CN112056935B - Water dispenser water outlet structure capable of improving tea brewing efficiency - Google Patents

Abstract

The invention discloses a water outlet structure of a water dispenser capable of improving tea brewing efficiency, and belongs to the field of water dispensers. The utility model provides a can improve tea and dash water structure of water dispenser of efficiency of steeping, which comprises a bod, go out the liquid button, the delivery port, press the structure, the water conservancy diversion structure, drive structure and location structure, it is anterior that the organism is located the organism and is used for the extrusion to go out water to go out the liquid button, the organism front portion is located the downside position department of going out the liquid button and is equipped with the water receiving tank, the delivery port is located the top in the water receiving tank, the exit outer wall of delivery port is located to the water conservancy diversion structure, the water conservancy diversion structure can take place to rotate relatively self in order to change self vertical height and change the play water position, location structure locates the outer wall that the water conservancy diversion structure is close to the upside, can be through rotatory water conservancy diversion structure, when making drive structure drive press the structure and press a liquid button and go out water, change the water position, make the upper surface that the tea steeps the thing more be soaked more rapidly, accelerate settlement efficiency, and then improve and dash and steep the effect.

Description

Water dispenser water outlet structure capable of improving tea brewing efficiency

Technical Field

The invention relates to the field of water dispensers, in particular to a water outlet structure of a water dispenser capable of improving tea brewing efficiency.

Background

The drinking machine is a device which heats or cools the barreled purified water (or mineral water) and is convenient for people to drink. The water dispenser is characterized in that barreled water is placed above the machine and is matched with the barreled water for use, the water dispenser is classified into a warm type, an ice-hot type and an ice-hot type, and the ice-hot type is divided into a semiconductor refrigeration water dispenser and a compressor type refrigeration water dispenser.

When the existing water dispenser with the press type liquid outlet button is used for brewing tea brewing substances, due to the tension effect of water, the tea brewing substances float on the surface of the water, the lower surfaces of the tea brewing substances are soaked in the water, the upper surfaces of the tea brewing substances are not soaked in the water, and water flow is concentrated at one part and falls down in the water outlet process, so that the upper surfaces of the tea brewing substances are soaked for a long time and are settled for a slow time, the brewing effect of the tea brewing substances is poor, and the tea brewing substances are not settled after the tea brewing substances are brewed for a certain time.

Disclosure of Invention

1. Technical problem to be solved

Aiming at the problems in the prior art, the invention aims to provide a water outlet structure of a water dispenser capable of improving the tea brewing efficiency, and the water outlet structure can change the water outlet position while a driving structure drives a pressing structure to press a liquid outlet button to discharge water through rotating a flow guide structure, so that the upper surface of tea brewing substances is soaked more quickly, the sedimentation efficiency is accelerated, and the brewing effect is improved.

2. Technical scheme

In order to solve the above problems, the present invention adopts the following technical solutions.

A water outlet structure of a water dispenser capable of improving tea brewing efficiency comprises a machine body, a liquid outlet button, a water outlet, a pressing structure, a flow guide structure, a driving structure and a positioning structure;

the liquid outlet button is arranged at the front part of the machine body and is used for extruding water;

a water receiving groove is arranged at the lower side part of the liquid outlet button at the front part of the machine body, and the water outlet is arranged at the top end in the water receiving groove;

the flow guide structure is arranged on the outer wall of the outlet of the water outlet and can rotate relative to the flow guide structure so as to change the longitudinal height of the flow guide structure and change the position of the water outlet;

the positioning structure is arranged on the outer wall of the flow guide structure close to the upper side;

the pressing structure is rotatably connected to the positioning structure, and the pressing structure rotates by a certain angle to press the liquid outlet button to discharge water;

the driving structure is arranged between the positioning structure and the flow guide structure and used for driving the pressing structure to rotate, and the driving structure can rotate along with the flow guide structure to drive the pressing structure.

Further, water conservancy diversion structure is including the interior sleeve pipe of joint in the exit outer wall of delivery port, threaded connection is in the outer tube of interior sleeve pipe outer wall, set firmly in the water conservancy diversion portion of outer tube inner wall and set firmly in the rotation portion of outer tube outer wall, it is rotatory around interior sleeve pipe to drive the outer tube when rotating the rotation portion, the outer tube drives the rotation of water conservancy diversion portion, the position that makes water out is the circumference change because of the rotation of water conservancy diversion portion when going out water, and then make tealeaves etc. among the water receiving container float the liquid that can fully contact the drippage at the upper surface on liquid surface, and then tealeaves etc. soak more fully, are difficult for floating at the liquid surface.

