CN114469712A - Nose syringe with spraying function - Google Patents

Abstract

The invention relates to a nose washer, in particular to a nose washer with a spraying function. The nose washing device with the spraying function needs to be designed, wherein warm water can be sprayed out after being atomized and then directly sprayed out to remove dirt in the nose. The utility model provides a nasal irrigator with spraying function, includes L type casing, first hard tube and hose etc. and L type casing left part is fixed to be worn to connect has the hose, and hose right-hand member intercommunication has first hard tube. The guide mechanism is moved into the nose, the driving mechanism is continuously pressed to operate to discharge air into the placing barrel to increase the air pressure, warm water in the placing barrel is discharged into the hose, the warm water is atomized by the atomizing head, the atomized warm water is sprayed out through the guide mechanism to soften dirt in the nose, the atomizing head is taken down and replaced into a hollow block, the warm water is directly sprayed out through the guide mechanism to remove the dirt in the nose, and therefore the warm water can be atomized and sprayed into the nose to soften the dirt, and then the warm water is directly sprayed out to remove the dirt.

Description

Nose syringe with spraying function

Technical Field

The invention relates to a nose washer, in particular to a nose washer with a spraying function.

Background

In daily life, people need to use the nose during breathing, dirt exists in the nose along with continuous breathing of the nose, and in order to prevent the dirt from blocking the nose and avoid the dirt from causing the pollution in the nose, the dirt in the nose needs to be regularly removed.

Chinese patent application No. CN202121657971.5 discloses a small electric nose syringe, which comprises: the nose washing device comprises a front L-shaped shell, a rear L-shaped shell and a front cover, wherein the front L-shaped shell is positioned on the outermost side of the nose washing device, the inner side of the front L-shaped shell is fixedly connected with the rear L-shaped shell, and the inner sides of the front L-shaped shell and the rear L-shaped shell are respectively provided with embedding grooves with different shapes and structures; simultaneously, the inside of the embedding groove is respectively provided with a water pump positioned at the bottom of the inner side of the front L-shaped shell, a button positioned at the inner side of the top of the front L-shaped shell, and an intelligent operation control panel connected with the button and positioned above the water pump. This small-size electronic nose ware of washing, small, the gripping of being convenient for, portable simultaneously, it is simple swift, can guarantee simultaneously that each is sealed, can guarantee long-time stable use, the pressure size, the height of water level is adjustable, simple structure, noiselessness, no electromagnetic wave interference, can use under dry battery or the rechargeable battery state, although above-mentioned patent can clear away the dirt in the nose, nevertheless can not spout the warm water atomizing earlier and soften the dirt in the nose, clear away the dirt in the nose again.

The invention aims to solve the problems in the patent, and provides a nose washing device with a spraying function, which can atomize warm water and spray the atomized warm water, and then directly spray the warm water to remove dirt in the nose.

Disclosure of Invention

In order to overcome the defects that warm water can not be atomized and sprayed into the nose to soften the dirt and then remove the dirt in the nose although the dirt in the nose can be removed in the patent, the invention provides the nose washing device with the spraying function, which can atomize the warm water and spray the atomized warm water, and then directly spray the warm water to remove the dirt in the nose.

The invention is realized by the following technical approaches:

a nose washing device with spraying function comprises an L-shaped shell, a rubber tube, a placing barrel, sliding blocks, an elastic part, a first hard tube, a second hard tube, a hose, an atomizing head, a driving mechanism and a guiding mechanism, wherein the hose is fixedly connected to the left part of the L-shaped shell in a penetrating manner, the right end of the hose is communicated with the first hard tube, the first hard tube is positioned in the L-shaped shell, the bottom end of the L-shaped shell is rotatably connected with the placing barrel for placing warm water through threads, the bottom end of the hose is positioned in the placing barrel, the first hard tube is slidably connected to the middle part of the right side of the L-shaped shell in a penetrating manner, the atomizing head for atomizing the warm water is clamped between the left end of the first hard tube and the right end of the second hard tube, two sliding blocks are slidably connected to the right sides of the upper parts of the front and back sides of the L-shaped shell in a penetrating manner, the inner ends of the two sliding blocks on the left side are respectively fixedly connected with the front and back side surfaces of the outside of the second hard tube, the two sliding blocks on the right side are respectively fixedly connected with the front and back side surfaces of the outside of the first hard tube, the outer side faces of the left and right side sliding blocks and the inner side of the L-shaped shell are fixedly connected with elastic pieces, the rubber pipe is sleeved on the outer right side of the first hard pipe along the circumferential direction, a guide mechanism for spraying atomized warm water is installed at the right end of the second hard pipe, the guide mechanism is located in the rubber pipe, and a driving mechanism for discharging air into the placing barrel is installed on the lower portion of the L-shaped shell.

The left end of the piston rod is connected with the inner side of the cylinder body in a sliding mode, the middle of the upper portion of the right side of the cylinder body is communicated with the one-way air inlet pipe, the right end of the piston rod is connected with the rotating block in a rotating mode, the left side face of the rotating block is connected with the first spring in a rotating mode, the first spring is sleeved on the piston rod, and the tail end of the first spring is fixedly connected with the outer right side face of the cylinder body.

