CN108784476B - Wall-mounted shower screen for bathroom - Google Patents

Abstract

The invention belongs to the technical field of bathrooms, and discloses a wall-mounted shower screen for a bathroom, which comprises a vertically arranged shower screen main body and a blowing assembly arranged at the front end of the shower screen main body; a shower head is also arranged on the side surface of the shower screen main body; an air outlet cavity is formed in one side of the shower screen main body in the vertical direction; a plurality of vertically arranged air outlet holes are formed in one side of the shower screen main body, which is positioned in the air outlet cavity, at equal intervals; the blowing assembly comprises a barrel body which is horizontally arranged; the outer wall of one end of the cylinder body is fixedly connected with a ventilation pipe; and one end of the ventilation pipe, which is positioned at the air outlet, is fixedly connected with a ventilation cover. Through reciprocating of the subassembly of blowing, when the user shower is accomplished, can carry out the stoving that lasts and scrape the drop of water on the health through the air curtain to the user's health can weathered sooner.

Description

Wall-mounted shower screen for bathroom

Technical Field

The invention belongs to the technical field of bathrooms, and particularly relates to a wall-mounted shower screen for a bathroom.

Background

In daily life, people usually use a towel to wipe the body after bathing with the shower, which is not particularly comfortable and convenient, when friends borrow the shower, new bathing articles are prepared, which is easy to cause waste, but if the towel is used in a crossed way, the towel is not very sanitary; in the family, the user can use respective bath towel, towel and the like to wipe the clothes dry, but the clothes are also cleaned and disinfected frequently; in hotels, people need to wipe the body through a bath towel after bathing, but the sanitary conditions of bath articles in many hotels are worried, and users can only use or prepare the bath articles in use.

Patent document CN207444872U discloses a shower device with a blowing function, which uses a micro-rotating motor to control a turnable louver blade so as to realize functions of automatically adjusting wind direction and the like; however, the air in the shower environment is humid, and the micro-rotating motor is easily affected with moisture, thereby reducing the service life.

Disclosure of Invention

The technical problem to be solved by the invention is as follows: aiming at the defects in the prior art, the wall-mounted shower screen for the bathroom is provided.

In order to realize the purpose of the invention, the following technical scheme is adopted for realizing the purpose: a wall-mounted shower screen for a bathroom comprises a vertically arranged shower screen main body and a blowing assembly arranged at the front end of the shower screen main body;

an air outlet cavity is formed in one side of the shower screen main body in the vertical direction; a plurality of vertically arranged air outlet holes are formed in one side of the shower screen main body, which is positioned in the air outlet cavity, at equal intervals;

the blowing assembly comprises a barrel body which is horizontally arranged; the inner walls of the two ends of the barrel are respectively and fixedly connected with a first air blowing port and a second air blowing port; the outer wall of the barrel at one end of the first air blowing opening is fixedly connected with a ventilation pipe communicated with the air outlet hole; a plurality of first connecting holes are formed in the side wall of one end, connected with the barrel, of the ventilating pipe at equal intervals along the circumferential direction; the first communication hole is communicated with the first air blowing opening;

the middle part of the ventilation pipe is fixedly connected with a ventilation branch pipe communicated with the ventilation pipe; the end part of the ventilation branch pipe is closed and faces the barrel; a plurality of second communication holes are formed in the side wall of the end part of the ventilation branch pipe at equal intervals along the circumferential direction; an air flow channel communicated with the second air blowing port is horizontally arranged in the cylinder; the second communication hole communicates with the airflow passage;

the inner wall of one end of the ventilation pipe close to the barrel body and the inner wall of the ventilation branch pipe are respectively connected with a sliding barrel in a sliding manner; the sliding cylinder comprises an annular cylinder with two through ends and an annular magnet fixedly connected to one end of the annular cylinder;

the peripheries of the ventilation pipe and the ventilation branch pipe are respectively connected with a sliding ring which is attracted with the annular magnet in a sliding way; the upper end and the lower end of the sliding ring are respectively and fixedly connected with a vertically arranged column head; the upper end and the lower end of the ventilation pipe are respectively provided with an upper rotating rod and a lower rotating rod; an upper sliding groove and a lower sliding groove which are connected with the column head in a sliding manner are respectively formed on the upper rotating rod and the lower rotating rod;

one end of the ventilation pipe, which is positioned at the air outlet, is fixedly connected with a ventilation cover; the length of the ventilation cover is greater than the sum of the distance between every two adjacent air outlet holes and the diameter of the air outlet holes; a wind shielding magnet for preventing air flow from flowing out of the air outlet is arranged at each air outlet; one end of the wind shielding magnet is fixedly connected with a first spring; the other end of the first spring is fixedly connected to the side wall in the air outlet cavity; a repulsion magnet is fixedly connected to the position, close to the air outlet, of the ventilation cover; the length of the repulsion magnet is greater than the distance between two adjacent air outlet holes; a through hole for air flow to pass through is formed in the middle of the repulsive force magnet; the repulsive force magnet and the wind shielding magnet repel each other;

the upper rotating rod is positioned at one end far away from the ventilation branch pipe and is fixedly connected with a first magnetic block; a first positioning block is fixedly connected to the cylinder body corresponding to the first magnetic block; one end of the lower rotating rod, which is positioned on the ventilation branch pipe, is fixedly connected with a second magnetic block; a second positioning block is fixedly connected to the outer wall of the ventilation cover corresponding to the second magnetic block;

a first upright post is fixedly connected to one end, located at the first magnetic block, of the upper rotating rod; the lower end of the lower rotating rod is positioned at one end of the second magnetic block and is fixedly connected with a second upright post; a first inclined block used for abutting against the first upright post is arranged above the side surface of the shower screen main body corresponding to the first upright post; a second inclined block used for abutting against the second upright post is arranged below the side surface of the shower screen main body corresponding to the second upright post;

a rotating shaft is rotationally connected in the cylinder body; the rotating shaft is positioned between the first air blowing opening and the second air blowing opening and is fixedly connected with a plurality of windward blades; the rotating shaft penetrates through the outer side of the cylinder body to form a climbing gear; a rack in meshing transmission connection with the climbing gear is formed on one side, located on the climbing gear, of the shower screen main body; a horizontal air outlet is formed in one side, back to the shower screen main body, of the cylinder body;