Furthermore, water flows through the upper spiral sheet and flows out through the lower spiral sheet after the water flows through the lower spiral sheet and flows through the lower end part of the lower spiral sheet.

Furthermore, the lower end face of the lower spiral sheet extends out of the outer sleeve, so that water flow is not easily blocked by the inner wall of the outer sleeve when flowing out from the lower end face of the lower spiral sheet.

Further, location structure sets firmly in the first location portion of interior sleeve pipe left side outer wall, sets firmly in the second location portion of interior sleeve pipe right side outer wall and seting up the spout in second location portion bottom, first location portion is kept away from interior sheathed tube one end and is contacted with water receiving tank rear inner wall, and second location portion provides the fixed point for the installation of drive structure, and first location portion uses for the cooperation of balanced second location portion.

Furthermore, the driving structure comprises an annular limiting groove arranged on the outer wall of the outer sleeve, an annular limiting part rotationally connected in the annular limiting groove, a first driving part rotationally connected to the outer wall of the annular limiting part close to the upper side, a second driving part slidably connected in the sliding groove and a compression spring fixedly arranged between the second driving part and the left inner wall of the sliding groove, one end of the first driving part, far away from the annular limiting part, is located in the sliding groove and is in contact with the left end of the second driving part, the rotating part drives the outer sleeve to move upwards gradually in the clockwise rotating process, the outer sleeve drives the first driving part to move upwards, the second driving part is pushed to move rightwards gradually in the sliding groove in the upwards moving process of the first driving part, and the second driving part pushes the push rod to rotate to press the liquid outlet button to discharge water.

Furthermore, the limiting groove of two symmetries is seted up to the spout inside wall, second drive division and first drive division side all set firmly in the stopper of two symmetries, the stopper slides in the limiting groove, and the in-process that makes first drive division drive second drive division move to the right makes first drive division and second drive division be difficult for sliding outside the spout under the spacing sliding action of limiting groove and stopper.

Further, the sum of the length of the compression spring in a free state and the length of the second driving part is less than or equal to the sectional length of the sliding chute.

Furthermore, the pressing structure comprises a push rod rotatably connected to the upper end of the right side of the second positioning portion and a pressing portion rotatably connected to the upper end portion of the push rod, the pressing portion is in contact with the surface of the liquid outlet button, the lower end face of the push rod is located on the lower side of the lower end face of the second positioning portion, and the lower end of the push rod extends out of the lower end of the second positioning portion by a small distance.

Further, the push rod is in a vertical state when the pressing part is in contact with the surface of the liquid outlet button.

3. Advantageous effects

Compared with the prior art, the invention has the advantages that:

(1) this scheme can be through rotatory water conservancy diversion structure, makes the drive structure drive press the structure and press out the liquid button and go out when water, changes the play water position, makes the upper surface that the tea class steeped the thing more quickly infiltrated for subside efficiency, and then improve and steep the effect.

(2) Through the cooperation use of annular spacing groove and annular spacing portion for when the drive structure followed the water conservancy diversion structure and reciprocated, the drive structure was difficult for following the water conservancy diversion structure and takes place to rotate.

(3) Through with the water conservancy diversion part for two parts of last flight and lower flight, when increasing the drain route, through last flight and the size difference between the flight down for the outer tube moves down the in-process upper flight is difficult for causing the hindrance to moving down of outer sleeve pipe.

Drawings

FIG. 1 is a schematic front perspective view of the present invention;

FIG. 2 is a schematic side view of the present invention;

FIG. 3 is a schematic view of the structure at A in FIG. 2;

FIG. 4 is a schematic structural view of the liquid outlet button of the present invention when pressed;

FIG. 5 is a schematic front view of the second driving portion, the first driving portion, the limiting groove and the limiting block of the present invention;

fig. 6 is a perspective view of the flow guide part of the present invention.