Further, the guide mechanism comprises a spray pipe, a spray head and a clamping ring, the clamping ring is fixedly connected to the right end of the first hard pipe, the spray pipe is clamped on the clamping ring along the circumferential direction, the spray pipe is located in the rubber pipe, and the spray head used for spraying atomized warm water is installed at the right end of the spray pipe.

Further explain, still including being used for carrying out the switching mechanism that switches over warm water atomizing or direct spun mode, the switching mechanism is including the slide bar, circular shell, the sleeve pipe, fixed cover and porous head, the outer right side of second hard tube has fixed cover along circumference rigid coupling, the fixed cover lower part is fixed to be worn to connect the slide bar, the cover of pivoted formula on the slide bar is equipped with the sleeve pipe that is used for driving the corotation of atomizing head, the outer top of sleeve pipe and atomizing head bottom fixed connection, the rigid coupling has circular shell between the outer left and right sides of sleeve pipe, first hard tube left end runs through circular shell right side upper portion, the second hard tube right-hand member runs through circular shell left side upper portion, the symmetrical rigid coupling has the porous head that is used for discharging the warm water into in the first hard tube around the sleeve pipe bottom, the hole quantity of two porous heads is inconsistent.

Further explaining, the device also comprises a trigger mechanism for driving the first hard tube and the second hard tube to move, the trigger mechanism comprises a circular ring, a trigger ring and a fixing ring, l template, contact roller, fixed block and second spring, first hard tube outer left side and second hard tube middle part all the rigid coupling have solid fixed ring, the rigid coupling has the L template in the middle of the outer top of solid fixed ring, the L template runs through L shell top, the top right side in the L template in left side and the right side L template all the rotary type be connected with four contact rollers on the left side, per two contact rollers are a set of, the outer middle part of round shell is along being connected with the ring of circumference rotary type, the rigid coupling has the trigger ring that is used for driving the inside and outside removal of contact roller between the three-terminal of ring left side and between the three-terminal of right side, the left and right sides trigger ring is located respectively between four contact rollers of the left and right sides, the outer trailing flank upper portion bilateral symmetry rigid coupling of round shell has the fixed block, be connected with the second spring between fixed block bottom and the ring rear portion inboard.

Further, the device comprises a clamping block, a clamping rod and a pulling block, wherein the clamping block is fixedly connected to the right part of the front side of the outer top of the placing cylinder, the clamping rod used for fixing the placing cylinder is slidably connected to the left side of the front part of the L-shaped shell in a penetrating mode, the bottom end of the clamping rod is located in the clamping block, and the pulling block is fixedly connected to the top end of the clamping rod.

Further explaining, the device also comprises a T-shaped rod, a limiting block and a third spring, wherein the limiting block which has a limiting effect is connected in a vertically symmetrical sliding mode at the left part of the piston rod in a penetrating mode, the third spring is symmetrically connected between the inner side faces of the limiting blocks at the upper side and the lower side in a front-back mode, the T-shaped rod which is used for driving the limiting block to move outwards is fixedly connected to the middle of the left side face of the rotating block, and the left part of the T-shaped rod is located between the limiting blocks at the upper side and the lower side.

Further, the circumferential direction of the placing cylinder is wavy.

The invention has the remarkable advantages that:

1. move guiding mechanism to the nose in, the continuous drive mechanism that presses operates and puts a section of thick bamboo with the air escape and make the atmospheric pressure increase in placing a section of thick bamboo, place the warm water of a section of thick bamboo and discharge into the hose, the warm water is atomized by the atomising head, the warm water after the atomizing passes through the guiding mechanism blowout and softens the dirt in with the nose, take off the atomising head again and change into hollow block, the warm water is then direct clears away the dirt in the nose through the guiding mechanism blowout, so, can spray into the nose behind the warm water atomization and soften the dirt, directly clear away the dirt with the warm water blowout again.

2. Under switching mechanism's effect, the dirt in the nose is softened the back, switches porous head to correspond with first hard tube and second hard tube, and the warm water is then directly spout into first hard tube through porous head, and the warm water is just also clear away the dirt in spouting the nose through the shower nozzle, so, more makes things convenient for operating personnel to switch atomizing warm water and direct spun warm water.

3. Under trigger mechanism's effect, can drive first hard tube and the outside removal of second hard tube, and can also drive first hard tube and the inside removal of second hard tube and reset, so, need not operating personnel pulling slider and drive first hard tube and the outside removal of second hard tube and round shell and break away from convenient and fast.

Drawings

Fig. 1 is a schematic perspective view of a first embodiment of the present invention.

FIG. 2 is a first partial cross-sectional structural schematic of the present invention.

Fig. 3 is a schematic perspective view of a second embodiment of the present invention.

Fig. 4 is an enlarged schematic view of part a of the present invention.

FIG. 5 is a second partial sectional structural view of the present invention.

Fig. 6 is an enlarged view of part B of the present invention.

Fig. 7 is a third partial sectional structural schematic of the present invention.