a shower head is also arranged on the side surface of the shower screen main body; the lower end of the shower head is provided with a connecting pipe; a water pipe for conveying water and a gas pipe for conveying gas are arranged in the connecting pipe; a spiral sheet is formed in the air conveying pipe; a water diversion groove arranged along the spiral sheet is formed in the upper end of the air delivery pipe at the joint of the spiral sheet and the air delivery pipe; a water collecting groove arranged along the length direction of the gas transmission pipe is formed on one side of the gas transmission pipe away from the water pipe; a plurality of water outlets communicated with the water collecting tank are formed on the outer side of the connecting pipe at equal intervals corresponding to the water collecting tank;

the lower end of the gas pipe is respectively connected with a fan and a negative pressure source through pipelines; the lower end of the water pipe is connected with an ozone generator through a pipeline; an air suction hole communicated with the air delivery pipe is formed at the outlet of the shower head;

a controller is arranged in the shower screen main body; the fan communicated with the gas pipe is also communicated with the air outlet cavity; a heater is connected between the fan and the air outlet cavity; each pipeline communicated with the gas pipe, the water pipe and the air outlet cavity is provided with an electromagnetic valve; the fan, the negative pressure source, the ozone generator, the heater and the electromagnetic valves are electrically connected with the controller.

As a preferable scheme: a narrow pipe with a reduced section is formed at the upper part of the water pipe; a communicating pipe is formed between the narrow pipe and the gas pipe; the communicating pipe enables the gas conveying pipe to be communicated with the narrow pipe; one end of the communicating pipe, which is positioned at the narrow pipe, is higher than one end of the communicating pipe, which is positioned at the gas conveying pipe;

the spiral sheet is positioned below the communicating pipe;

the ozone generator is communicated with the gas conveying pipe through a pipeline.

As a preferable scheme: the sliding ring is made of magnet or iron; the first positioning block and the second positioning block are made of soft magnetic materials.

As a preferable scheme: the shower screen main body is connected with a heating box through a pipeline; one end of the heating box, which is far away from the shower screen main body, is connected with a blower for generating air flow; the bottom of the heating box is connected with an induction cooker in a sliding manner;

the heating box comprises a water tank communicated with tap water, an exhaust box and an air supply box which are respectively communicated with the blower; the outer side of the lower part of the water tank, which is far away from the water inlet end, is fixedly connected with a water outlet pipe;

the lower end of the heating box is fixedly connected with guide rails for the induction cooker to slide at the two sides of the water inlet and the water outlet; the induction cooker comprises a sliding plate which is connected in the guide rail in a sliding way and an induction cooker main body which is used for generating a high-frequency alternating magnetic field; the sliding plate is vertical to the side surface of the guide rail and is provided with a through guide hole; the lower bottom of the heating box is fixedly connected with a guide rod penetrating through the guide hole; a second spring is arranged at one end of the guide rod, which is far away from the air supply box; two ends of the second spring are respectively and fixedly connected with the lower end of the heating box and the sliding plate;

a positioning block sliding groove is formed in the side face, located on the water outlet pipe, of the sliding plate in the vertical direction; a third positioning block is connected in the positioning block sliding groove in a sliding mode; a positioning groove for accommodating the third positioning block is formed at the lower end of the guide rail;

a water wheel which is horizontally arranged is arranged on the side surface of the water outlet pipe; the lower end of the water wheel is horizontally provided with a synchronous belt component; the synchronous belt component comprises a first synchronous wheel, a second synchronous wheel and a synchronous belt, wherein the first synchronous wheel is coaxially and fixedly connected with the water wheel, the second synchronous wheel is rotatably connected to the lower part of the heating box, and the synchronous belt is arranged on the first synchronous wheel and the second synchronous wheel; a guide column is fixedly connected to the lower end of the synchronous belt; a guide rod is formed on the side surface of the induction cooker main body below the synchronous belt; a sliding groove in sliding connection with the guide post is formed in the guide rod;

a cold water pipe is fixedly connected between the water wheel and the heating box on the water outlet pipe; a hot water electromagnetic valve is arranged on the water outlet pipe and close to the heating box; a cold water electromagnetic valve is arranged on the cold water pipe;

a vertically arranged pressure increasing pipe is fixedly connected to the side surface of the lower part of the heating box corresponding to the positioning groove; a piston rod is connected in the pressurizing pipe in a sliding manner; a connecting plate facing the heating box is formed at the lower end of the piston rod; a driven positioning block is formed on the connecting plate; the driven positioning block is inserted in the positioning groove; a third spring is fixedly connected between the connecting plate and the guide rail of the corresponding positioning groove; the driven positioning block is flush with the lower bottom surface of the sliding plate in an initial state; the water outlet pipe is respectively communicated with the shower head and the pressure increasing pipe at the corresponding position through a three-way pipe;

one-way valves are respectively connected to outlets of one ends, far away from the blower, of the exhaust box and the air supply box; the other end of the check valve corresponding to the exhaust box is communicated with the gas pipe through a pipeline; the other end of the one-way valve corresponding to the air supply box is respectively communicated with the air outlet cavity and the air delivery pipe through pipelines; the one-way valve corresponding to the exhaust box is communicated in one way from the gas transmission pipe to the exhaust box; the one-way valve corresponding to the air supply box is communicated from the air supply box to the air delivery pipe or the air outlet cavity in a one-way mode;

the outlet of the ozone generator is connected to a pipeline between the water outlet pipe of the water tank and the water pipe; the hot water electromagnetic valve, the cold water electromagnetic valve and the electromagnetic oven are electrically connected with a controller.

