CN219647806U - Shower head for dissolving sulfur particles into bath water - Google Patents

Abstract

The utility model relates to a shower head for dissolving sulfur particles into bath water, which comprises a shower head structure, wherein the shower head structure comprises a shell component, an impeller box and a water control switch component, the shell component comprises a bearing wall, a peripheral wall formed on the periphery of the bearing wall, a top cover arranged at one end of the peripheral wall in a covering manner and a spray head arranged at the other end of the peripheral wall in a covering manner, the bearing wall divides the peripheral wall into a first cavity and a second cavity, the impeller box is arranged in the first cavity, the water control switch component is arranged in the second cavity, a water inlet hole communicated with the first cavity is formed in the peripheral wall, and a water passing hole is formed in the bearing wall, so that water in the first cavity enters the second cavity. According to the shower head disclosed by the utility model, the impeller box is pushed to rotate in the retaining cavity by the impact force of the water liquid and generate a vortex flow, so that sulfur particles and mineral particles in the impeller box collide and rub, small particles fall off the surfaces of the sulfur particles, and the dispersed sulfur particles are mixed with the water to form suspension type bath water, so that the bath requirement of the masses can be met.

Description

Shower head for dissolving sulfur particles into bath water

Technical Field

The utility model relates to a bathroom appliance, in particular to a shower head for dissolving sulfur particles into bath water.

Background

Shower heads are common devices in bathrooms for showering the body during bathing. Daily washing and bathing are one of important components for improving the life quality of people, and statistics are carried out by experts: if a person is living from 0 to 80 years old, 1700 tons of water are washed off for a lifetime.

People with more sufficient economic conditions often soak natural sulfur hot springs, shang Quan and the like, and sulfur hot springs are generated in nature and mostly are generated by incomplete cooling of underground volcanic rocks, and because the sulfur hot springs and Shang Quan contain sulfur and various mineral components, the mineral components have better effects and effects on inhibiting skin infection such as grease secretion, bacteria, fungi, parasites and the like of human skin and preventing and treating the skin infection. But ordinary income families have difficulty in bearing the expense of spa.

Sulfur is a yellow solid insoluble in water, and tap water is adopted for shower in the current household, so that it is very necessary to form shower water by mixing sulfur with tap water so as to facilitate shower washing of the people with ordinary income, and in view of this, improvement of the technology is necessary.

Disclosure of Invention

Aiming at the defects and shortcomings in the prior art, the utility model provides a shower head for dissolving sulfur particles into bath water so as to meet the bath demands of mass people.

In order to achieve the above purpose, the technical scheme of the utility model is as follows: the utility model provides a dissolve shower head of shower water with sulphur particulate matter, includes shower head structure, this shower head structure includes casing subassembly, rotatable setting be used for holding sulphur particulate matter's impeller box and the accuse water switch assembly of setting on casing subassembly in casing subassembly, casing subassembly includes the carriage wall, forms the perisporium in the carriage wall periphery, the top cap of perisporium one end is established to the lid and the shower nozzle of lid at the perisporium other end integrally, the carriage wall is with perisporium internal portion first cavity and second cavity, wherein be used for bearing in the first cavity impeller box, in the second cavity for the installation accuse water switch assembly has been seted up on the perisporium with the inlet opening that link up of first cavity for water in the first cavity enters into the second cavity on the carriage wall.

As a further improvement, a plurality of first retaining protrusions are formed on the peripheral surface of the bearing wall in the first cavity, the first retaining protrusions are centered on the circle center of the bearing wall, the annular array is arranged on the peripheral surface of the bearing wall, and a retaining cavity is formed, so that the impeller box rotates in the retaining cavity, a retaining shaft is formed in the central position of the peripheral surface of the bearing wall in the first cavity, and a retaining hole is formed in the central position of the top cover to be matched with the retaining shaft in the central position of the peripheral surface of the bearing wall to install the impeller box.