Part names and serial numbers in the figure: 1_ L-shaped shell, 2_ rubber tube, 3_ placing cylinder, 4_ slider, 41_ elastic element, 5_ first hard tube, 6_ second hard tube, 7_ soft tube, 8_ atomizing head, 9_ driving mechanism, 91_ cylinder, 92_ piston rod, 93_ rotary block, 94_ first spring, 95_ cavity, 96_ one-way air inlet tube, 10_ guiding mechanism, 101_ spray tube, 102_ spray head, 103_ snap ring, 11_ switching mechanism, 111_ slide rod, 112_ circular shell, 113_ sleeve, 114_ fixed sleeve, 115_ porous head, 12_ trigger mechanism, 121_ circular ring, 122_ trigger ring, 123_ fixed ring, 124_ L-shaped plate, 125_ contact roller, 126_ fixed block, 127_ second spring, 13_ snap block, 14_ snap rod, 15_ pull block, 16_ T-shaped rod, 17_ limited block, and 18_ third spring.

Detailed Description

The invention is further explained by combining the drawings in the specification and the embodiments of the invention are given by combining the drawings in the specification.

Example 1

A nasal irrigator with a spraying function comprises an L-shaped shell 1, a rubber tube 2, a placing barrel 3, a sliding block 4, an elastic part 41, a first hard tube 5, a second hard tube 6, a hose 7, an atomizing head 8, a driving mechanism 9 and a guiding mechanism 10, please refer to figures 1, 2, 3, 5 and 7, wherein the left part of the L-shaped shell 1 is fixedly connected with the hose 7 in a penetrating way, the right end of the hose 7 is communicated with the first hard tube 5, the first hard tube 5 is positioned in the L-shaped shell 1, the bottom end of the L-shaped shell 1 is rotatably connected with the placing barrel 3 through threads, an operator can pour warm water into the placing barrel 3, the circumferential direction of the placing barrel 3 is wavy, the bottom end of the hose 7 is positioned in the placing barrel 3, the middle part of the right side of the L-shaped shell 1 is slidably connected with the first hard tube 5 in a penetrating way, the atomizing head 8 is clamped between the left end of the first hard tube 5 and the right end of the second hard tube 6, when the warm water is discharged into the atomizing head 8, the atomizing head 8 can atomize warm water, the right sides of the upper parts of the front side and the rear side of the L-shaped shell 1 are slidably connected with two sliding blocks 4 in a penetrating way, the inner ends of the two sliding blocks 4 on the left side are respectively installed with the front side and the rear side outside the second hard tube 6 in a welding connection way, the inner ends of the two sliding blocks 4 on the right side are respectively installed with the front side and the rear side outside the first hard tube 5 in a welding connection way, the elastic parts 41 are installed between the outer sides of the sliding blocks 4 on the left side and the right side and the inner side of the L-shaped shell 1 in a welding connection way, the rubber tube 2 is sleeved on the outer right side of the first hard tube 5 along the circumferential direction, the right end of the second hard tube 6 is provided with the guide mechanism 10, the guide mechanism 10 is positioned in the rubber tube 2, the guide mechanism 10 can spray the atomized warm water, the lower part of the L-shaped shell 1 is provided with the driving mechanism 9, when the operator continuously presses the driving mechanism 9, the driving mechanism 9 can discharge air into the placing cylinder 3.

The driving mechanism 9 includes a cylinder 91, a piston rod 92, a rotary block 93, a first spring 94 and a one-way air inlet pipe 96, please refer to fig. 1, fig. 2 and fig. 5, the right side of the lower portion of the L-shaped housing 1 is opened with a cavity 95, the cavity 95 is communicated with the inside of the placing cylinder 3, the cylinder 91 is installed in the middle of the left side surface of the L-shaped housing 1 in an embedded manner by welding connection, the piston rod 92 is slidably connected in the middle of the right side of the cylinder 91, the left end of the piston rod 92 is slidably connected with the inside of the cylinder 91, when the piston rod 92 moves left and right, the piston rod 92 can discharge air into the cavity 95, the one-way air inlet pipe 96 is communicated in the middle of the upper portion of the right side of the cylinder 91, the rotary block 93 is rotatably connected to the right end of the piston rod 92, when an operator pushes the rotary block 93 to move left, the rotary block 93 can drive the piston rod 92 to move left, the first spring 94 is rotatably connected to the left side surface of the rotary block 93, the first spring 94 is sleeved on the piston rod 92, and the tail end of the first spring 94 is installed with the outer right side surface of the cylinder 91 in a welding connection mode.

The guide mechanism 10 includes a nozzle 101, a nozzle 102 and a snap ring 103, as shown in fig. 2, fig. 3 and fig. 5, the snap ring 103 is installed at the right end of the first hard pipe 5 by welding, the nozzle 101 is clamped on the snap ring 103 along the circumferential direction, the nozzle 101 is located in the rubber pipe 2, the nozzle 102 is installed at the right end of the nozzle 101, and when the atomized warm water is discharged into the nozzle 102, the nozzle 102 can spray the atomized warm water.