As a preferable scheme: the blower includes a cylindrical housing; a driving motor is arranged outside the shell; an output shaft of the driving motor is concentric with the shell; two fans are arranged on the output shaft of the driving motor and positioned in the shell; the two fans are cross-flow fans; a ratchet wheel is formed in the middle of one side, facing the driving motor, of each of the two fans; the directions of the two ratchet wheels are opposite; a ratchet wheel chuck matched with the ratchet wheel is fixedly connected to an output shaft of the driving motor; a partition plate parallel to the fan is fixedly connected in the shell; the partition plate is positioned between the two fans; a first air outlet and a second air outlet which are horizontally arranged and rectangular are formed at the bottom of the periphery of the shell; the width of the first air outlet is larger than that of the fan; the first air outlet is positioned at one end far away from the driving motor; the first air outlet is divided into an air outlet channel and an air inlet channel by the partition plate; the air outlet channel corresponds to a fan far away from the driving motor; the air outlet channel and the air inlet channel are equal in size; the orientation of the second air outlet is opposite to that of the first air outlet; the width of the second air outlet is the same as that of the fan close to the driving motor; an air inlet is formed in one side, far away from the driving motor, of the shell;

a rectangular rotating baffle is rotatably connected in the first air outlet corresponding to the partition plate; the rotating baffle is vertically arranged; the rotary baffle is larger than the outer frame of the air outlet channel; an incomplete worm gear is fixedly connected to the upper end of the first air outlet, which is positioned on the rotating shaft of the rotating baffle; a worm in meshed transmission connection with the incomplete worm wheel is mounted at the upper end of the first air outlet; the worm is arranged along the axial direction of the driving motor; an output shaft of the driving motor is positioned on the outer side of the shell and is fixedly connected with a driving gear; one end of the worm, which is positioned at the driving gear, is fixedly connected with a driven gear in meshing transmission connection with the driving gear; the two sides of the rotating baffle plates are respectively provided with a fourth spring corresponding to the outer frame of the air outlet channel;

the first air outlet is respectively communicated with the air supply box and the exhaust box; the other ends of the air supply box and the air exhaust box are communicated with the air conveying pipe.

The driving motor is electrically connected with the controller.

As a preferable scheme: the exhaust box is positioned above the air supply box; iron plates for heating are arranged on the inner bottom surfaces of the water tank and the air supply tank; and a heat conducting fin for conducting heat on the iron plate into the air supply box is arranged in the air supply box.

As a preferable scheme: the synchronous belt is driven by the first synchronous wheel; and a pinch roller is arranged on the outer side of the synchronous belt.

Compared with the prior art, the invention has the beneficial effects that: the user operates the common shower screen when taking a shower; when a user finishes using the air drying device and needs to dry the body, the fan, the heater and the electromagnetic valve communicated with the air outlet cavity are opened through the controller, the air blowing assembly moves up and down at the moment, water drops attached to the body are scraped off through the air curtain from the horizontal air outlet, and redundant moisture on the body is dried through heated air flow; when the shower environment of a user has peculiar smell, the deodorization and sterilization can be carried out through ozone, at the moment, the ozone generator and the corresponding electromagnetic valve are opened through the controller, water is led through the water pipe for mixing, and the shower environment can be sterilized and washed; after using ozone to disinfect, the stink is produced to the reason because of ozone concentration in the environment, opens the negative pressure source through the controller this moment, and ozone in the environment gets into in the gas-supply pipe through the suction hole, discharges through the negative pressure source at last.

Through the up-and-down movement of the air blowing assembly, when a user finishes showering, the body of the user can be dried continuously, and water drops on the body can be scraped off through the air curtain, so that the body can be dried more quickly; when the blowing assembly moves up and down, the blowing assembly can be automatically reversed without additionally providing power; when ozone in the shower environment is discharged through the air suction holes, water drops entering the air conveying pipe can be discharged, and the pipeline connected with the air conveying pipe and the negative pressure source can be kept relatively dry, so that the service lives of the negative pressure source and the pipeline connected with the air conveying pipe are prolonged.

Drawings

Fig. 1 is a schematic structural view of the present invention.

Fig. 2 is a schematic exploded view of the present invention.

Fig. 3 is a schematic structural view of the blowing assembly.

Fig. 4 is an exploded view of the blowing assembly.

Fig. 5 and 6 are schematic sectional structural views of the blowing assembly.

Fig. 7 is a sectional structure diagram of the connection pipe.

Fig. 8 is a schematic sectional structure view of the slide cylinder.

Fig. 9 is a schematic sectional structure view of a connecting pipe of embodiment 2.

FIG. 10 is a schematic view of piping connection in example 3.

FIG. 11 is a schematic structural view of example 3.

FIG. 12 is an exploded schematic view of a heating tank part according to embodiment 3.

FIG. 13 is a schematic sectional view showing a structure of a heating tank according to embodiment 3.

Fig. 14 is a schematic structural view of a heating box of embodiment 3.

Fig. 15 is a schematic structural view of an induction cooker according to embodiment 3.

Fig. 16 is a schematic structural view of a piston rod and a driven positioning block according to embodiment 3.

Fig. 17 is a schematic sectional structure view of a blower according to embodiment 4.

Fig. 18 is an exploded structural view of a blower according to embodiment 4.

Fig. 19 is a schematic structural view of a rotating shutter according to embodiment 4.

01. A shower screen body; 011. a first swash block; 012. a second swash block; 013. an air outlet cavity; 014. an air outlet; 015. a rack; 02. a shower head; 021. a suction hole; 03. a wind shielding magnet; 031. a first spring; 04. a connecting pipe; 041. a water pipe; 0411. a narrow tube; 042. a gas delivery pipe; 0421. a spiral sheet; 0422. a water collection tank; 0423. a water diversion tank; 043. a water outlet; 044. a communicating pipe; 1. a heating box; 11. a water tank; 12. an exhaust box; 13. a gas supply tank; 131. a heat conductive sheet; 14. a water outlet pipe; 141. a cold water pipe; 142. a hot water solenoid valve; 143. a cold water solenoid valve; 15. a water wheel; 16. a pressure increasing pipe; 17. a guide bar; 18. a second spring; 19. a guide rail; 191. positioning a groove; 10. a one-way valve; 2. a blower; 21. a housing; 211. a first air outlet; 212. a second air outlet; 213. a partition plate; 214. an air outlet channel; 215. an air inlet channel; 216. an air inlet; 22. a drive motor; 23. a fan; 231. a ratchet wheel; 24. a driving gear; 251. a driven gear; 252. a worm; 26. rotating the baffle; 261. an incomplete worm gear; 262. a fourth spring; 27. a ratchet chuck; 3. a blowing assembly; 31. a barrel; 311. a horizontal air outlet; 312. a vent pipe; 3121. a ventilation branch pipe; 31211. a second communication hole; 3122. a first communication hole; 3123. a first positioning block; 313. a vent cover; 3131. a repulsive magnet; 31311. a through hole; 3132. a second positioning block; 315. a first air blowing opening; 316. a second air blowing port; 317. an air flow channel; 32. a rotating shaft; 321. a windward blade; 322. a climbing gear; 33. rotating the rod downwards; 331. a second upright post; 332. a second magnetic block; 333. a lower sliding groove; 34. rotating the rotating rod upwards; 341. a first upright post; 342. a first magnetic block; 343. an upper sliding groove; 35. a sliding ring; 351. a column cap; 36. a sliding cylinder; 361. an annular cylinder; 362. a ring magnet; 5. an induction cooker; 51. a sliding plate; 511. a positioning block sliding groove; 512. a guide hole; 52. an induction cooker main body; 53. a guide rod; 531. a chute; 54. a third positioning block; 6. a timing belt assembly; 61. a synchronous belt; 611. a guide post; 621. a first synchronizing wheel; 622. a second synchronizing wheel; 71. a piston rod; 72; a connecting plate; 73. a driven positioning block; 74. and a third spring.

