CN109805816A - Tap type drying device - Google Patents

Abstract

The invention discloses a kind of tap type drying devices, the tap type drying device includes outer tube and air outlet, the air outlet is located at the first end of the outer tube and is mounted on the tube wall of the outer tube, the air outlet includes ontology, the ontology has multiple interior intracavitary grids for protruding into the outer tube, forms the inner cavity for being connected to the outer tube and extraneous air outlet between the adjacent grid.Tap type drying device of the invention reduces the thickness of air outlet, and enhances air-flow guiding performance and uniformity, and turbulent flow phenomenon is avoided to occur.

Description

Tap type drying device

Technical field

The present invention relates to hand technical field of drying, more particularly, to a kind of tap type drying device.

Background technique

Tap type drying device, also referred to as gas faucet take away the water of user on hand by spraying air draught to rise To the effect of dry hand.

In the related technology, tap type drying device includes outer tube and the air outlet that is mounted on the peripheral wall of outer tube, air outlet With air outlet.However, existing air outlet mostly uses centralized outlet air, air-flow directly blows out dragon by the single channel of air outlet Head.In order to realize air-flow guiding performance, centralized air outlet uses cross section for circle, and for big wind speed, centralized air outlet It needs to have biggish length to realize that air-flow is oriented to, therefore, it is more to cause the prominent tube wall of centralized air outlet；With single The centralized air outlet of air outlet, air-flow guiding performance is poor and air-flow is very uneven, can only pass through the wind-guiding block installed inside pipeline Airflow direction is adjusted, turbulent flow is be easy to cause.

Summary of the invention

The present invention is directed to solve at least some of the technical problems in related technologies.

For this purpose, the present invention proposes a kind of tap type drying device, which reduce the thickness of air outlet, And air-flow guiding performance and uniformity are enhanced, avoid turbulent flow phenomenon from occurring.

The tap type drying device of embodiment according to the present invention includes: outer tube and air outlet, and the air outlet is located at institute It states the first end of outer tube and is mounted on the tube wall of the outer tube, the air outlet includes ontology, and the ontology has multiple stretch Enter the interior intracavitary grid of the outer tube, forms the inner cavity for being connected to the outer tube and extraneous outlet air between the adjacent grid Mouthful.

The tap type drying device of embodiment according to the present invention, by being arranged in multiple inner cavities for protruding into outer tube on ontology Grid, make the channel for forming supplied gas flowing between adjacent grid, do not need image set Chinese style air outlet and longer wind-guiding is equally set Channel reduces the thickness of air outlet.Further, since grid itself also has rectified action, can guarantee well air-flow according to The flowing of grid extending direction guarantees that air-flow has good steering capability and uniformity, turbulent flow phenomenon is avoided to occur.

In some embodiments, the air outlet further includes extension, the extending part in intracavitary in the outer tube, The grid of first end face in multiple grids far from the outer tube is most edge grid, and the extension is from the most edge Grid extends along the direction of the first end from the outer tube towards the second end of the outer tube, and the upper surface edge of the extension Its extending direction tilts down.

In some embodiments, the upper surface of the extension is the curved surface being downwardly concaved.

In some embodiments, the upper surface of the most edge grid is lower than the most edge lattice except described in multiple grids The upper surface of remaining grid except grid.

In some embodiments, the neighbouring most edge grid of the upper surface of the most edge grid and the extension One end upper surface flush.

In some embodiments, the upper surface of remaining grid flushes against one another.

In some embodiments, multiple grids are along first end from the outer tube towards the second end of the outer tube Direction arrangement evenly spaced from one another.

In some embodiments, the lower end of the ontology is located on the outside of the outer tube, the neighbouring outer tube of the ontology Second end one end and the extension between form card slot, the tube wall of the outer tube is connected in the card slot.

In some embodiments, the tap type drying device further includes the first air guide member, and first air guide member is located at The side of the first end of the neighbouring outer tube in the first end of the inner cavity of the outer tube and positioned at the grid, described first leads The surface of the first end far from the outer tube of wind part is the curved surface recessed towards the first end of the outer tube.

In some embodiments, first air guide member includes matrix, arc panel and floor, and described matrix is located at described The top of body and be located at the grid the neighbouring outer tube first end side, the arc panel is from the upper end of described matrix It is bent upwardly and along the direction of the first end from the outer tube towards the second end of the outer tube, the arc panel has first Side, the first side of the arc panel is adjacent to the first end face of the outer tube, and the floor is from the first side of the arc panel First end facing towards the outer tube extends.