As a further improvement, the impeller box comprises a box body, a box cover arranged on the box body and a plurality of impeller blades formed on the box cover, a containing cavity is formed between the box body and the box cover for containing sulfur solid particles and mineral particles, a supporting groove is formed in the center of the bottom of the box body, a supporting shaft in the center of the peripheral surface of the bearing wall is arranged in the supporting groove in the bottom of the box body, a supporting protrusion is arranged in the center of the top of the box cover, and the supporting protrusion is arranged in a supporting hole in the center of the top cover.

As a further improvement, a plurality of through holes are uniformly formed in the peripheral surfaces of the box body and the box cover.

As a further improvement, a plurality of impeller blades are annularly arranged on the side peripheral surface of the box cover by taking the center of the top wall of the box cover as the center, so that the water is impacted between every two adjacent impeller blades to push the impeller box to rotate in the retaining cavity.

As a further improvement, the bottom plate of the spray head is provided with a plurality of circles of water spraying holes, each circle of water spraying holes comprises an outer water spraying hole and an inner water spraying hole, and bath water entering the second chamber is sprayed out along the corresponding water spraying hole on the bottom plate through the cooperation of the water control switch assembly.

As a further improvement, the water control switch assembly comprises a rotary switch arranged in a first mounting cavity of the second cavity, a rotary arm connected to the rotary switch, a water control piece formed on the rotary arm and a water outlet plate arranged in the second cavity and matched with the water control piece, the rotary switch is pressed to rotate in the mounting cavity so as to drive the rotary arm to swing in the second cavity, the water control piece at the end part of the rotary arm moves along the track, and the water control piece is correspondingly placed in a clamping groove of the track and a corresponding position of a chute in the water outlet plate so as to control the jet flow direction of bath water.

As a further improvement, one side of the water outlet plate surface is provided with a sliding chute for controlling the water flow, one end of the sliding chute is provided with a first water outlet, the other end of the sliding chute is provided with a second water outlet, a clamping groove is arranged on the sliding chute between the first water outlet and the second water outlet, a second blocking protrusion is formed between the first water outlet and the second water outlet on the other side of the water outlet plate surface, the second blocking protrusion divides the other side of the water outlet plate into an outlet water cavity and an inner water outlet cavity, the first water outlet corresponds to the outlet water cavity, and the second water outlet corresponds to the inner water outlet cavity.

As a further improvement, the second retaining protrusion is abutted to the bottom plate of the spray head, so that the bath water liquid of the outgoing water cavity and the bath water liquid of the inner water outlet cavity are separated in the spray head, the bath water of the outgoing water cavity is sprayed out along the outer water spraying holes on the bottom plate, and the bath water of the inner water outlet cavity is sprayed out along the inner water spraying holes on the bottom plate.

As a further improvement, the shower head structure further comprises a guide pipe and a grab handle connected to the guide pipe, wherein the guide pipe is integrally formed on the peripheral wall of the shower head structure and is communicated with the water inlet hole of the peripheral wall, one end of the grab handle is connected with the guide pipe, and the other end of the grab handle is provided with a connecting section for being connected with the water outlet pipe, so that water enters the first cavity of the shower head structure along the grab handle and the guide pipe through the water outlet pipe and along the water inlet hole.

The beneficial effects obtained by the utility model are as follows:

the utility model provides a shower head for dissolving sulfur particles into bath water, which pushes an impeller box to rotate at high speed in a retaining cavity by the impact force of water liquid and generates strong vortex flow, so that sulfur particles and mineral particles in the impeller box collide and rub, small particles are removed from the surfaces of the sulfur particles, and the dispersed sulfur particles are mixed with water to form suspension type bath water.

Drawings

FIG. 1 is a schematic view of the overall structure of a shower head for dissolving sulfur particles into bath water;

FIG. 2 is a schematic view showing the internal structure of another view angle of the shower head for dissolving sulfur particles into bath water according to the present utility model;

FIG. 3 is a schematic view showing the decomposition structure of a shower head for dissolving sulfur particles into bath water;

fig. 4 is a schematic diagram of a water control switch assembly 13 in a shower head for dissolving sulfur particles into bath water;

fig. 5 is a side view of the shower center water control switch assembly 13 of the present utility model for dissolving sulfur particles into bath water.