Detailed Description

Example 1

Referring to fig. 1 to 8, a wall-mounted shower screen for a bathroom according to the present embodiment includes a vertically arranged shower screen main body 01 and a blowing assembly 3 installed at a front end of the shower screen main body.

An air outlet cavity 013 is formed in one side of the shower screen main body in the vertical direction; shower screen main part is located one side equidistance in air-out chamber sets up the exhaust vent 014 of a plurality of vertical settings.

The blowing assembly comprises a barrel 31 which is horizontally arranged; the inner walls of the two ends of the barrel are respectively and fixedly connected with a first air blowing opening 315 and a second air blowing opening 316; the first air blowing opening and the second air blowing opening are coaxial; the outer wall of the barrel at one end of the first air blowing opening is fixedly connected with a vent pipe 312 communicated with the air outlet hole; a plurality of first connecting holes 3122 are formed in the side wall of one end of the ventilating pipe connected with the cylinder body at equal intervals along the circumferential direction; the first communicating hole is communicated with the first air blowing opening.

The middle part of the ventilation pipe is fixedly connected with a ventilation branch pipe 3121 communicated with the ventilation pipe; the end part of the ventilation branch pipe is closed and faces the barrel; a plurality of second communication holes 31211 are equidistantly arranged along the circumferential direction on the side wall of the end part of the ventilation branch pipe; an air flow channel 317 communicated with the second air blowing port is horizontally arranged in the cylinder; the second communication hole communicates with the airflow passage.

The inner wall of one end of the ventilation pipe close to the barrel body and the inner wall of the ventilation branch pipe are respectively connected with a sliding barrel 36 in a sliding manner; the sliding cylinder comprises an annular cylinder 361 with two through ends and an annular magnet 362 fixedly connected to one end of the annular cylinder; the magnetic poles of the annular magnet are positioned on the inner wall and the outer wall; the annular magnet is located at one end far away from the barrel. When the sliding barrel slides to the position that the ventilation pipe is positioned at the end part of one end of the barrel body, the ventilation pipe is not communicated with the first air blowing opening at the moment because the first communication hole is shielded by the annular barrel; and in the same reason, when the sliding cylinder slides to the end part of the ventilation branch pipe, the ventilation branch pipe is not communicated with the airflow channel.

The peripheries of the ventilation pipe and the ventilation branch pipe are respectively connected with a sliding ring 35 which is attracted with the annular magnet in a sliding way; the sliding ring is made of magnet or iron; the upper end and the lower end of the sliding ring are respectively and fixedly connected with a column head 351 which is vertically arranged; the upper end and the lower end of the ventilation pipe are respectively provided with an upper rotating rod 34 and a lower rotating rod 33; an upper sliding groove 343 and a lower sliding groove 333 which are connected with the column head in a sliding way are respectively formed on the upper rotating rod and the lower rotating rod; the rotating center between the upper rotating rod and the lower rotating rod is vertically and coaxially arranged. The upper rotating rod or the lower rotating rod rotates to enable the sliding ring to slide along the ventilation pipe or the ventilation branch pipe, and the sliding cylinder is located in the ventilation pipe or the ventilation branch pipe to slide through the attraction of the annular magnet; because the rotation center of the upper rotating rod and the rotation center of the lower rotating rod are vertical and coaxial, and the column cap is vertically arranged, the upper rotating rod and the lower rotating rod synchronously rotate.

One end of the ventilation pipe, which is positioned at the air outlet, is fixedly connected with a ventilation cover 313; the length of the ventilation cover is greater than the sum of the distance between every two adjacent air outlet holes and the diameter of the air outlet holes, namely when the air blowing assembly slides, at least one air outlet hole can be always shielded in the ventilation cover; a wind shielding magnet 03 for preventing air flow from flowing out of the air outlet is arranged at each air outlet; one end of the wind shielding magnet is fixedly connected with a first spring 031; the other end of the first spring is fixedly connected to the side wall in the air outlet cavity; a repulsive force magnet 3131 is fixedly connected to the ventilation cover close to the air outlet; the length of the repulsion magnet is greater than the distance between two adjacent air outlet holes; a through hole 31311 for air to pass through is formed in the middle of the repulsive force magnet; the repulsive force magnet is repulsive to the wind shielding magnet. When the wind shielding magnet is in an initial state, the wind shielding magnet is abutted against the air outlet under the action of the first spring, and then the airflow in the air outlet cavity cannot be discharged from the air outlet; when the ventilation cover slides, the wind shielding magnet in the wind outlet hole in the ventilation cover makes the wind shielding magnet separated from the wind outlet hole due to the repulsive force of the repulsive force magnet, and at the moment, the airflow in the wind outlet cavity enters the ventilation pipe from the wind outlet hole through the ventilation cover.

One end of the upper rotating rod, which is far away from the ventilation branch pipe, is fixedly connected with a first magnetic block 342; a first positioning block 3123 is fixedly connected to the cylinder body corresponding to the first magnetic block; one end of the lower rotating rod, which is positioned on the ventilation branch pipe, is fixedly connected with a second magnetic block 332; a second positioning block 3132 is fixedly connected to the outer wall of the ventilation cover corresponding to the second magnetic block; the first positioning block and the second positioning block are made of soft magnetic materials; when the sliding cylinder slides to the end part of the ventilation branch pipe, the second positioning block and the second magnetic block are attracted, so that the upper rotating rod or the lower rotating rod cannot rotate in the process of moving the blowing assembly up and down; when the upper rotating rod and the lower rotating rod rotate, the two sliding cylinders are driven to slide towards opposite directions.