In some embodiments, described matrix is equipped with the through hole through described matrix, the ontology it is neighbouring described outer One end of the first end of pipe is equipped with the induction window through the ontology, the induction window and the through hole in the up-down direction that This is opposite.

In some embodiments, the tap type drying device further includes fixed block, inductive probe and transparent briquetting, described Fixed block is located in the first end of the inner cavity of the outer tube and abuts the floor, the upper end of the transparent briquetting and the fixation The lower end of block is in contact, and the lower end of the transparent briquetting passes through the through hole and cooperates the transparent pressure in the induction window Block is equipped with groove, and the inductive probe is set in the groove.

In some embodiments, the outer tube includes the first pipeline section and the second pipeline section, and second pipeline section favours described First pipeline section, and the second end of second pipeline section is connected with the tube wall of the first end of first pipeline section to be connected to described second The inner cavity of the inner cavity of pipeline section and first pipeline section, the air outlet are located at the first end of second pipeline section.

In some embodiments, the tap type drying device further includes the second air guide member, and second air guide member is located at In the first end of first pipeline section, second air guide member has second end face, and the second end face of second air guide member is remote First end face from first pipeline section, the second end face of second air guide member are in the first end face towards first pipeline section Recessed arc, it is intracavitary in second pipeline section for directing into air-flow intracavitary in first pipeline section.

In some embodiments, the tap type drying device further includes first end cover and second end cover, the first end Lid is located at the first end of first pipeline section to close the first end of the inner cavity of first pipeline section, and the second end cover is located at institute The first end of the second pipeline section is stated to close the first end of the inner cavity of second pipeline section.

Detailed description of the invention

Fig. 1 is the overall structure diagram of the tap type drying device of embodiment according to the present invention.

Fig. 2 is the diagrammatic cross-section of the tap type drying device of embodiment according to the present invention.

Fig. 3 is partial enlargement diagram at A in Fig. 2.

Fig. 4 is the structural schematic diagram of the air outlet of the tap type drying device of embodiment according to the present invention.

Fig. 5 is the schematic side view of the air outlet of the tap type drying device of embodiment according to the present invention.

Fig. 6 is the diagrammatic cross-section of the air outlet of the tap type drying device of embodiment according to the present invention.

Fig. 7 is the structural schematic diagram of the first air guide member of the tap type drying device of embodiment according to the present invention.

Appended drawing reference:

Outer tube 1, the first pipeline section 101, the second pipeline section 102, air outlet 2, ontology 21, grid 210, most edge grid 211 prolong Extending portion 22, air outlet 201, induction window 202, the first air guide member 3, matrix 31, through hole 310, arc panel 32, floor 33 are fixed Block 4, the second air guide member 5, aperture 501, the first positioning column 51, first positioning hole 510, annular convex platform 511, collet 6, first every Hot jacket 61, the second collet 62, first end cover 7, second end cover 8, trim 9, inductive probe 10, transparent briquetting 11, second is fixed Position column 12, second location hole 120, fastener 13.

Specific embodiment

The embodiment of the present invention is described below in detail, examples of the embodiments are shown in the accompanying drawings.Below with reference to The embodiment of attached drawing description is exemplary, it is intended to is used to explain the present invention, and is not considered as limiting the invention.At this In the description of invention, it is to be understood that term " center ", " longitudinal direction ", " transverse direction ", " length ", " width ", " thickness ", "upper", "lower", "front", "rear", "left", "right", "vertical", "horizontal", "top", "bottom" "inner", "outside", " clockwise ", " counterclockwise ", The orientation or positional relationship of the instructions such as " axial direction ", " radial direction ", " circumferential direction " is to be based on the orientation or positional relationship shown in the drawings, and is only For the convenience of describing the present invention and simplifying the description, rather than the device or element of indication or suggestion meaning must have specific side Position is constructed and operated in a specific orientation, therefore is not considered as limiting the invention.

As shown in figs. 1-7, tap type drying device according to an embodiment of the present invention includes outer tube 1 and air outlet 2, air outlet 2 are located at the first end (left end of outer tube 1 shown in FIG. 1) of outer tube 1, and air outlet 2 is mounted on the tube wall of outer tube 1.In other words, As shown in Figure 1, air outlet 2 is located at the left end of outer tube 1, and from the tube wall that the lower section of outer tube 1 is mounted on outer tube 1.

