle 252 corresponding to the second perforation 203, the electrode piece 24 is equipped with the fourth hole of stepping down 242 corresponding to the second perforation 203 down, the circuit board 22 is equipped with the fifth hole of stepping down 222 corresponding to the second perforation 203, the second titanium screw 27 passes second position circle 252, fourth hole of stepping down 242, second perforation 203, fifth hole of stepping down in proper order and is connected with the second nut 211.

The second positioning ring 252 is provided with a separating convex ring 216, the upper electrode plate 23 is provided with a third positioning hole 231 corresponding to the separating convex ring 216, the separating convex ring 216 is located on the third positioning hole 231, and the head of the second titanium screw is located in the second positioning ring 252.

A first sealing ring 28 is arranged between the first titanium screw 26 and the first through hole 204, and a second sealing ring 29 is arranged between the second titanium screw 27 and the second through hole 203.

A third sealing ring 281 is arranged among the circuit board 22, the first titanium screw 26 and the first through hole 204, and a fourth sealing ring 291 is arranged among the circuit board 22, the second titanium screw 27 and the second through hole 203.

The mounting boss 13 is provided with a mounting hole 213 therein, the electrochemical generator 2 is disposed on the mounting hole 213, and a fifth sealing ring 210 is disposed between the base 20 and the mounting hole 213.

The base 20 is provided with a fixing hole 215, the bottom of the electric treatment tank 11 is provided with a connecting screw hole 214, and the fixing bolt 212 upwardly passes through the fixing hole 215 and is connected with the connecting screw hole 214.

The electrode plate spacer is in a cross shape, the electrode plate spacer comprises a central positioning ring 253, a first positioning ring 251, a second positioning ring 252, a first separating arm 254 and a second separating arm 255 which are connected, and the first positioning ring 251, the second positioning ring 252, the first separating arm 254 and the second separating arm 255 are respectively connected to the four positions of the central positioning ring in front, back, left and right directions.

The utility model discloses a theory of operation is:

the user uses the utility model discloses during the bubble foot, user's both feet are placed in lavipeditum bucket 1, and electrochemistry generating device 2 begins to start, the utility model discloses an upper electrode piece 23 and lower electrode piece 24 are electrolytic water in lavipeditum bucket 1, and water can produce a large amount of active ingredient at the electrolysis in-process, for example have the hydroxyl radical OH of higher redox potential, ground state oxygen [ O ] and hypochlorous acid, above-mentioned active ingredient can change the biological potential of bacterial membrane structure fast, destroys its biological barrier effect, leads to the cytoplasm to leak the death, from this can know, above-mentioned active ingredient can kill the bacterium, the growth of inhibition bacterium and the molecule that oxidative decomposition user foot produced the peculiar smell, thereby realize disinfecting to user's both feet, eliminate the peculiar smell.

Claims (10)

1. An intelligent foot bath device comprises a foot bath barrel, wherein an electrochemical generating device is arranged in the foot bath barrel, a circuit board is arranged at the bottom of the foot bath barrel corresponding to the position of the electrochemical generating device, the electrochemical generating device comprises a base, an upper electrode plate, a lower electrode plate, a first titanium screw and a second titanium screw, the upper electrode plate and the lower electrode plate are arranged at the top of the base at intervals up and down, the circuit board is arranged at the bottom of the base, the first titanium screw downwards penetrates through the upper electrode plate and the base and is connected with the circuit board, the first titanium screw presses the upper electrode plate on the base, the second titanium screw downwards penetrates through the lower electrode plate and the base and is connected with the circuit board, and the second titanium screw presses the lower electrode plate on the base.

2. The intelligent foot bath according to claim 1, wherein an electric treatment tank is arranged in the foot bath barrel, and the electrochemical generation device is arranged in the electric treatment tank.

3. The intelligent foot bath according to claim 1 or 2, wherein the electrochemical generation device further comprises an electrode pad spacer disposed on the base and between the upper electrode pad and the lower electrode pad.

4. The intelligent foot bath according to claim 2, wherein the depth H of the electrical treatment bath ranges from 0.5mm to 10 mm.

5. The intelligent foot bath according to claim 1, wherein the distance between the upper electrode plate and the lower electrode plate ranges from 0.1mm to 8 mm.

6. The intelligent foot bath according to claim 1, wherein the electrochemical generation device further comprises an upper cover, the upper cover is arranged on the top of the base, and the upper electrode plate, the lower electrode plate, the first titanium screw and the second titanium screw are positioned in the upper cover.

7. The intelligent foot bath according to claim 1, wherein a center positioning bulge, a positioning convex ring and a supporting convex ring are arranged at the top of the base, the positioning convex ring and the supporting convex ring are respectively provided with a first perforation and a second perforation, the upper electrode plate is provided with a first abdicating hole corresponding to the first perforation, the circuit board is provided with a second abdicating hole corresponding to the first perforation, the first titanium screw sequentially passes through the first abdicating hole, the first perforation and the second abdicating hole downwards and is connected with the first nut, the electrode plate spacer is provided with a second positioning ring corresponding to the second through hole, the lower electrode plate is provided with a fourth abdicating hole corresponding to the second through hole, the circuit board is provided with a fifth yielding hole corresponding to the second through hole, and the second titanium screw sequentially penetrates through the second positioning ring, the fourth yielding hole, the second through hole and the fifth yielding hole downwards and is connected with the second nut.

8. The intelligent foot bath according to claim 7, wherein a first sealing ring is arranged between the first titanium screw and the first through hole, a second sealing ring is arranged between the second titanium screw and the second through hole, a third sealing ring is arranged between the circuit board, the first titanium screw and the first through hole, and a fourth sealing ring is arranged between the circuit board, the second titanium screw and the second through hole.

9. The intelligent foot bath according to claim 1, wherein an upwardly concave mounting groove is formed in the bottom of the foot bath barrel, a mounting boss is formed in the foot bath barrel by the mounting groove, the circuit board is arranged in the mounting groove, and the electrochemical generation device is arranged on the mounting boss.

10. The intelligent foot bath according to claim 9, wherein the mounting boss is provided with a mounting hole, the electrochemical generation device is arranged on the mounting hole, and a fifth sealing ring is arranged between the base and the mounting hole.

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