A first upright column 341 is fixedly connected to one end, positioned at the first magnetic block, of the upper rotating rod; the lower end of the lower rotating rod is positioned at one end of the second magnetic block and is fixedly connected with a second upright column 331; a first inclined block 011 used for abutting against the first upright post is arranged above the side surface of the shower screen main body corresponding to the first upright post; the side of the shower screen main body is provided with a second inclined block 012 corresponding to the lower part of the second upright post and used for abutting against the second upright post.

A rotating shaft 32 is rotationally connected in the cylinder body; the rotating shaft is coaxial with the first air blowing opening; a plurality of windward blades 321 are fixedly connected between the first air blowing opening and the second air blowing opening of the rotating shaft; the windward blades are spirally and equidistantly distributed, so that the effective area of the windward blades in the windward process is maximized; a climbing gear 322 is formed on the rotating shaft through the outer side of the cylinder; a rack 015 in meshed transmission connection with the climbing gear is formed on one side of the climbing gear of the shower screen main body; a horizontal air outlet 311 is formed on one side of the cylinder body, which is back to the shower screen main body. The airflow enters the cylinder body through the ventilation pipe and is blown out of the horizontal air outlet to form an air curtain; when the second magnetic block and the second positioning block are attracted, the ventilation pipe is communicated with the first air blowing opening, air flow enters the first air blowing opening from the ventilation pipe and blows towards windward blades, and then the rotating shaft rotates to enable the air blowing assembly to move upwards; when the blowing assembly moves to the uppermost part of the stroke, the first inclined block abuts against the first upright column, the first magnetic block is driven to move towards the direction of the first positioning block, the second magnetic block is separated from the second positioning block, the first magnetic block and the first positioning block are attracted, the ventilation pipe and the first blowing port are blocked by the sliding cylinder at the moment, the ventilation branch pipe is communicated with the second blowing port through an airflow channel, airflow is blown to the rotating shaft from the second blowing port, and the rotating shaft rotates reversely to enable the blowing assembly to move downwards; similarly, when the blowing assembly moves to the lowest end of the stroke, the second inclined block abuts against the second upright post, and then the second magnetic block and the second positioning block are attracted, so that the blowing assembly moves upwards again; the subassembly of blowing removes the in-process, the ventilation lid can shelter from at least one exhaust vent all the time, simultaneously, repulsion magnet enables the magnet that keeps out the wind that at least one exhaust vent corresponds all the time and breaks away from the exhaust vent promptly the subassembly of blowing removes the in-process air-out chamber with the ventilation pipe is in the intercommunication state all the time.

A shower head 02 is also arranged on the side surface of the shower screen main body; the lower end of the shower head is provided with a connecting pipe 04; a water pipe 041 for conveying water and a gas pipe 042 for conveying gas are arranged in the connecting pipe; a spiral piece 0421 is formed in the air conveying pipe; the spiral sheet is in a conical shape arranged upwards; a water diversion groove 0423 arranged along the spiral sheet is formed in the upper end of the air conveying pipe at the joint of the spiral sheet and the air conveying pipe; a water collecting groove 0422 arranged along the length direction of the gas conveying pipe is formed on one side of the gas conveying pipe away from the water pipe; the outside of connecting pipe correspond to water catch bowl department equidistance shaping have a plurality of with the outlet 043 of water catch bowl intercommunication.

The lower end of the gas pipe is respectively connected with a fan and a negative pressure source through pipelines; the lower end of the water pipe is connected with an ozone generator through a pipeline; an air suction hole 021 communicated with the air conveying pipe is formed at the outlet of the shower head. When the water in the water pipe needs to be mixed with ozone, the ozone generator communicated with the water pipe is opened when the water pipe is filled with water, and the water mixed with the ozone can be used for carrying out sterilization and disinfection treatment on the bathing articles; when a negative pressure source communicated with the air conveying pipe is opened, external air enters the air conveying pipe from the air suction hole, so that ozone or other peculiar smells in the environment are discharged; after the shower head is used by a user, more water or steam in the air can be sucked into the air conveying pipe at the same time, after water or water drops condensed from the steam enter the air conveying pipe, the air flow is rotated by the spiral sheet, and the liquid water has larger relative mass, flows to the periphery of the water conveying pipe by the action of the spiral sheet and the centrifugal force, enters the water diversion tank, is gathered in the water collection tank and then is discharged through the water outlet; when the air pipe is exhausted, the air flow enters and passes through the air pipe along with the lower surface of the spiral piece.

The connecting pipe can be integrally formed by a 3D printing technology; the lower end of the connecting pipe is respectively communicated with the water pipe and the gas conveying pipe through a hose.

A controller is arranged in the shower screen main body; the fan communicated with the gas pipe is also communicated with the air outlet cavity; a heater is connected between the fan and the air outlet cavity; each pipeline communicated with the gas pipe, the water pipe and the air outlet cavity is provided with an electromagnetic valve; the fan, the negative pressure source, the ozone generator, the heater and the electromagnetic valves are electrically connected with the controller.

The user operates the common shower screen when taking a shower; when a user finishes using the air drying device and needs to dry the body, the fan, the heater and the electromagnetic valve communicated with the air outlet cavity are opened through the controller, the air blowing assembly moves up and down at the moment, water drops attached to the body are scraped off through the air curtain from the horizontal air outlet, and redundant moisture on the body is dried through heated air flow; when the shower environment of a user has peculiar smell, the deodorization and sterilization can be carried out through ozone, at the moment, the ozone generator and the corresponding electromagnetic valve are opened through the controller, water is led through the water pipe for mixing, and the shower environment can be sterilized and washed; after using ozone to disinfect, the stink is produced to the reason because of ozone concentration in the environment, opens the negative pressure source through the controller this moment, and ozone in the environment gets into in the gas-supply pipe through the suction hole, discharges through the negative pressure source at last.

Through the up-and-down movement of the air blowing assembly, when a user finishes showering, the body of the user can be dried continuously, and water drops on the body can be scraped off through the air curtain, so that the body can be dried more quickly; when the blowing assembly moves up and down, the blowing assembly can be automatically reversed without additionally providing power; when ozone in the shower environment is discharged through the air suction holes, water drops entering the air conveying pipe can be discharged, and the pipeline connected with the air conveying pipe and the negative pressure source can be kept relatively dry, so that the service lives of the negative pressure source and the pipeline connected with the air conveying pipe are prolonged.