Air outlet 2 includes ontology 21, and ontology 21 has multiple grids 210, and each grid 210 protrudes into the inner cavity of outer tube 1 It is interior, air outlet 201 is formed between adjacent grid 210, air outlet 201 is connected to the inner cavity and the external world of outer tube 1, so as in outer tube 1 Intracavitary air-flow is flowed out through air outlet 201.

In other words, as shown in figures 2-6, there is multiple grids 210 being separated from each other in left-right direction, grid on ontology 21 The interior intracavitary of outer tube 1 is protruded into 210 upper end, and air outlet 201 is formed between adjacent grid 210, and air outlet 201 is connected to outer tube 1 Inner cavity and the external world.

The tap type drying device of embodiment according to the present invention, by the way that multiple protrude into outer tube 1 is arranged on ontology 21 Grid 210 in chamber makes to form the channel that supplied gas flows between adjacent grid 210, does not need image set Chinese style air outlet and equally set Longer air-guiding aisle is set, the thickness of air outlet is reduced.Further, since grid 210 itself also has rectified action, it can be well Guarantee that air-flow is flowed according to 210 extending direction of grid, guarantee that air-flow has good steering capability and uniformity, avoids turbulent flow existing As occurring.

In some embodiments, air outlet 2 further includes extension 22, and extension 22 is located at the interior intracavitary of outer tube 1, wherein more The grid of first end face (left side of outer tube 1 shown in Fig. 2) in a grid 210 far from outer tube 1 is most edge grid 211, Extension 22 from most edge grid 211 along the first end from outer tube 1 towards outer tube 1 second end direction (Fig. 1, shown in 2 from The direction of from left to right) extend, and the upper surface of extension 22 extends along direction and tilts down.

In other words, as shown in figures 2-6, the rightmost side grid in multiple grids 210 is most edge grid 211, extension 22 Extend to the right from the right side of most edge grid 211, and the upper surface of extension 22 is tilted down along direction from left to right.

The tap type drying device of embodiment according to the present invention, by the most edge of the first end face far from outer tube 1 Extension 22 is set on grid 211, extension 22 extends along the direction of the first end from outer tube 1 towards the second end of outer tube 1, and The upper surface of extension 22 extends along direction and tilts down, and is lifted air-flow by extension 22, will be intracavitary in outer tube 1 Air-flow is guided to air outlet 201, can while guaranteeing that air-flow smoothly flows out the fitting depth of air outlet it is relatively large.

In some embodiments, as shown in Figure 3,4, the upper surface of extension 22 is the curved surface being downwardly concaved, and is being pacified as a result, When dress depth is larger, air-flow flowing is guided by curved surface, to further increase the smooth degree of air-flow.

In some embodiments, as shown in Figure 3,4, the most upper surface of edge grid 211 is removed most lower than in multiple grids 210 The upper surface of remaining grid except edge grid 211.In other words, the upper surface of rightmost side grid is lower than the upper end of other grids Face reduces the upper surface of rightmost side grid, prevent air-flow from directly impacting rightmost side grid, improves air-flow velocity uniformity.

In some embodiments, as seen in figures 3-6, the neighbouring most side of the most upper surface of edge grid 211 and extension 22 The upper surface flush of one end of edge grid 211.In other words, adjacent to rightmost side grid, extension 22 is left for the left end of extension 22 The upper surface at end is concordant with the upper surface of rightmost side grid, i.e., extension 22 prolongs to the right in the identical height of rightmost side grid It stretches.

Further, the upper surface of remaining grid 210 flushes against one another.

In some embodiments, as Figure 4-Figure 6, multiple grids 210 are along the first end from outer tube 1 towards the of outer tube 1 Direction (the direction from left to right shown in Fig. 4) arrangement evenly spaced from one another at two ends.As shown in figure 4, multiple grids 210 are from a left side It is arranged at distances from one another to the right, and the distance between adjacent grid 210 is identical.

In some embodiments, the lower end of ontology 21 is located at 1 outside of outer tube, the second end (figure of the neighbouring outer tube 1 of ontology 21 The right end of outer tube 1 shown in 2) one end and extension 22 between form card slot 203, the tube wall of outer tube 1 is connected to card slot 203 It is interior.In other words, as shown in Figure 2,3, the lower end of ontology 21 is located at the outside of the tube wall of outer tube 1, and the right end of ontology 21 is adjacent to outer tube 1 Right end, the pluggable card slot 203 of the tube wall of outer tube 1 is formed between the right end and extension 22 of ontology 21.