The reference numbers in the figures illustrate:

the liquid outlet device comprises adevice body 1, aliquid outlet button 2, awater outlet 3, apressing structure 4, apressing part 41, apush rod 42, aflow guide structure 5, aninner sleeve 51, anouter sleeve 52, aflow guide part 53, an upperspiral sheet 531, a lowerspiral sheet 532, a rotatingpart 54, adriving structure 6, asliding groove 62, a second drivingpart 63, afirst driving part 64, an annular limitingpart 65, an annularlimiting groove 66, acompression spring 67, afirst positioning part 71, asecond positioning part 72, alimiting groove 81 and a limitingblock 82.

Detailed Description

The drawings in the embodiments of the invention will be combined; the technical scheme in the embodiment of the invention is clearly and completely described; obviously; the described embodiments are only some of the embodiments of the present invention; but not all embodiments, are based on the embodiments of the invention; all other embodiments obtained by a person skilled in the art without making any inventive step; all fall within the scope of protection of the present invention.

Referring to fig. 1-6, a water outlet structure of a water dispenser capable of improving tea brewing efficiency includes abody 1, aliquid outlet button 2, awater outlet 3, apressing structure 4, aflow guiding structure 5, adriving structure 6 and a positioning structure.

Theliquid outlet button 2 is arranged at the front part of themachine body 1 and is used for extruding water.

The front part of themachine body 1 is provided with a water receiving groove at the lower side part of theliquid outlet button 2, and thewater outlet 3 is arranged at the top end in the water receiving groove.

Theflow guide structure 5 is arranged on the outer wall of an outlet of thewater outlet 3, theflow guide structure 5 can rotate relative to the flow guide structure to change the longitudinal height of the flow guide structure and change the water outlet position, theflow guide structure 5 comprises aninner sleeve 51 clamped on the outer wall of the outlet of thewater outlet 3, anouter sleeve 52 in threaded connection with the outer wall of theinner sleeve 51, aflow guide part 53 fixedly arranged on the inner wall of theouter sleeve 52 and a rotatingpart 54 fixedly arranged on the outer wall of theouter sleeve 52, theouter sleeve 52 is driven to rotate around theinner sleeve 51 when the rotatingpart 54 is rotated, theouter sleeve 52 drives theflow guide part 53 to rotate, the water outlet position is changed circumferentially due to the rotation of theflow guide part 53 during water outlet, and therefore tea leaves and the like in the water receiving container can be floated on the upper surface of the liquid surface and can be fully contacted with dripped liquid, and then the tea leaves and the like are soaked more fully and are not easy to float on the liquid surface.

Theflow guiding part 53 comprises a lowerspiral piece 532 fixedly arranged on the inner wall of theouter sleeve 52 and an upperspiral piece 531 fixedly arranged on the upper end surface of the lowerspiral piece 532, the transverse section length of the upperspiral piece 531 is smaller than that of the lowerspiral piece 532, the transverse section length of the upperspiral piece 531 is smaller than or equal to the inner diameter of theinner sleeve 51, the size of the upperspiral piece 531 is matched with that of the inner diameter of theouter sleeve 52, so that the upperspiral piece 531 is not easy to obstruct the movement of theouter sleeve 52 in the process of moving theouter sleeve 52 upwards or downwards, and the upperspiral piece 531 and the lowerspiral piece 532 are arranged to guide the water flowing out from thewater outlet 3 to flow through the upperspiral piece 531 and the lowerspiral piece 532 and then flow out through the lower end part of the lowerspiral piece 532.

The lower end surface of the lowerspiral piece 532 extends out of theouter sleeve 52, so that water is not easily blocked by the inner wall of theouter sleeve 52 when flowing out through the lower end surface of the lowerspiral piece 532.

The positioning structure is arranged on the outer wall of thediversion structure 5 close to the upper side, the positioning structure comprises afirst positioning part 71 fixedly arranged on the outer wall of the left side of theinner sleeve 51, asecond positioning part 72 fixedly arranged on the outer wall of the right side of theinner sleeve 51 and achute 62 arranged at the bottom of thesecond positioning part 72, one end, far away from theinner sleeve 51, of thefirst positioning part 71 is in contact with the rear inner wall of the water receiving tank, thesecond positioning part 72 provides a fixed point for installation of thedriving structure 6, and thefirst positioning part 71 is matched with thesecond positioning part 72 for balance.