Example 2

With reference to fig. 9, this embodiment improves the connection pipe on the basis of embodiment 1 as follows: a narrow pipe 0411 with a reduced section is formed at the upper part of the water pipe; a communicating pipe 044 is formed between the narrow pipe and the gas pipe; the communicating pipe enables the gas conveying pipe to be communicated with the narrow pipe; one end of the communicating pipe, which is positioned at the narrow pipe, is higher than one end of the communicating pipe, which is positioned at the gas conveying pipe. When water flows through the water pipe, the flow velocity in the narrow pipe is increased due to the fact that the section of the narrow pipe is reduced, and gas in the gas conveying pipe is mixed into the narrow pipe through the air suction effect.

The spiral piece is positioned below the communicating pipe.

The ozone generator is communicated with the gas conveying pipe through a pipeline.

When the water in the water pipe needs to be mixed with ozone, the ozone generator communicated with the gas transmission pipe is turned on, and at the moment, when the water is introduced into the water pipe, the ozone in the gas transmission pipe enters the water pipe along with the communicating pipe so as to be mixed with the water.

When the environment outside the shower screen main body is sterilized and does not need to be washed, the ozone generator is controlled to be opened independently.

Example 3

As shown in fig. 10 to 16, this embodiment is modified from embodiment 1 as follows: the shower screen main body is connected with a heating box 1 through a pipeline; one end of the heating box, which is far away from the shower screen main body, is connected with a blower 2 for generating air flow; the bottom of the heating box is connected with an induction cooker 5 in a sliding manner.

The heating box comprises a water tank 11 communicated with tap water, an exhaust box 12 and an air supply box 13 which are respectively communicated with the blower; the exhaust box is positioned above the air supply box; iron plates for heating are arranged on the inner bottom surfaces of the water tank and the air supply tank; a heat conducting fin 131 for conducting heat on the iron plate into the air supply box is arranged in the air supply box; the outer side of the lower part of the water tank far away from the water inlet end is fixedly connected with a water outlet pipe 14.

The lower end of the heating box is fixedly connected with guide rails 19 for the induction cooker to slide at the two sides of the inlet water and the outlet water; the induction cooker comprises a sliding plate 51 which is connected in the guide rail in a sliding way and an induction cooker main body 52 which is used for generating a high-frequency alternating magnetic field; a through guide hole 512 is formed on the sliding plate and is vertical to the side surface of the guide rail; the lower bottom of the heating box is fixedly connected with a guide rod 17 penetrating through the guide hole; a second spring 18 is arranged at one end of the guide rod, which is far away from the air supply box; two ends of the second spring are respectively and fixedly connected with the lower end of the heating box and the sliding plate; in an initial state, the induction cooker is positioned below the air supply box.

A positioning block sliding groove 511 is formed in the side surface of the sliding plate, which is positioned on the water outlet pipe, along the vertical direction; a third positioning block 54 is connected in the positioning block sliding groove in a sliding manner; a positioning groove 191 for accommodating the third positioning block is formed at the lower end of the guide rail; the positioning groove is located below the third positioning block when the induction cooker slides below the water tank, namely, when the induction cooker slides below the water tank, the third positioning block slides downwards due to the action of gravity and is inserted into the positioning groove.

A water wheel 15 which is horizontally arranged is arranged on the side surface of the water outlet pipe; the water wheel is positioned in a cavity communicated with the water outlet pipe; the water outlet pipe is tangent to the water wheel, namely the water wheel is driven to rotate by water pressure when water in the water outlet pipe flows out; the lower end of the water wheel is horizontally provided with a synchronous belt component 6; the synchronous belt component comprises a first synchronous wheel 621 coaxially and fixedly connected with the water wheel, a second synchronous wheel 622 rotationally connected to the lower part of the heating box, and a synchronous belt 61 arranged on the first synchronous wheel and the second synchronous wheel; the synchronous belt is meshed with the first synchronous wheel and the second synchronous wheel; the synchronous belt is driven by the first synchronous wheel; in order to effectively mesh the synchronous belt, a pressing wheel is arranged on the outer side of the synchronous belt; the lower end of the synchronous belt is fixedly connected with a guide post 611; a guide rod 53 is formed on the side surface of the induction cooker main body below the synchronous belt; the guide rod is formed with a sliding groove 531 which is connected with the guide post in a sliding manner. The water wheel drives the first synchronous wheel to rotate, so that the synchronous belt is driven to rotate, and the induction cooker slides along the guide rail.

A cold water pipe 141 is fixedly connected between the water wheel and the heating box on the water outlet pipe; the tap water and the filtered drinking water in the normal temperature state are respectively communicated into a water outlet pipe through corresponding cold water pipes; a hot water electromagnetic valve 142 is arranged on the water outlet pipe and close to the heating box; a cold water electromagnetic valve 143 is arranged on the cold water pipe;

a vertically arranged pressure increasing pipe 16 is fixedly connected to the side surface of the lower part of the heating box corresponding to the positioning groove; a piston rod 71 is connected in the pressurizing pipe in a sliding manner; a connecting plate 72 facing the heating box is formed at the lower end of the piston rod; the connecting plate extends to the lower part of the guide rail; a driven positioning block 73 is formed on the connecting plate; the driven positioning block is inserted in the positioning groove; a third spring 74 is fixedly connected between the connecting plate and the guide rail of the corresponding positioning groove; in an initial state, the driven positioning block is flush with the lower bottom surface of the sliding plate, namely when the sliding plate slides in the guide rail, the third positioning block is always positioned in the guide rail and cannot slide into the positioning groove; the water outlet pipe is respectively communicated with the shower head and the pressure increasing pipe at the corresponding position through a three-way pipe. When the pressure in the pressure increasing pipe is increased, the piston rod slides downwards to enable the driven positioning block to move downwards, and when the sliding plate slides, the third positioning block passes through the positioning groove and then slides downwards to the positioning groove; when water flow in the water outlet pipe flows, the pressure in the corresponding pressure increasing pipe is increased, so that the piston rod and the driven positioning block move downwards, the third spring is stretched, and the induction cooker driven by the rotation of the water wheel is stopped below the water tank through the third positioning block in the sliding process; when the water flow in the water outlet pipe stops flowing, the third positioning block is jacked upwards and enters the guide rail again through the resetting of the third spring, and meanwhile, the second spring is reset to enable the induction cooker to return to the initial position.