Firstly, an operator twists a placing barrel 3 to rotate reversely, the placing barrel 3 moves downwards through a thread due to the fact that the circumference of the placing barrel 3 is wavy, the operator can conveniently twist, the placing barrel 3 rotates reversely, the placing barrel 3 moves downwards to be separated from contact with an L-shaped shell 1, warm water is poured into the placing barrel 3, when a proper amount of warm water is filled in the placing barrel 3, the placing barrel 3 is moved to be in contact with the bottom end of the L-shaped shell 1, the placing barrel 3 rotates forwards and moves upwards through the thread, a hose 7 is in contact with the warm water, the operator holds the placing barrel 3 with hands, takes off a rubber pipe 2 from a guide mechanism 10, then moves the placing barrel 3 to drive the L-shaped shell 1 to move, the L-shaped shell 1 moves to drive the guide mechanism 10 to move, the guide mechanism 10 moves into a nose, then continuously presses a driving mechanism 9, the driving mechanism 9 operates to discharge air into the placing barrel 3, the air pressure in the placing barrel 3 is increased, as the air pressure is continuously increased, warm water in the placing barrel 3 can be discharged into the hose 7, warm water in the hose 7 is discharged into the second hard tube 6, warm water in the second hard tube 6 is discharged into the atomizing head 8, the atomizing head 8 atomizes the warm water and then discharges the atomized warm water into the first hard tube 5, the atomized warm water in the first hard tube 5 is discharged into the guide mechanism 10, the atomized warm water in the guide mechanism 10 is sprayed into the nose, the nose is firstly sprayed with moisture, so that pollution in the nose is softened by the atomized warm water, when the nose is sprayed with a proper amount of atomized warm water, the driving mechanism 9 is stopped being pressed, the warm water in the placing barrel 3 stops being discharged into the hose 7, the guide mechanism 10 stops spraying the atomized warm water, the sliding block 4 is pulled to move outwards, the elastic piece 41 is compressed, the sliding block 4 on the left side moves outwards to drive the second hard tube 6 to move outwards, and the second hard tube 6 moves outwards to be separated from the atomizing head 8, meanwhile, the right slide block 4 moves outwards to drive the first hard tube 5 to move outwards, the first hard tube 5 moves outwards and also is separated from the atomizing head 8, the atomizing head 8 falls down, an operator connects the atomizing head 8 by hand, then moves a hollow block between the first hard tube 5 and the second hard tube 6, the slide block 4 is loosened, the slide block 4 moves inwards to drive the first hard tube 5 and the second hard tube 6 to move inwards to reset under the action of the elastic part 41, the first hard tube 5 and the second hard tube 6 move inwards to reset to be in contact with the hollow block, the first hard tube 5 and the second hard tube 6 clamp the hollow block, the driving mechanism 9 is pressed again, warm water is continuously discharged into the hose 7, warm water in the hose 7 is discharged into the hollow block through the second hard tube 6, warm water in the hollow block is discharged into the first hard tube 5, warm water in the first hard tube 5 is discharged into the guide mechanism 10, the guide mechanism 10 sprays the warm water to clean the interior of the nose, after dirt in the nose is completely removed, the driving mechanism 9 stops being pressed, the driving mechanism 9 stops discharging air into the placing barrel 3, warm water in the placing barrel 3 stops being discharged into the hose 7, the guide mechanism 10 stops spraying the warm water, the sliding block 4 is pulled to move outwards again to drive the first hard tube 5 and the second hard tube 6 to move outwards, the first hard tube 5 and the second hard tube 6 move outwards to separate the hollow block from contact, the hollow block falls down, an operator contacts the falling hollow block, the atomizing head 8 is moved to a position between the first hard tube 5 and the second hard tube 6, the sliding block 4 is loosened to reset, the sliding block 4 drives the first hard tube 5 and the second hard tube 6 to move inwards to reset the atomizing head 8, the placing barrel 3 is moved again to drive the L-shaped shell 1 to move, the guide mechanism 10 is separated from the nose, the rubber tube 2 is sleeved back on the first hard tube 5, and the guide mechanism 10 is covered by the rubber tube 2.

When the guiding mechanism 10 moves into the nose, the rotating block 93 is pressed to move leftwards, the first spring 94 is compressed, the rotating block 93 moves leftwards to drive the piston rod 92 to move leftwards, the piston rod 92 moves leftwards to draw air into the cylinder body 91 through the one-way air inlet pipe 96, meanwhile, the piston rod 92 moves leftwards to push the air in the cylinder body 91 into the cavity 95, the air in the cavity 95 is discharged into the placing barrel 3 to pressurize the placing barrel 3, warm water in the placing barrel 3 is discharged into the hose 7 due to the pressure, so that the guiding mechanism 10 sprays atomized warm water into the nose to soften dirt, then the rotating block 93 is loosened, the rotating block 93 moves rightwards to reset the piston rod 92 due to the rightwards movement of the first spring 94, and the rotating block 93 is repeatedly pressed to drive the piston rod 92 to move leftwards, so that the placing barrel 3 can be pressurized continuously, when dirt in the nose is softened, the rotating block 93 stops being pressed to drive the piston rod 92 to move, air stops being discharged into the placing barrel 3, warm water stops being discharged into the hose 7, the atomizing head 8 falls off, and an operator moves the hollow block to be tightly clamped with the first hard tube 5 and the second hard tube 6 in a contact mode, presses the rotating block 93 again to drive the piston rod 92 to move leftwards, the guide mechanism 10 sprays warm water to clean the interior of the nose, and after the interior of the nose is cleaned, the rotating block 93 stops being pressed.