In some embodiments, tap type drying device further includes the first air guide member 3, and the first air guide member 3 is located at outer tube 1 In the first end of inner cavity, and it is located at the side of the first end of the neighbouring outer tube 1 of grid 210, the separate outer tube 1 of the first air guide member 3 First end surface be the curved surface recessed towards the first end of outer tube 1.In other words, as shown in Figure 2,3, the first air guide member 3 is set In the left end of the inner cavity of outer tube 1, and the first air guide member 3 is located at the left side of leftmost side grid, the right lateral surface of the first air guide member 3 Left end far from outer tube 1, and the right lateral surface of the first air guide member 3 is curved surface recessed to the left.Outer tube 1 is interior intracavitary as a result, Air-flow is led in air outlet 201 by the curved surface.

In some embodiments, as shown in Fig. 3,7, the first air guide member 3 includes matrix 31, arc panel 32 and floor 33, base Body 31 is located at the top of ontology 21, and matrix 31 is located at the side of the first end of the neighbouring outer tube 1 of grid 210, arc panel 32 from The upper end of matrix 31 faces upward and the direction of edge from first end towards the second end of outer tube 1 of outer tube 1 is (shown in Fig. 3 from left-hand Right direction) bending, arc panel 32 is with first side, first end face of the first side of arc panel 32 adjacent to outer tube 1, floor 33 extend from the first end of first side towards the outer tube 1 of arc panel 32.

In other words, as shown in Fig. 3,7, matrix 31 is located in ontology 21 and is located at the interior intracavitary of outer tube 1, and matrix 31 is located at most The left side of left side grid, arc panel 32 are bent from the left margin of the upper surface of matrix 31 to upper right side, wherein a left side for arc panel 32 Side extends adjacent to the left side of outer tube 1, floor 33 from the left side of arc panel 32 to the left.

In some embodiments, matrix 31 is equipped with the through hole 310 through matrix 31, and the of the neighbouring outer tube 1 of ontology 21 One end of one end is equipped with the induction window 202 through ontology 21, and induction window 202 and through hole 310 are relative to each other in the up-down direction.

In other words, as shown in Fig. 3,7, matrix 31 has the through hole 310 for penetrating through matrix 31 along the vertical direction, ontology 21 Adjacent to the left end of outer tube 1, the left end of ontology 21 is equipped with the induction window 202 for penetrating through ontology 21 along the vertical direction, and induction window for left end 202 are located at the underface of through hole 310.

In some embodiments, tap type drying device further includes fixed block 4, inductive probe 10 and transparent briquetting 11, Gu Determine in the first end for the inner cavity that block 4 is located at outer tube 1 and abuts floor 33.In other words, as shown in figure 3, fixed block 4 is located at outer tube 1 Inner cavity left end in, and the right side of fixed block 4 is in contact with floor 33.

The upper end of transparent briquetting 11 is in contact with the lower end of fixed block 4, and the lower end of transparent briquetting 11 passes through through hole 310 and matches It closes in induction window 202, transparent briquetting 11 is equipped with groove, and inductive probe 10 is located in groove.

In other words, the upper end of transparent briquetting 11 is in contact with the lower end of fixed block 4, and the lower end of transparent briquetting 11 passes through perforation Hole 310 is protruded into induction window 202, and the upper surface of transparent briquetting 11 is equipped with the groove being downwardly concaved, and inductive probe 10 is mounted on recessed In slot.Inductive probe 10 can pass through the transparent induction of briquetting 11 with the presence or absence of user as a result, and by the way that transparent 11 energy of briquetting is arranged It enough avoids inductive probe 10 exposed, protects inductive probe 10.

In some embodiments, outer tube 1 includes the first pipeline section 101 and the second pipeline section 102, and the second pipeline section 102 favours the One pipeline section 101.The second end (right end of the second pipeline section 102 shown in FIG. 1) of second pipeline section 102 and the first of the first pipeline section 101 The tube wall of (upper end of the first pipeline section 101 shown in FIG. 1) is held to be connected, and the inner cavity of the second pipeline section 102 and the first pipeline section 101 is interior Chamber connection, air outlet 2 are located at the first end (left end of the second pipeline section 102 shown in FIG. 1) of the second pipeline section 102.Of the invention In description, term " first ", " second " are used for descriptive purposes only and cannot be understood as indicating or suggesting relative importance.