The outlets of the air exhaust box and the air supply box at one end far away from the blower are respectively connected with a one-way valve 10; the other end of the check valve corresponding to the exhaust box is communicated with the gas pipe through a pipeline; the other end of the one-way valve corresponding to the air supply box is respectively communicated with the air outlet cavity and the air delivery pipe through pipelines; the one-way valve corresponding to the exhaust box is communicated in one way from the gas transmission pipe to the exhaust box; and the one-way valve corresponding to the air supply box is communicated with the air delivery pipe or the air outlet cavity in one way from the air supply box.

The outlet of the ozone generator is connected to a pipeline between the water outlet pipe of the water tank and the water pipe; the hot water electromagnetic valve, the cold water electromagnetic valve and the electromagnetic oven are electrically connected with a controller.

The water inlet pipeline of the water tank is provided with a safety valve; and a temperature sensor electrically connected with the controller is arranged in the water tank and the air supply tank.

When a user needs cold or normal-temperature water, the controller controls a cold water electromagnetic valve corresponding to the water tank to be opened, and then cold water is discharged through the water pipe; when a user needs to blow cold air, the controller controls the blower to rotate forwards and opens the corresponding electromagnetic valve, and then the air blowing assembly blows out the cold air.

When a user needs hot water, the controller controls the cold water electromagnetic valve to be opened, as the pressure in the water outlet pipe is increased, the piston rod and the driven positioning block move downwards, the water flow enables the water wheel to rotate to drive the electromagnetic oven to slide and be positioned below the water tank, the controller controls the electromagnetic oven to heat, when the temperature in the water tank reaches the temperature needed by the user, the electromagnetic oven is controlled to stop working, then the controller controls the cold water electromagnetic valve to be closed, meanwhile, the hot water electromagnetic valve is opened, then the water pipe hot water is obtained, after the user finishes using, the controller controls the hot water electromagnetic valve to be closed, and then the electromagnetic oven slides back to the initial position; a certain amount of cold water is consumed in the process, so that when a user needs to use hot water, the user can preferably use the hot water after needing the cold water; when the water tank and the air supply tank are heated, the heating can be realized by controlling the movement of the induction cooker without separately arranging one induction cooker or other heating equipment.

The exhaust box and the air supply box are vertically separated, so that air flow during exhaust is exhausted from the exhaust box, heat in the air supply box is prevented from being taken away during exhaust, and energy loss is reduced; the position of the induction cooker is positioned by controlling the water wheel and the synchronous belt component.

Example 4

As shown in fig. 17 to 19, this embodiment is modified from embodiment 3 as follows: the blower includes a cylindrical housing 21; a driving motor 22 is arranged outside the shell; an output shaft of the driving motor is concentric with the shell; two fans 23 are arranged on the output shaft of the driving motor and positioned in the shell; the two fans are cross-flow fans; a ratchet wheel 231 is formed in the middle of one side of each fan facing the driving motor; the directions of the two ratchet wheels are opposite; a ratchet chuck 27 matched with the ratchet is fixedly connected to an output shaft of the driving motor; a partition plate 213 parallel to the fan is fixedly connected in the housing; the partition plate is positioned between the two fans; a first air outlet 211 and a second air outlet 212 which are horizontally arranged and rectangular are formed at the bottom of the periphery of the shell; the width of the first air outlet is larger than that of the fan; the first air outlet is positioned at one end far away from the driving motor; the first air outlet is divided into an air outlet channel 214 and an air inlet channel 215 by the partition plate; the air outlet channel corresponds to a fan far away from the driving motor; the air outlet channel and the air inlet channel are equal in size; the orientation of the second air outlet is opposite to that of the first air outlet; the width of the second air outlet is the same as that of the fan close to the driving motor; an air inlet 216 is formed on one side of the shell far away from the driving motor. When the driving motor rotates forwards, the ratchet chuck drives the fan far away from the driving motor to rotate, and when the other fan is static, airflow enters through the air inlet and is discharged through the air outlet channel; when the driving motor rotates reversely, the fan close to the driving motor rotates, the other fan is static, and then airflow enters from the air inlet channel and is discharged out of the room from the second air outlet through the fan.

A rectangular rotary baffle 26 is rotatably connected in the first air outlet corresponding to the partition plate; the rotating baffle is vertically arranged; the rotary baffle is larger than the outer frame of the air outlet channel, and the rotary baffle is larger than the outer frame of the air inlet channel because the air inlet channel and the air outlet channel are equal in size; an incomplete worm gear 261 is fixedly connected to the upper end of the first air outlet through a rotating shaft of the rotating baffle; a worm 252 in meshed transmission connection with the incomplete worm wheel is mounted at the upper end of the first air outlet; the worm is arranged along the axial direction of the driving motor; an output shaft of the driving motor is positioned on the outer side of the shell and is fixedly connected with a driving gear 24; one end of the worm, which is positioned at the driving gear, is fixedly connected with a driven gear 251 which is in meshing transmission connection with the driving gear; and fourth springs 262 are respectively arranged at the two sides of the rotating baffle corresponding to the outer frame of the air outlet channel. When the driving motor rotates forwards, the driving gear drives the worm to rotate through the driven gear, the rotating baffle rotates to block the air inlet channel through incomplete worm wheel rotation, and then air flow generated by a fan far away from the driving motor cannot pass through the air inlet channel; when the driving motor rotates reversely, the driving gear drives the worm to rotate through the driven gear, the rotating baffle rotates to block the air outlet channel through incomplete worm wheel rotation, and air in the air outlet channel cannot flow in when a fan close to the driving motor generates negative pressure; when the rotary baffle blocks the air inlet channel, the worm is disengaged from the incomplete worm wheel, meanwhile, the fourth spring is extruded by the frame body of the air inlet channel to generate elastic potential energy, and when the driving motor stops rotating, the incomplete worm wheel is meshed with the worm again through the potential energy of the fourth spring for restoring deformation.

The first air outlet is respectively communicated with the air supply box and the exhaust box; the other ends of the air supply box and the air exhaust box are communicated with the air conveying pipe. When the driving motor rotates forwards, airflow enters through the air inlet, enters the heating box through the air outlet channel and is finally discharged through the air delivery pipe; when the driving motor rotates reversely, the air flow reversely enters the heating box through the air conveying pipe and is discharged from the second air outlet after passing through the air inlet channel.