Detailed Description

Embodiments of the present utility model will be described in detail below with reference to the accompanying drawings and examples.

Referring to fig. 1 to 5, a shower head for dissolving sulfur particles into bath water includes a shower head structure 10, a flow guide 20 integrally formed on the shower head structure 10 and penetrating the shower head structure 10, and a handle 30 connected to the flow guide 20.

Specifically, referring to fig. 3, the shower head structure 10 includes a housing assembly 11, an impeller box 12 disposed within the housing assembly 11, and a water control switch assembly 13 disposed on the housing assembly 11.

The housing assembly 11 has a truncated cone-shaped outer shape, and specifically, the housing assembly 11 includes a carrying wall 112, a peripheral wall 111 integrally formed on the outer periphery of the carrying wall 112, a top cover 115 covering one end of the peripheral wall 111, and a nozzle 116 covering the other end of the peripheral wall 111, so as to divide the interior of the peripheral wall 111 into a first chamber 113 and a second chamber 114 through the carrying wall 112, wherein the first chamber 113 is used for carrying the impeller box 12, and the second chamber 114 is used for installing the water control switch assembly 13.

The carrying wall 112 is provided with water holes, so that water in the first chamber 113 enters the second chamber 114. Specifically, a plurality of first retaining protrusions 1121 are formed on the peripheral surface of the carrying wall 112 in the first chamber 113 for retaining the impeller box 12, in this embodiment, the plurality of first retaining protrusions 1121 are four, and the four first retaining protrusions 1121 are centered on the center of the carrying wall 112, and are annularly arranged on the peripheral surface of the carrying wall 112 and form a retaining cavity, so that the impeller box 12 rotates in the retaining cavity. A top shaft 1122 is formed at the center of the circumferential surface of the carrier wall 112 in the first chamber 113 for mounting the impeller case 12.

The peripheral wall 111 is integrally formed on the outer periphery of the carrying wall 112, and a water inlet hole (not shown) is formed in the peripheral wall 111, and the water inlet hole is communicated with the first chamber 113, in this embodiment, the water inlet hole is in a fan-shaped structure, wherein one radius of the water inlet hole of the fan-shaped structure cuts into the peripheral wall 111 at an angle of 40 to 50 degrees, preferably, one radius of the water inlet hole of the fan-shaped structure cuts into the peripheral wall 111 at an angle of 45 degrees, so that water flows into the first chamber 113 along the water inlet hole and generates impact force to drive the impeller box 12 to rotate anticlockwise in a retaining cavity enclosed by the four first retaining protrusions 1121.

Further referring to fig. 3, external threads are provided on the outer peripheral surfaces of the two ends of the peripheral wall 111 for correspondingly mounting the top cover 115 and the spray head 116, a top holding hole 1151 is provided at the center of the top cover 115 for mounting the impeller box 12 in cooperation with a top holding shaft 1122 at the center of the peripheral surface of the carrying wall 112 in the first chamber 113, internal threads are provided on the inner peripheral surface of the top cover 115, and the internal threads of the inner peripheral surface of the top cover 115 are engaged with the external threads of one end of the peripheral wall 111, so that the top cover 115 is mounted on the top end of the peripheral wall 111.