When an operator takes the rubber pipe 2 off the first hard pipe 5, the rubber pipe 2 does not cover the spray pipe 101 and the spray head 102, the placing barrel 3 is held to move, the placing barrel 3 moves to drive the L-shaped shell 1 to move, the L-shaped shell 1 moves to drive the first hard pipe 5 to move, the first hard pipe 5 moves to drive the snap ring 103 to move, the snap ring 103 moves to drive the spray pipe 101 to move, the spray pipe 101 moves to drive the spray head 102 to move, the placing barrel 3 stops moving when the spray head 102 moves into the nose, further, when the operator presses the rotating block 93, when the atomized warm water is discharged into the first hard pipe 5, the atomized warm water is discharged into the spray pipe 101, the atomized warm water in the spray pipe 101 is discharged into the spray head 102, the atomized warm water in the spray pipe 102 is sprayed into the nose to soften dirt, when the dirt in the nose is softened, the rotating block 93 stops being pressed, the atomized warm water stops being discharged into the first hard pipe 5, the spray nozzle 102 stops spraying the atomized warm water, meanwhile, when the atomizing head 8 is replaced by a hollow block, an operator presses the rotating block 93, the warm water is discharged into the first hard pipe 5, the warm water in the first hard pipe 5 is discharged into the spray pipe 101, the warm water in the spray pipe 101 is discharged into the spray nozzle 102, the spray nozzle 102 sprays the warm water to remove dirt inside the nose, after the dirt inside the nose is completely removed, the press of the rotating block 93 is stopped, the warm water stops being discharged into the first hard pipe 5, the spray nozzle 102 stops spraying the warm water, the spray pipe 101 is taken down from the snap ring 103, the inside of the spray pipe 101 is cleaned, after the spray pipe 101 is cleaned, the spray pipe 101 is clamped back to the snap ring 103, the rubber pipe 2 is sleeved back to the right side of the first hard pipe 5, and the spray pipe 101 and the spray nozzle 102 are covered by the rubber pipe 2.

Example 2

On the basis of embodiment 1, the device further comprises a switching mechanism 11, the switching mechanism 11 includes a sliding rod 111, a circular shell 112, a sleeve 113, a fixing sleeve 114 and a porous head 115, please refer to fig. 1, fig. 2 and fig. 5, the fixing sleeve 114 is installed on the outer right side of the second hard tube 6 along the circumferential direction in a welding connection manner, the sliding rod 111 is fixedly penetrated and connected to the lower portion of the fixing sleeve 114, the sleeve 113 is rotatably sleeved on the sliding rod 111, the outer top of the sleeve 113 is fixedly connected to the bottom of the atomizing head 8, when the sleeve 113 rotates forward, the sleeve 113 can drive the atomizing head 8 to rotate forward, the circular shell 112 is installed between the outer left side and the outer right side of the sleeve 113 in a welding connection manner, the left end of the first hard tube 5 penetrates through the upper portion of the right side of the circular shell 112, the right end of the second hard tube 6 penetrates through the upper portion of the left side of the circular shell 112, the porous heads 115 are installed on the bottom of the sleeve 113 in a front-to-back symmetry manner in a welding connection manner, the number of the two porous heads 115 is not consistent, when warm water is discharged into the porous head 115, the porous head 115 may effect the discharge of warm water into the first rigid tube 5.

The trigger mechanism 12 further comprises a trigger mechanism 12, the trigger mechanism 12 comprises a circular ring 121, a trigger ring 122, a fixing ring 123, an L-shaped plate 124, contact rollers 125, a fixing block 126 and a second spring 127, please refer to fig. 1-4, the fixing ring 123 is installed at the middle part of the second hard tube 6 and the left side outside the first hard tube 5 in a welding connection manner, the L-shaped plate 124 is installed at the middle part of the outer top part of the fixing ring 123 in a welding connection manner, the L-shaped plate 124 penetrates through the top part of the L-shaped shell 1, four contact rollers 125 are rotatably connected at the right side of the top part inside the L-shaped plate 124 and the left side of the top part inside the L-shaped plate 124 at the right side, every two contact rollers 125 form a group, the circular ring 121 is rotatably connected at the outer middle part of the circular shell 112 along the circumferential direction, the trigger ring 122 is installed between the three ends at the left side of the circular ring 121 and the three ends at the right side in a welding connection manner, the trigger rings 122 at the left side and the right side are respectively located between the four contact rollers 125 at the left side and the right side, when the trigger ring 122 rotates forward, the trigger ring 122 can drive the contact roller 125 to move inward and outward, the upper portion of the rear side of the circular shell 112 is fixed with the fixing blocks 126 in a bilateral symmetry manner, and a second spring 127 is connected between the bottom of the fixing block 126 and the inner side of the rear portion of the circular ring 121.