In other words, as shown in Figure 1, 2, there is angle, and the first pipeline section 101 between the first pipeline section 101 and the second pipeline section 102 Upper end be connected with the right end of the second pipeline section 102, the right side of the inner cavity of the upper end of the inner cavity of the first pipeline section 101 and the second pipeline section 102 End connection, air outlet 2 are located at the left end of the second pipeline section 102.Specifically, fixed block 4 and the first air guide member 3 are located at the second pipeline section The left end of 102 inner cavity.

In some embodiments, the angle between the first pipeline section 101 and the second pipeline section 102 is 45 ° -90 °.Specifically, exist In Fig. 1, embodiment shown in 2, the angle between the first pipeline section 101 and the second pipeline section 102 is 90 °.

In some embodiments, as shown in Fig. 2,5, tap type drying device further includes the second air guide member 5, the second air guide member 5 are located in the first end (upper end of the first pipeline section 101 shown in FIG. 1) of the first pipeline section 101, and the second air guide member 5 has second end Face, for the second end face of the second air guide member 5 far from the first end face of the first pipeline section 101, the second end face of the second air guide member 5 is in direction The recessed arc of the first end face of first pipeline section 101, for air-flow intracavitary in the first pipeline section 101 to be directed into the second pipeline section 102 it is interior intracavitary.

In other words, as shown in Fig. 2,5, the second air guide member 5 is located in the upper end of the inner cavity of the first pipeline section 101, the second wind-guiding Upper surface of the lower end surface of part 5 far from the first pipeline section 101, the lower end surface of the second air guide member 5 are in upwardly recessed arc, the first pipe The interior intracavitary air-flow of section 101 is by intracavitary in arc-shaped transition to the second pipeline section 102, i.e., air-flow passes through arc mistake in flowing It crosses, there is rectified action, the smooth degree of air-flow can be further improved, reduce flow velocity loss, reduce noise when using.

In some embodiments, tap type drying device further includes collet 6, and collet 6 is located in outer tube 1, and heat-insulated The inner peripheral surface of the outer peripheral surface and outer tube 1 of set 6 fits.Heat-proof quality is improved by collet 6 as a result, avoids metal material The hand of the thermally conductive scald user of outer tube 1.

Further, collet 6 includes the first collet 61 and the second collet 61, and the first collet 61 is located at the first pipe In section 101, and the outer peripheral surface of the first collet 61 and the inner peripheral surface of the first pipeline section 101 fit, and the second collet 62 is located at the In two pipeline sections 102, and the outer peripheral surface of the second collet 62 and the inner peripheral surface of the second pipeline section 102 fit.

In some embodiments, tap type drying device further includes first end cover 7 and second end cover 8, and first end cover 7 is located at For the first end of first pipeline section 101 to close the first end of the inner cavity of second pipeline section 101, second end cover 8 is located at the second pipeline section 102 first end is to close the first end of the inner cavity of second pipeline section 102.In other words, as shown in Figure 2,3, first end cover 7 is set The upper end of the inner cavity of the first pipeline section 101 is closed in the upper end of the first pipeline section 101, second end cover 8 is located at a left side for the second pipeline section 102 It holds to close the left end of the inner cavity of the second pipeline section 102.

Further, sealing ring is equipped between second end cover 8 and the second pipeline section 102, to improve leakproofness.Further The left side on ground, second end cover 8 is equipped with trim 9.

In some embodiments, the second air guide member 5 is equipped with the first positioning column extended towards the first end of the first pipeline section 101 51, the first positioning column 51 has first positioning hole 510, and the second air guide member 5 has the aperture 501 being connected to first positioning hole 510, The inner face of first end cover 7 is equipped with the second positioning column 12 extended towards the second end of the first pipeline section 101, the second positioning column 12 tool There is second location hole 120, the second positioning column 12 cooperates in first positioning hole 510, and fastener 13 passes through aperture 501 and is connected to In second location hole 120.

In other words, as shown in Fig. 2,5, the second air guide member 5 is equipped with the first positioning column 51 extended upwardly from the upper end, the One positioning column 51 has the first positioning hole 510 for penetrating through the first positioning column 51 along the vertical direction, wherein the second positioning column 12 cooperates In first positioning hole 510, the second air guide member 5 has the aperture 501 being connected to first positioning hole 510.The lower end of first end cover 7 Face is equipped with the second positioning column 12 extended downwardly, and the second positioning column 12 has penetrates through the second of the second positioning column 12 along the vertical direction Location hole 120.Fastener 13 passes through aperture 501 from bottom to top and is connected in second location hole 120.