The shower nozzle 116 includes the bottom 1161, install in the bottom 1161 the bottom plate 1162 and install in the bottom 1161 and arrange the bottom seal 1163 on the bottom plate 1162 in, set up the internal thread on the bottom 1161 inner wall, and the internal thread of bottom 1161 inner wall and the external screw thread of perisporium 111 other end intermesh for the shower nozzle 116 is installed in perisporium 111 bottom through bottom 1161, and bottom seal 1163 supports to perisporium 111 bottom, in order to improve the leakproofness, prevents leaking. The bottom plate 1162 is provided with a plurality of circles of water spraying holes, so that water entering the second chamber 114 is sprayed out along the corresponding water spraying holes on the bottom plate 1162 through the cooperation of the water control switch assembly 13, in this embodiment, the plurality of circles of water spraying holes comprise two circles of outer water spraying holes 1164 and two circles of inner water spraying holes 1165, and the shower water can be controlled through the water control switch assembly 13 so that the shower water is sprayed out only along the two circles of outer water spraying holes 1164 on the bottom plate 1162 or is sprayed out only along the two circles of inner water spraying holes 1165 on the bottom plate 1162 or is sprayed out simultaneously along the two circles of outer water spraying holes 1164 and the two circles of inner water spraying holes 1165 on the bottom plate 1162.

The impeller box 12 is rotatably arranged in a retaining cavity formed by four first retaining protrusions 1121 on the carrying wall 112 in the first chamber 113, the impeller box 12 is used for containing sulfur solid particles and mineral particles, when heated bath water reaches the first chamber 113 (namely a spray nozzle bin) along a water inlet hole on the peripheral wall 111, the impact force of the bath water pushes the impeller box 12 to rotate anticlockwise at high speed in the retaining cavity and generate strong vortex flow, so that the sulfur particles and mineral particles in the impeller box 12 collide and rub, the surfaces of the sulfur particles drop small particles, and the dispersed sulfur particles are mixed with water to form suspension type bath water, so that the bath water has a better effect on skin infection and prevention and treatment of fat secretion, bacteria, fungi, parasites and the like of human skin.

Specifically, referring to fig. 3, the impeller box 12 includes a box body 121, a box cover 122 mounted on the box body 121, and a plurality of impeller blades 123 formed on the box cover 122, wherein a receiving chamber is formed between the box body 121 and the box cover 122 for receiving sulfur solid particles and mineral particles, a supporting groove 1211 is formed at the center of the bottom of the box body 121, a supporting shaft 1122 at the center of the peripheral surface of the supporting wall 112 is disposed in the supporting groove 1211 at the bottom of the box body 121, and a supporting protrusion is disposed at the center of the top of the box cover 122 and is disposed in the supporting hole 1151 at the center of the top cover 115, so that the stability of the impeller box 12 is improved when the impeller box 12 rotates in the retaining chamber of the first chamber 113.

The circumferential surfaces of the case body 121 and the case cover 122 are uniformly provided with a plurality of through holes 124 for the inflow or outflow of the bath water. The impeller blades 123 are annularly arranged on the side circumferential surface of the box cover 122 by taking the center of the top wall of the box cover 122 as the center, so that the impact force of the bath water is hit between every two adjacent impeller blades 123 to push the impeller box 12 to rotate at a high speed in the retaining cavity. In this embodiment, the tangent line of the connection end of each impeller blade 123 and the box cover 122 is at an angle of 50 degrees to 70 degrees, preferably, the tangent line of the connection end of each impeller blade 123 and the box cover 122 is at an angle of 60 degrees, so that the impact force of the bath water on the impeller box 12 is maximum, the rotating speed of the impeller box 12 is improved, the maximum vortex flow is generated, the force of collision friction of sulfur particles and mineral particles in the impeller box 12 is further increased, the small particles fall off the surface of the sulfur particles, the dispersed sulfur particles are mixed with water, the bath water enters the second chamber 114 from the first chamber 113 through the water holes on the bearing wall 112 and is controlled by the water control switch assembly 13, and the bath water is sprayed out along the water outlet holes on the bottom plate 1162, so that the bath water has better effects and effects on the skin infection and prevention and treatment of fat secretion, bacteria, fungi, parasites and the like of human skin, and the cost is low, and the bath requirements of mass people can be met.

A water control switch assembly 13 is mounted to the second chamber 114 for controlling the flow of bath water along the bottom plate 1162 and toward the same. Specifically, the water control switch assembly 13 includes a rotary switch 131, a rotary arm 132 connected to the rotary switch 131, a water control member 133 formed on the rotary arm 132, and a water outlet plate 134 installed in the second chamber 114 and engaged with the water control member 133.