When the dirt in the nose is softened, the sliding block 4 is pulled to move outwards to drive the first hard tube 5 and the second hard tube 6 to move outwards, the first hard tube 5 and the second hard tube 6 move outwards to be separated from the contact with the circular shell 112, the circular shell 112 is pushed to rotate forwards, the circular shell 112 rotates forwards to drive the sleeve 113 to rotate forwards, the sleeve 113 rotates forwards to drive the atomizing head 8 and the porous head 115 to rotate forwards, when the porous head 115 rotates forwards to a position between the first hard tube 5 and the second hard tube 6, the pushing of the circular shell 112 is stopped, the circular shell 112 stops driving the sleeve 113 to rotate forwards, the sleeve 113 stops driving the porous head 115 and the atomizing head 8 to rotate forwards, the sliding block 4 is released to reset, the first hard tube 5 and the second hard tube 6 move inwards to reset to be in contact with the porous head 115, when warm water is discharged into the second hard tube 6, the warm water in the second hard tube 6 is discharged into the porous head 115, the warm water in the porous head 115 is discharged into the first hard tube 5, and the spray head 102 sprays warm water into the nose to remove the dirt, when another porous head 115 needs to be replaced, the other porous head 115 can correspond to the first hard tube 5 and the second hard tube 6 according to the operation, the first hard tube 5 and the second hard tube 6 clamp the porous head 115 tightly, after dirt in the nose is cleaned up, the sliding block 4 is pulled again to drive the first hard tube 5 and the second hard tube 6 to move outwards to be separated from the contact with the porous head 115, the circular shell 112 is pulled to reset in a reverse mode, the circular shell 112 resets in a reverse mode and drives the porous head 115 and the atomizing head 8 to reset in a reverse mode through the sleeve 113, the atomizing head 8 resets in a reverse mode and corresponds to the first hard tube 5 and the second hard tube 6, the circular shell 112 stops being pulled, the sliding block 4 is loosened, and the first hard tube 5 and the second hard tube 6 move inwards to reset to be in contact with the atomizing head 8. Therefore, the atomized warm water and the directly sprayed warm water can be switched by an operator more conveniently.

When the dirt in the nose is softened, the circular ring 121 is pushed to rotate forwards, the second spring 127 is stretched, the circular ring 121 rotates forwards to drive the trigger ring 122 to rotate forwards, the trigger ring 122 rotates forwards to drive the contact roller 125 to move outwards, the contact roller 125 moves outwards to drive the L-shaped plate 124 to move outwards, the L-shaped plate 124 moves outwards to drive the fixing ring 123 to move outwards, the left fixing ring 123 moves outwards to drive the second hard pipe 6 to move outwards, the right fixing ring 123 moves outwards to drive the first hard pipe 5 to move outwards, when the first hard pipe 5 and the second hard pipe 6 move outwards and are separated from contact with the circular shell 112, the circular shell 112 is pinched, the circular ring 121 is released, the circular ring 121 rotates reversely for a certain distance under the action of the second spring 127 to reset, the trigger ring 122 rotates reversely for a certain distance, the circular shell 112 is pushed, the circular shell 112 rotates forwards to drive the fixing block 126, the fixing block 126 drives the circular ring 121 to rotate forwards through the second spring 127, the circular ring 121 positively rotates to drive the trigger ring 122 positively rotates, the trigger ring 122 positively rotates to continuously drive the contact roller 125 to move outwards, the trigger ring 122 positively rotates to make the convex part separate from the contact roller 125, the trigger ring 122 positively rotates to drive the contact roller 125 to move inwards, the contact roller 125 moves inwards to drive the L-shaped plate 124 to move inwards, the L-shaped plate 124 moves inwards to drive the fixing ring 123 to move inwards, the fixing ring 123 moves inwards to drive the first hard pipe 5 and the second hard pipe 6 to move inwards, the porous head 115 positively rotates to correspond to the first hard pipe 5 and the second hard pipe 6, the first hard pipe 5 and the second hard pipe 6 also move inwards to reset to contact the porous head 115, the pushing of the circular shell 112 positively rotates is stopped, and when the next porous head 115 or the atomizing head 8 needs to be replaced, the replacement can be performed according to the operation. Therefore, the operator does not need to pull the sliding block 4 to drive the first hard tube 5 and the second hard tube 6 to move outwards to be separated from the circular shell 112, and the operation is convenient and fast.

Example 3

On the basis of embodiment 1 and embodiment 2, still include fixture block 13, kelly 14 and pull block 15, please refer to fig. 1, place a 3 outer top front side right part and install fixture block 13 through welded connection, the anterior left side slidable of L type casing 1 is worn to connect fixture block 14, the bottom of kelly 14 is located fixture block 13, kelly 14 can realize will placing a 3 fixed, the pull block 15 is installed through welded connection's mode in the top of kelly 14, when operating personnel pulled pull block 15 and move up, pull block 15 can realize driving kelly 14 and move up.