Pressing structure 4 and rotating to be connected on location structure, pressingstructure 4 rotates certain angle and presses playliquid button 2 and goes out water, pressingstructure 4 and including rotating thepush rod 42 that connects insecond location portion 72 right side upper end and rotating thesplenium 41 of pressing that connects in thepush rod 42 upper end, it contacts with playliquid button 2 surface to presssplenium 41, the lower terminal surface ofpush rod 42 is located the downside of the lower terminal surface ofsecond location portion 72, and the lower extreme ofpush rod 42 stretches outsecond location portion 72 lower extreme short-range distance,press splenium 41 and playliquid button 2 surface contact state down,push rod 42 is in vertical state.

Thedriving structure 6 is disposed between the positioning structure and theflow guiding structure 5 and used for driving thepressing structure 4 to rotate, and thedriving structure 6 can rotate along with theflow guiding structure 5 to drive thepressing structure 4, thedriving structure 6 includes an annularlimiting groove 66 disposed on the outer wall of theouter sleeve 52, an annular limitingportion 65 rotatably connected in the annularlimiting groove 66, afirst driving portion 64 rotatably connected to the outer wall of the annular limitingportion 65 near the upper side, asecond driving portion 63 slidably connected in thesliding groove 62, and acompression spring 67 fixedly disposed between thesecond driving portion 63 and the left inner wall of thesliding groove 62, one end of thefirst driving portion 64 far from the annular limitingportion 65 is disposed in thesliding groove 62 and contacts with the left end of thesecond driving portion 63, the rotatingportion 54 drives theouter sleeve 52 to move up gradually in the clockwise rotation process, and further drives thefirst driving portion 64 to move up, thefirst driving portion 64 drives thesecond driving portion 63 to move rightward gradually in thesliding groove 62 in the upward movement process, and the second drivingpart 63 drives thepush rod 42 to rotate and press theliquid outlet button 2 to discharge water.

Two symmetrical limitinggrooves 81 are formed in the inner side wall of thesliding groove 62, the side ends of thesecond driving portion 63 and thefirst driving portion 64 are fixedly arranged on two symmetrical limitingblocks 82, the limitingblocks 82 slide in thelimiting grooves 81, and thefirst driving portion 64 and thesecond driving portion 63 are not prone to sliding out of thesliding groove 62 under the limiting sliding action of thelimiting grooves 81 and the limitingblocks 82 in the process that thefirst driving portion 64 drives thesecond driving portion 63 to move right.

The sum of the length of thecompression spring 67 in the free state and the length of thesecond driving portion 63 is less than or equal to the cross-sectional length of theslide groove 62.

When theliquid outlet button 2 needs to be pressed to discharge water, the rotatingpart 54 is rotated clockwise, therotating part 54 drives theouter sleeve 52 to rotate around theinner sleeve 51, theouter sleeve 52 synchronously rises in the rotating process, theouter sleeve 52 drives the first drivingpart 64 to move upwards, the first drivingpart 64 pushes the second drivingpart 63 to move rightwards in thesliding groove 62 when moving upwards, the second drivingpart 63 is contacted with thepush rod 42, therotating part 54 continues to rotate, at the moment, the second drivingpart 63 starts to push thepush rod 42, thepush rod 42 rotates around the second positioningpart 72, thepressing part 41 preliminarily presses theliquid outlet button 2 to discharge water, the rotatingpart 54 continues to rotate, the water flows out through thewater outlet 3 and theflow guiding part 53, theliquid outlet button 2 is pressed deeply in the process of rotating therotating part 54, the water outlet amount is increased, the water outlet position continuously changes along with the rotation of the rotatingpart 54, and the upper surface of tea can be fully and quickly wetted, through rotatory waterconservancy diversion structure 5, makedrive structure 6drive press structure 4 press outliquid button 2 when going out water, change the play water position, make the upper surface that the tea class steeped the thing more quickly by infiltration for subside efficiency, and then improve and steep the effect.

The above; but are merely preferred embodiments of the invention; the scope of the invention is not limited thereto; any person skilled in the art is within the technical scope of the present disclosure; the technical scheme and the improved concept of the invention are equally replaced or changed; are intended to be covered by the scope of the present invention.