Referring to fig. 3 to 5, a mounting cavity is provided in the second chamber 114, a connecting shaft 1140 is provided in the mounting cavity, a holding hole 1311 is provided on the rotary switch 131, a connecting post 1312 is provided in the holding hole 1311, the connecting shaft 1140 penetrates into the connecting post 1312 of the rotary switch 131, and the rotary switch 131 rotates in the mounting cavity by pressing the rotary switch 131, and a water spray flow indicator is provided on the outer peripheral surface of the rotary switch 131, specifically: the outer periphery sprays (i.e., sprays along two outer sprays 1164 on the bottom plate 1162), the inner sprays (i.e., sprays along two inner sprays 1165 on the bottom plate 1162), and the total sprays (i.e., sprays simultaneously along two outer sprays 1164 and two inner sprays 1165 on the bottom plate 1162).

A rotating arm 132 is connected to the rotating column 1312 of the rotating switch 131, and the rotating arm 132 is disposed in the second chamber 114. The end of the rotating arm 132 is formed with a water control member 133, a track is formed on the peripheral surface of the bearing wall 112 in the second chamber 114, three clamping grooves are formed on the track, the track corresponds to the water control member 133, so that the rotating arm 132 is driven to swing in the second chamber 114 through the rotation of the rotating switch 131 in the mounting cavity, the water control member 133 at the end of the rotating arm 132 moves along the track, and the water control member 133 is correspondingly placed in the clamping groove of the track to control the water spray direction.

The water control member 133 comprises a water control rotating sleeve 1331, an elastic member 1332 arranged in the water control rotating sleeve 1331 and a supporting ball 1333 arranged in the water control rotating sleeve 1331, wherein the water control rotating sleeve 1331 is of a hollow cylindrical structure, a supporting protrusion 1334 is formed at one end of the water control rotating sleeve 1331, the supporting protrusion 1334 can be correspondingly arranged in a clamping groove on a track, the elastic member 1332 is arranged in the water control rotating sleeve 1331 of the cylindrical structure, and the supporting ball 1333 is arranged in the water control rotating sleeve 1331, far away from the supporting protrusion 1334 and abuts against the elastic member 1332. In this embodiment, the elastic member 1332 is a coil spring.

The water outlet plate 134 is installed in the second chamber 114 and is matched with the water control piece 133, one side of the plate surface of the water outlet plate 134 is provided with a chute for sliding the water control piece 133, one end of the chute is provided with a first water outlet hole, the other end of the chute is provided with a second water outlet hole, and a clamping groove is arranged on the chute between the first water outlet hole and the second water outlet hole; a second retaining protrusion 1341 is formed between the first water outlet and the second water outlet on the other side of the water outlet plate 134, and the second retaining protrusion 1341 divides the other side of the water outlet plate 134 into an outlet water cavity 1342 and an inner water outlet cavity 1343, so that the first water outlet corresponds to the outlet water cavity 1342, and the second water outlet corresponds to the inner water outlet cavity 1343. The apertures of the first water outlet and the second water outlet are smaller than the diameter of the ball which abuts against the ball 1333.

The second retaining protrusion 1341 abuts against the bottom plate 1162 of the spray head 116, so that the water in the outer water chamber 1342 and the inner water outlet chamber 1343 are separated in the spray head 116, specifically: the bath water from the outlet chamber 1342 is sprayed along two outer water spray holes 1164 on the bottom plate 1162, and the bath water from the inner water outlet chamber 1343 is sprayed along two inner water spray holes 1165 on the bottom plate 1162. In this embodiment, a clamping groove is formed on the second retaining protrusion 1341, a sealing ring 1344 is formed in the clamping groove, and the retaining protrusion 1341 abuts against the bottom plate 1162 of the spray head 116 through the sealing ring 1344, so as to improve the tightness and prevent water leakage.