Still include T type pole 16, stopper 17 and third spring 18, please refer to fig. 5 and fig. 6, the wearing of piston rod 92 left part symmetry upper and lower slidingtype is limited stopper 17, when stopper 17 outwards moves and contacts with cylinder body 91, stopper 17 can realize spacing piston rod 92, symmetrical connection has third spring 18 around between the stopper 17 medial surface of upper and lower both sides, T type pole 16 is installed through welded connection's mode in rotatory piece 93 left side middle part, T type pole 16 left part is located between upper and lower both sides stopper 17, when T type pole 16 rotates ninety degrees, T type pole 16 can realize driving stopper 17 outwards to move.

Firstly, an operator pulls the pull block 15 to move upwards, the pull block 15 moves upwards to drive the clamping rod 14 to move upwards, when the clamping rod 14 moves upwards to be separated from the clamping block 13, the pull block 15 is stopped to be pulled to drive the clamping rod 14 to move upwards, then the placing cylinder 3 is twisted to rotate reversely and move downwards through the threads, the placing cylinder 3 rotates reversely and also drives the clamping block 13 to rotate reversely, when the placing cylinder 3 is separated from the L-shaped shell 1, a proper amount of warm water can be poured into the placing cylinder 3, then the placing cylinder 3 is moved to be contacted with the bottom end of the L-shaped shell 1, the placing cylinder 3 rotates forwards and resets through the threads, the placing cylinder 3 drives the clamping block 13 to rotate forwards and reset, then the wax block is pushed to move downwards to drive the clamping rod 14 to move downwards to be inserted into the clamping block 13, and the clamping rod 14 limits the placing cylinder 3 through the clamping block 13. Therefore, the phenomenon that people touch the placing barrel 3 by mistake and rotate to be separated from the L-shaped shell 1 can be avoided.

When need not to use this device, wrench movement rotatory piece 93 drives T type pole 16 and rotates ninety degrees, and T type pole 16 rotates ninety degrees and drives stopper 17 and outwards move, and third spring 18 is stretched, and stopper 17 outwards moves and contacts with cylinder body 91, stops wrench movement rotatory piece 93 and drives T type pole 16 and rotate, and stopper 17 then carries on spacingly through cylinder body 91 to piston rod 92. When needs use this device, wrench movement rotatory piece 93 rotates ninety degrees and resets, rotatory piece 93 rotates and resets and drives T type pole 16 and rotate ninety degrees and reset, and T type pole 16 rotates ninety degrees and resets and does not carry out spacingly to stopper 17, because of the effect of third spring 18, stopper 17 inwardly moves and resets and breaks away from the contact with cylinder body 91, can promote rotatory piece 93 and drive piston rod 92 and move left. Therefore, the phenomenon that the piston rod 92 is driven to move leftwards to cause the warm water to be sprayed due to the fact that people touch the rotating block 93 by mistake can be avoided.

Finally, it is necessary to state that: the above-mentioned contents are only used to help understanding the technical solution of the present invention, and should not be interpreted as limiting the scope of the present invention; insubstantial modifications and adaptations of the invention as described above will occur to those skilled in the art and are intended to be within the scope of the invention as claimed.

Claims (8)

1. A nose washer with a spraying function comprises an L-shaped shell (1), a rubber tube (2), a placing barrel (3), a sliding block (4), an elastic part (41), a first hard tube (5), a second hard tube (6), a hose (7) and an atomizing head (8), wherein the left part of the L-shaped shell (1) is fixedly connected with the hose (7) in a penetrating manner, the right end of the hose (7) is communicated with the first hard tube (5), the first hard tube (5) is positioned in the L-shaped shell (1), the bottom end of the L-shaped shell (1) is connected with the placing barrel (3) for placing warm water through a thread rotating manner, the bottom end of the hose (7) is positioned in the placing barrel (3), the middle part of the right side of the L-shaped shell (1) is connected with the first hard tube (5) in a sliding manner in a penetrating manner, the atomizing head (8) for atomizing the warm water is clamped between the left end of the first hard tube (5) and the right end of the second hard tube (6), two sliding type sliding blocks (4) are connected on the right sides of the upper parts of the front and back of the L-and back sides of the L-side of the shell (1), two slider (4) inner in left side respectively with the outer front and back both sides face fixed connection of second hard tube (6), two slider (4) inner in right side respectively with the outer front and back both sides face fixed connection of first hard tube (5), left and right sides slider (4) lateral surface all with be connected with elastic component (41) between L type casing (1) the inboard, the outer right side of first hard tube (5) has rubber tube (2) along circumference cover, a serial communication port, still including actuating mechanism (9) and guiding mechanism (10), second hard tube (6) right-hand member is installed and is used for warm water spun guiding mechanism (10) after atomizing, guiding mechanism (10) are located rubber tube (2), actuating mechanism (9) that are used for discharging the air into and place a section of thick bamboo (3) are installed to L type casing (1) lower part.