The driving motor is electrically connected with the controller.

The negative pressure source in example 1 was replaced with a blower.

When the ozone concentration in the external environment of the shower screen main body is too high or peculiar smell is contained, the air blower is controlled by the controller to rotate reversely, so that the air in the external environment is discharged from the second air outlet.

The air-blower makes the delivery port department air-out of gondola water faucet or inhales through just reversing to reach the effect of stoving or removing the flavor.

Claims (3)

1. The utility model provides a wall-hanging shower screen is used in bathroom which characterized in that: the shower screen comprises a vertically arranged shower screen main body and a blowing assembly arranged at the front end of the shower screen main body;

an air outlet cavity is formed in one side of the shower screen main body in the vertical direction; a plurality of vertically arranged air outlet holes are formed in one side of the shower screen main body, which is positioned in the air outlet cavity, at equal intervals;

the blowing assembly comprises a barrel body which is horizontally arranged; the inner walls of the two ends of the barrel are respectively and fixedly connected with a first air blowing port and a second air blowing port; the outer wall of the barrel at one end of the first air blowing opening is fixedly connected with a ventilation pipe communicated with the air outlet hole; a plurality of first connecting holes are formed in the side wall of one end, connected with the barrel, of the ventilating pipe at equal intervals along the circumferential direction; the first communication hole is communicated with the first air blowing opening;

the middle part of the ventilation pipe is fixedly connected with a ventilation branch pipe communicated with the ventilation pipe; the end part of the ventilation branch pipe is closed and faces the barrel; a plurality of second communication holes are formed in the side wall of the end part of the ventilation branch pipe at equal intervals along the circumferential direction; an air flow channel communicated with the second air blowing port is horizontally arranged in the cylinder; the second communication hole communicates with the airflow passage;

the inner wall of one end of the ventilation pipe close to the barrel body and the inner wall of the ventilation branch pipe are respectively connected with a sliding barrel in a sliding manner; the sliding cylinder comprises an annular cylinder with two through ends and an annular magnet fixedly connected to one end of the annular cylinder;

the peripheries of the ventilation pipe and the ventilation branch pipe are respectively connected with a sliding ring which is attracted with the annular magnet in a sliding way; the upper end and the lower end of the sliding ring are respectively and fixedly connected with a vertically arranged column head; the upper end and the lower end of the ventilation pipe are respectively provided with an upper rotating rod and a lower rotating rod; an upper sliding groove and a lower sliding groove which are connected with the column head in a sliding manner are respectively formed on the upper rotating rod and the lower rotating rod;

one end of the ventilation pipe, which is positioned at the air outlet, is fixedly connected with a ventilation cover; the length of the ventilation cover is greater than the sum of the distance between every two adjacent air outlet holes and the diameter of the air outlet holes; a wind shielding magnet for preventing air flow from flowing out of the air outlet is arranged at each air outlet; one end of the wind shielding magnet is fixedly connected with a first spring; the other end of the first spring is fixedly connected to the side wall in the air outlet cavity; a repulsion magnet is fixedly connected to the position, close to the air outlet, of the ventilation cover; the length of the repulsion magnet is greater than the distance between two adjacent air outlet holes; a through hole for air flow to pass through is formed in the middle of the repulsive force magnet; the repulsive force magnet and the wind shielding magnet repel each other;

the upper rotating rod is positioned at one end far away from the ventilation branch pipe and is fixedly connected with a first magnetic block; a first positioning block is fixedly connected to the cylinder body corresponding to the first magnetic block; one end of the lower rotating rod, which is positioned on the ventilation branch pipe, is fixedly connected with a second magnetic block; a second positioning block is fixedly connected to the outer wall of the ventilation cover corresponding to the second magnetic block;

a first upright post is fixedly connected to one end, located at the first magnetic block, of the upper rotating rod; the lower end of the lower rotating rod is positioned at one end of the second magnetic block and is fixedly connected with a second upright post; a first inclined block used for abutting against the first upright post is arranged above the side surface of the shower screen main body corresponding to the first upright post; a second inclined block used for abutting against the second upright post is arranged below the side surface of the shower screen main body corresponding to the second upright post;

a rotating shaft is rotationally connected in the cylinder body; the rotating shaft is positioned between the first air blowing opening and the second air blowing opening and is fixedly connected with a plurality of windward blades; the rotating shaft penetrates through the outer side of the cylinder body to form a climbing gear; a rack in meshing transmission connection with the climbing gear is formed on one side, located on the climbing gear, of the shower screen main body; a horizontal air outlet is formed in one side, back to the shower screen main body, of the cylinder body;

the air outlet cavity is communicated with a fan for providing wind power through a pipeline;

a controller is arranged in the shower screen main body; a heater is connected between the fan and the air outlet cavity; the fan and the heater are electrically connected with the controller.

2. A wall-mounted shower screen for a bathroom according to claim 1, wherein: a shower head is also arranged on the side surface of the shower screen main body; the lower end of the shower head is provided with a connecting pipe; a water pipe for conveying water and a gas pipe for conveying gas are arranged in the connecting pipe; a spiral sheet is formed in the air conveying pipe; a water diversion groove arranged along the spiral sheet is formed in the upper end of the air delivery pipe at the joint of the spiral sheet and the air delivery pipe; a water collecting groove arranged along the length direction of the gas transmission pipe is formed on one side of the gas transmission pipe away from the water pipe; a plurality of water outlets communicated with the water collecting tank are formed on the outer side of the connecting pipe at equal intervals corresponding to the water collecting tank;

the lower end of the gas pipe is connected with a negative pressure source through a pipeline; the lower end of the gas transmission pipe is also communicated with the fan; the lower end of the water pipe is connected with an ozone generator through a pipeline; an air suction hole communicated with the air delivery pipe is formed at the outlet of the shower head;

each pipeline communicated with the gas pipe, the water pipe and the air outlet cavity is provided with an electromagnetic valve; the negative pressure source, the ozone generator and the electromagnetic valves are electrically connected with a controller.

3. A wall-mounted shower screen for a bathroom according to claim 1, wherein: the sliding ring is made of magnet or iron; the first positioning block and the second positioning block are made of soft magnetic materials.

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