Referring to fig. 1 to 3, the flow guide tube 20 is integrally formed on the peripheral wall 111 of the shower head structure 10 and is communicated with the water inlet of the peripheral wall 111, so that the water in the flow guide tube 20 enters the first chamber 113 of the shower head structure 10 along the water inlet. The outer peripheral wall of the draft tube 20 is provided with external threads for connecting with the grab handle 30.

The grab handle 30 is connected to the draft tube 20 for the bather to grasp, facilitating the bathing. Specifically, an internal thread is provided on an inner peripheral wall of one end of the grab handle 30, the internal thread on the inner peripheral wall of the grab handle 30 is meshed with an external thread on an outer peripheral wall of the guide pipe 20, so that the grab handle 30 is connected to the guide pipe 20, a connecting section 31 is formed at the other end of the grab handle 30 for connection with a water outlet pipe, so that water enters the first chamber 113 of the shower head structure 10 along the grab handle 30 and the guide pipe 20 through the water outlet pipe, and in this embodiment, the external thread is provided on the outer peripheral wall of the connecting section 31 so as to be connected with the water outlet pipe.

When in bathing, the top cover 115 of the flowering and sprinkling structure 10 is firstly opened, sulfur solid particles and mineral particles are filled into the accommodating cavity of the impeller box 12 according to the raw material ratio of 1:2, preferably, the particle size of the sulfur solid particles is larger than that of the mineral particles, and further, the particle size of the sulfur solid particles is twice that of the mineral particles; the main switch on the water outlet pipe is turned on, so that the water heated to 35-40 ℃ passes through the grab handle 30 and the guide pipe 20 from the water outlet pipe, enters the first chamber 113 along the water inlet holes on the peripheral wall 111 of the sprinkler head structure 10, and simultaneously enters the first chamber 113 to generate impact force, and in the embodiment, the temperature of the water is 38 ℃; the impact force of the water liquid entering the first chamber 113 pushes the impeller box 12 to rotate at a high speed in the retaining cavity and generate strong vortex flow, so that sulfur particles and mineral particles in the impeller box 12 collide and rub, small particles are removed from the surfaces of the sulfur particles, the dispersed sulfur particles are mixed with water to form suspension type bath water, and the bath water enters the second chamber 114 from the first chamber 113 along water passing holes on the bearing wall 112; secondly, according to actual conditions, a bather selects a water spray flow direction mode suitable for the bather through the water control switch assembly 13, specifically: through pressing the rotary switch 131, the rotary switch 131 rotates in the installation cavity, and then drives the rotary arm 132 to swing in the second cavity 114, and then the water control piece 133 at the end part of the rotary arm 132 moves along the track, and the water control piece 133 is correspondingly placed in the clamping groove of the track and the corresponding position of the chute in the water outlet plate 134 to control the jet flow direction of the bath water and complete the bath, so that the bath water has a better effect on the secretion of grease of the skin of a human body, the infection and prevention of skin such as bacteria, fungi and parasites, and the like.

When water spraying is required on the outer periphery of the spray head 116 of the sprinkler head structure 10, the left end of the rotary switch 131 is pressed, so that the supporting protrusion 1334 at one end of the water control rotary sleeve 1331 in the water control piece 133 is correspondingly arranged in the clamping groove at the right end of the track on the peripheral surface of the bearing wall 112 in the second chamber 114, the supporting ball 1333 in the water control piece 133 is supported to the second water outlet hole at one end of the chute of the water outlet plate 134 through the elastic piece 1332, the inner water outlet cavity 1343 corresponding to the second water outlet hole is closed, and bath water in the second chamber 114 enters the corresponding water outlet cavity 1342 along the first water outlet hole and is sprayed out along two circles of outer water spraying holes 1164 on the bottom plate 1162;