2. The nasal irrigator with the spraying function according to claim 1, wherein the driving mechanism (9) comprises a cylinder body (91), a piston rod (92), a rotating block (93), a first spring (94) and a one-way air inlet pipe (96), the right side of the lower part of the L-shaped shell (1) is provided with a cavity (95), the cavity (95) is communicated with the inside of the placing barrel (3), the cylinder body (91) is fixedly connected with the middle part of the left side surface in the L-shaped shell (1) in an embedded manner, the piston rod (92) used for discharging air into the cavity (95) is connected with the middle part of the right side of the cylinder body (91) in a sliding manner in a penetrating manner, the left end of the piston rod (92) is connected with the inner side of the cylinder body (91) in a sliding manner, the one-way air inlet pipe (96) is communicated with the middle part of the upper part of the right side of the cylinder body (91), the right end of the piston rod (92) is connected with the rotating block (93) in a rotating manner, the first spring (94) is rotatably connected with the left side surface of the rotating block (93), the first spring (94) is sleeved on the piston rod (92), and the tail end of the first spring (94) is fixedly connected with the outer right side face of the cylinder body (91).

3. The nasal irrigator with the spraying function according to claim 2, wherein the guide mechanism (10) comprises a spray pipe (101), a spray head (102) and a snap ring (103), the snap ring (103) is fixedly connected to the right end of the first hard pipe (5), the spray pipe (101) is clamped on the snap ring (103) along the circumferential direction, the spray pipe (101) is located in the rubber pipe (2), and the spray head (102) used for spraying atomized warm water is mounted at the right end of the spray pipe (101).

4. The nasal irrigator with the spraying function according to claim 3, further comprising a switching mechanism (11) for switching the mode of warm water atomization or direct spraying, wherein the switching mechanism (11) comprises a slide bar (111), a circular shell (112), a sleeve (113), a fixed sleeve (114) and a porous head (115), the fixed sleeve (114) is fixedly connected to the outer right side of the second hard tube (6) along the circumferential direction, the slide bar (111) is fixedly connected to the lower portion of the fixed sleeve (114) in a penetrating manner, the sleeve (113) for driving the atomizing head (8) to rotate forward is rotatably sleeved on the slide bar (111), the outer top of the sleeve (113) is fixedly connected to the bottom of the atomizing head (8), the circular shell (112) is fixedly connected between the outer left side and the outer right side of the sleeve (113), the left end of the first hard tube (5) penetrates through the upper portion of the right side of the circular shell (112), the right end of the second hard tube (6) penetrates through the upper portion of the left side of the circular shell (112), porous heads (115) used for discharging warm water into the first hard pipe (5) are symmetrically fixedly connected to the front and the back of the bottom of the sleeve (113), and the number of holes of the two porous heads (115) is different.

5. The nose washer with the spraying function according to claim 4, further comprising a trigger mechanism (12) for driving the first hard tube (5) and the second hard tube (6) to move, wherein the trigger mechanism (12) comprises a circular ring (121), a trigger ring (122), a fixing ring (123), an L-shaped plate (124), a contact roller (125), a fixing block (126) and a second spring (127), the fixing ring (123) is fixedly connected to the outer left side of the first hard tube (5) and the middle portion of the second hard tube (6), the L-shaped plate (124) is fixedly connected to the middle of the outer top of the fixing ring (123), the L-shaped plate (124) penetrates through the top of the L-shaped shell (1), the four contact rollers (125) are rotatably connected to the right side of the inner top of the L-shaped plate (124) on the left side and the inner top of the L-shaped plate (124) on the right side, each two contact rollers (125) form a group, the circular shell (112) is rotatably connected to the circular ring (121) along the circumferential direction, the trigger ring (122) used for driving the contact roller (125) to move inside and outside are fixedly connected between the three ends of the left side and the three ends of the right side of the circular ring (121), the left and right trigger rings (122) are respectively positioned between the four contact rollers (125) of the left and right sides, the upper left and right symmetrical fixedly connected to the upper part of the outer rear side of the circular shell (112) is provided with a fixed block (126), and a second spring (127) is connected between the bottom of the fixed block (126) and the inner side of the rear part of the circular ring (121).

6. The nasal irrigator with the spraying function according to claim 5, further comprising a fixture block (13), a fixture rod (14) and a pull block (15), wherein the fixture block (13) is fixedly connected to the right portion of the front side of the outer top of the placing cylinder (3), the fixture rod (14) for fixing the placing cylinder (3) is slidably connected to the left side of the front portion of the L-shaped shell (1) in a penetrating manner, the bottom end of the fixture rod (14) is located in the fixture block (13), and the pull block (15) is fixedly connected to the top end of the fixture rod (14).

7. The nose syringe with the spraying function according to claim 6, further comprising a T-shaped rod (16), a limiting block (17) and a third spring (18), wherein the limiting block (17) for limiting is symmetrically connected to the left portion of the piston rod (92) in a vertically symmetrical sliding manner in a penetrating manner, the third spring (18) is symmetrically connected to the front and back of the inner side surfaces of the limiting blocks (17) on the upper and lower sides, the T-shaped rod (16) for driving the limiting block (17) to move outwards is fixedly connected to the middle portion of the left side surface of the rotating block (93), and the left portion of the T-shaped rod (16) is located between the limiting blocks (17) on the upper and lower sides.

8. The nasal irrigator with spraying function according to claim 7, wherein the circumference of the placing cylinder (3) is wave-shaped.

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