Claims (5)

1. The utility model provides a can improve tea and dash water structure of water dispenser of dashing bubble efficiency which characterized in that: comprises a machine body (1), a liquid outlet button (2), a water outlet (3), a pressing structure (4), a flow guide structure (5), a driving structure (6) and a positioning structure; the liquid outlet button (2) is arranged at the front part of the machine body (1) and is used for extruding water; a water receiving groove is formed in the position, located on the lower side of the liquid outlet button (2), of the front portion of the machine body (1), and the water outlet (3) is formed in the top end of the water receiving groove; the flow guide structure (5) is arranged on the outer wall of the outlet of the water outlet (3), and the flow guide structure (5) can rotate relative to the flow guide structure to change the longitudinal height of the flow guide structure and change the water outlet position; the positioning structure is arranged on the outer wall of the flow guide structure (5) close to the upper side; the pressing structure (4) is rotatably connected to the positioning structure, and the pressing structure (4) rotates by a certain angle to press the liquid outlet button (2) to discharge water; the driving structure (6) is arranged between the positioning structure and the flow guide structure (5) and is used for driving the pressing structure (4) to rotate, and the driving structure (6) can rotate along with the flow guide structure (5) to drive the pressing structure (4); the flow guide structure (5) comprises an inner sleeve (51) clamped on the outer wall of the outlet of the water outlet (3), an outer sleeve (52) in threaded connection with the outer wall of the inner sleeve (51), a flow guide part (53) fixedly arranged on the inner wall of the outer sleeve (52) and a rotating part (54) fixedly arranged on the outer wall of the outer sleeve (52); the flow guide part (53) comprises a lower spiral sheet (532) fixedly arranged on the inner wall of the outer sleeve (52) and an upper spiral sheet (531) fixedly arranged on the upper end face of the lower spiral sheet (532), the transverse section length of the upper spiral sheet (531) is smaller than that of the lower spiral sheet (532), and the transverse section length of the upper spiral sheet (531) is smaller than or equal to the inner diameter of the inner sleeve (51); the positioning structure comprises a first positioning part (71) fixedly arranged on the outer wall of the left side of the inner sleeve (51), a second positioning part (72) fixedly arranged on the outer wall of the right side of the inner sleeve (51) and a sliding groove (62) formed in the bottom of the second positioning part (72), and one end, away from the inner sleeve (51), of the first positioning part (71) is in contact with the inner wall of the water receiving groove; the driving structure (6) comprises an annular limiting groove (66) formed in the outer wall of the outer sleeve (52), an annular limiting part (65) rotatably connected into the annular limiting groove (66), a first driving part (64) rotatably connected to the outer wall, close to the upper side, of the annular limiting part (65), a second driving part (63) slidably connected into the sliding groove (62), and a compression spring (67) fixedly arranged between the second driving part (63) and the left inner wall of the sliding groove (62), wherein one end, far away from the annular limiting part (65), of the first driving part (64) is positioned in the sliding groove (62) and is in contact with the left end of the second driving part (63); the pressing structure (4) comprises a push rod (42) rotatably connected to the upper end of the right side of the second positioning part (72) and a pressing part (41) rotatably connected to the upper end part of the push rod (42), and the pressing part (41) is in contact with the surface of the liquid outlet button (2).

2. The water outlet structure of the water dispenser capable of improving the tea brewing efficiency according to claim 1, which is characterized in that: the lower end face of the lower spiral sheet (532) extends out of the outer sleeve (52).

3. The water outlet structure of the water dispenser capable of improving the tea brewing efficiency according to claim 1, characterized in that: two symmetrical limiting grooves (81) are formed in the inner side wall of the sliding groove (62), the side ends of the second driving portion (63) and the first driving portion (64) are fixedly arranged on two symmetrical limiting blocks (82), and the limiting blocks (82) slide in the limiting grooves (81).

4. The water outlet structure of the water dispenser capable of improving the tea brewing efficiency according to claim 1, which is characterized in that: the sum of the length of the compression spring (67) in a free state and the length of the second driving part (63) is less than or equal to the cross-sectional length of the sliding chute (62).

5. The water outlet structure of the water dispenser capable of improving the tea brewing efficiency according to claim 1, characterized in that: the push rod (42) is in a vertical state under the state that the pressing part (41) is in contact with the surface of the liquid outlet button (2).

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