when water is required to be sprayed into the spray head 116 of the shower head structure 10, the right end of the rotary switch 131 is pressed, so that the supporting protrusion 1334 at one end of the water control rotary sleeve 1331 in the water control piece 133 is correspondingly arranged in the clamping groove at the left end of the track on the peripheral surface of the bearing wall 112 in the second chamber 114, the supporting ball 1333 in the water control piece 133 is supported to the first water outlet hole at one end of the chute of the water outlet plate 134 through the elastic piece 1332, the outlet water cavity 1342 corresponding to the first water outlet hole is closed, and bath water in the second chamber 114 enters the corresponding inner water outlet cavity 1343 along the second water outlet hole and is sprayed out along two circles of inner water spraying holes 1165 on the bottom plate 1162;

when the shower head 116 of the shower head structure 10 needs to spray water, the left end or the right end of the rotary switch 131 is pressed, so that the supporting protrusion 1334 at one end of the water control rotary sleeve 1331 in the water control piece 133 is correspondingly arranged in the clamping groove in the middle of the track on the peripheral surface of the bearing wall 112 in the second chamber 114, and the supporting ball 1333 in the water control piece 133 is supported to the clamping groove on the chute of the water outlet plate 134 through the elastic piece 1332, so that the first water outlet and the second water outlet are both in an open state, bath water in the second chamber 114 enters the corresponding outgoing water cavity 1342 along the first water outlet, and bath water in the second chamber 114 enters the corresponding inner water outlet cavity 1343 along the second water outlet, and water is sprayed simultaneously along the two circles of outer water spray holes 1164 and the two circles of inner water spray holes 1165 on the bottom plate 1162.

In summary, the method and the shower head for dissolving sulfur particles into the bath water push the impeller box 12 to rotate at high speed in the retaining cavity by the impact force of the water solution and generate strong vortex flow, so that the sulfur particles and mineral particles in the impeller box 12 collide and rub, the surfaces of the sulfur particles drop off small particles, and the dispersed sulfur particles are mixed with the water to form the suspension type bath water.

The above examples are only preferred embodiments of the present utility model and do not limit the scope of the present utility model, and various modifications and improvements made by those skilled in the art to the technical solution of the present utility model should fall within the protection scope defined by the claims of the present utility model without departing from the design spirit of the present utility model.

Claims (8)

1. The utility model provides a dissolve gondola water faucet of shower water with sulphur particulate matter, includes gondola water faucet head structure (10), its characterized in that: the shower head structure (10) comprises a shell component (11), an impeller box (12) rotatably arranged in the shell component (11) and used for containing sulfur particles and mineral particles, and a water control switch component (13) arranged on the shell component (11), wherein the shell component (11) comprises a bearing wall (112), a peripheral wall (111) integrally formed on the periphery of the bearing wall (112), a top cover (115) arranged at one end of the peripheral wall (111) in a covering manner and a spray head (116) arranged at the other end of the peripheral wall (111) in a covering manner, the bearing wall (112) divides the inner part of the peripheral wall (111) into a first cavity (113) and a second cavity (114), the first cavity (113) is internally used for bearing the impeller box (12), the second cavity (114) is internally provided with the water control switch component (13), a water inlet hole communicated with the first cavity (113) is formed in the peripheral wall (111), water passing holes are formed in the bearing wall (112) so that water in the first cavity (113) enters the second cavity (12) and the impeller box (121) and a plurality of impeller blades (122) are formed on the impeller box body (121), a plurality of through holes (124) are uniformly formed in the peripheral surfaces of the box body (121) and the box cover (122); the impeller blades (123) are annularly arrayed on the side peripheral surface of the box cover (122) by taking the center of the top wall of the box cover (122) as the center, so that water impacts between every two adjacent impeller blades (123) to push the impeller box (12) to rotate in the retaining cavity.

2. The shower head for dissolving sulfur particles into bath water according to claim 1, wherein: a plurality of first retaining protrusions (1121) are formed on the peripheral surface of the bearing wall (112) in the first chamber (113), the plurality of first retaining protrusions (1121) are centered on the center of the bearing wall (112), the annular array is arranged on the peripheral surface of the bearing wall (112) and forms a retaining cavity, the impeller box (12) rotates in the retaining cavity, a retaining shaft (1122) is formed in the central position of the peripheral surface of the bearing wall (112) in the first chamber (113), and a retaining hole (1151) is formed in the central position of the top cover (115) to be matched with the retaining shaft (1122) in the central position of the peripheral surface of the bearing wall (112) to install the impeller box (12).

3. The shower head for dissolving sulfur particles into bath water according to claim 2, wherein: a containing cavity is formed between the box body (121) and the box cover (122) for containing sulfur solid particles and mineral particles, a supporting groove (1211) is formed in the center of the bottom of the box body (121), a supporting shaft (1122) in the center of the peripheral surface of the bearing wall (112) is arranged in the supporting groove (1211) in the bottom of the box body (121), a supporting protrusion is arranged in the center of the top of the box cover (122), and the supporting protrusion is arranged in a supporting hole (1151) in the center of the top cover (115).

4. The shower head for dissolving sulfur particles into bath water according to claim 1, wherein: a plurality of circles of water spraying holes are formed in a bottom plate (1162) of the spray head (116), each circle of water spraying holes comprises an outer water spraying hole (1164) and an inner water spraying hole (1165), and bath water entering the second cavity (114) is sprayed out along the corresponding water spraying holes in the bottom plate (1162) through the matched water control switch assembly (13).

5. The shower head for dissolving sulfur particles into bath water according to claim 4, wherein: the water control switch assembly (13) comprises a rotary switch (131) arranged in an installation cavity of the second chamber (114), a rotary arm (132) connected to the rotary switch (131), a water control piece (133) formed on the rotary arm (132) and a water outlet plate (134) installed in the second chamber (114) and matched with the water control piece (133), the rotary switch (131) is pressed to rotate in the installation cavity so as to drive the rotary arm (132) to swing in the second chamber (114), and then the water control piece (133) at the end part of the rotary arm (132) moves along a track, and the water control piece (133) is correspondingly placed in a clamping groove of the track and the corresponding position of a sliding groove in the water outlet plate (134) so as to control the jet flow direction of bath water.

6. The shower head for dissolving sulfur particles into bath water according to claim 5, wherein: the water outlet plate (134) plate one side is provided with a sliding chute for controlling the water outlet piece (133), one end of the chute is provided with a first water outlet hole, the other end of the chute is provided with a second water outlet hole, a clamping groove is formed in the chute between the first water outlet hole and the second water outlet hole, a second retaining protrusion (1341) is formed between the first water outlet hole and the second water outlet hole on the other side of the water outlet plate (134), the second retaining protrusion (1341) divides the other side of the water outlet plate (134) into an outlet water cavity (1342) and an inner water outlet cavity (1343), the first water outlet hole corresponds to the outlet water cavity (1342), and the second water outlet hole corresponds to the inner water outlet cavity (1343).

7. The shower head for dissolving sulfur particles into bath water as set forth in claim 6, wherein: the second retaining protrusion (1341) abuts against the bottom plate (1162) of the spray head (116) so that the shower water in the outer water cavity (1342) and the shower water in the inner water outlet cavity (1343) are separated in the spray head (116), the shower water in the outer water cavity (1342) is sprayed out along the outer water spraying holes (1164) in the bottom plate (1162), and the shower water in the inner water outlet cavity (1343) is sprayed out along the inner water spraying holes (1165) in the bottom plate (1162).

8. The shower head for dissolving sulfur particles into bath water as set forth in claim 6, wherein: still include honeycomb duct (20) and connect grab handle (30) on honeycomb duct (20), this honeycomb duct (20) integrally formed on perisporium (111) of gondola water faucet head structure (10), and link up with the inlet port of perisporium (111), grab handle (30) one end is connected with honeycomb duct (20), and grab handle (30) other end is formed with linkage segment (31) for with outlet pipe connection for in the first cavity (113) of gondola water faucet head structure (10) are got into through outlet pipe, grab handle (30) and honeycomb duct (20) along the inlet port to water liquid.