Further, the lower end of the inner wall of first positioning hole 510 is equipped with annular convex platform 511, and the lower end of fastener 13 has There is flange, the upper surface of the flange of fastener 13 is in contact with the lower end surface of annular convex platform 511.

Further, fastener 13 is screw, and second location hole 120 has internal screw thread, screw and second location hole 120 It is threadedly coupled.

Below with reference to the accompanying drawings 1-7 describes the tap type drying device of specific embodiment according to the present invention.

As shown in figs. 1-7, tap type drying device according to an embodiment of the present invention includes outer tube 1, air outlet 2, first leads It is wind part 3, fixed block 4, the second air guide member 5, collet 6, first end cover 7, second end cover 8, trim 9, inductive probe 10, transparent Briquetting 11 and fastener 13.

Its middle external tube 1 includes orthogonal the first pipeline section 101 and the second pipeline section 102, the upper end of the first pipeline section 101 and the The right end of two pipeline sections 102 is connected, and the upper end of the inner cavity of the first pipeline section 101 is connected to the right end of the inner cavity of the second pipeline section 102.

Air outlet 2 is located at the left end of the second pipeline section 102, and is mounted on the second pipeline section 102 from the lower section of the second pipeline section 102 On tube wall, tuyere 2 includes ontology 21 and extension 22, and wherein extension 22 is located at the interior intracavitary of outer tube 2, and ontology 21 has multiple The grid 210 of uniform intervals arrangement from left to right, forms air outlet 201 between adjacent grid 210, and air outlet 201 is connected to outer tube 1 Inner cavity and extraneous, so that air-flow intracavitary in outer tube 1 is flowed out through air outlet 201.Wherein outer tube is protruded into the upper end of grid 210 1 it is interior intracavitary, the lower end of ontology 1 is located at the outside of the tube wall of outer tube 2, right end of the right end of ontology 21 adjacent to outer tube 1, ontology 21 Right end and extension 22 between form the pluggable card slot 203 of tube wall of outer tube 1.

Rightmost side grid in multiple grids 210 is most edge grid 211, and the most upper surface of edge grid 211 is lower than more The upper surface of remaining grid in a grid 210 in addition to most edge grid 211, and the upper surface of remaining grid 210 is put down each other Together.

Extension 22 extends to the right from the right side of most edge grid 211, and the upper surface of extension 22 is along from left to right Direction tilts down, and the upper surface of extension 22 is the curved surface being downwardly concaved, and the upper surface of 22 left end of extension and most edge The upper surface of grid 211 is concordant.

First air guide member 3 is located in the left end of the inner cavity of the first pipeline section 101, and the first air guide member 3 is located at leftmost side grid Left side, the right lateral surface of the first air guide member 3 far from the left end of the first pipeline section 101, and the right lateral surface of the first air guide member 3 be to Left recessed curved surface.The interior intracavitary air-flow of the first pipeline section 101 is led in air outlet 201 by the curved surface as a result,.

Specifically, the first air guide member 3 includes matrix 31, arc panel 32 and floor 33, and matrix 31 is located in ontology 21 and position In intracavitary in outer tube 1, matrix 31 is located at the left side of leftmost side grid, and matrix 31 has penetrates through passing through for matrix 31 along the vertical direction Through-hole 310, adjacent to the left end of outer tube 1, the left end of ontology 21 is equipped with the sense for penetrating through ontology 21 along the vertical direction for the left end of ontology 21 Window 202 is answered, and induction window 202 is located at the underface of through hole 310.

Arc panel 32 is bent from the left margin of the upper surface of matrix 31 to upper right side, and wherein the left side of arc panel 32 is neighbouring The left side of outer tube 1, floor 33 extend to the left from the left side of arc panel 32.

Fixed block 4 is located in the left end of the inner cavity of the first pipeline section 101, and the right side of fixed block 4 is in contact with floor 33. The upper end of transparent briquetting 11 is in contact with the lower end of fixed block 4, and the lower end of transparent briquetting 11 passes through through hole 310 and protrudes into induction window In 202, the upper surface of transparent briquetting 11 is equipped with the groove being downwardly concaved, and inductive probe 10 is mounted in groove.Induction is visited as a result, First 10, which can pass through the transparent induction of briquetting 11, can be avoided inductive probe 10 with the presence or absence of user, and by the way that transparent briquetting 11 is arranged It is exposed, protect inductive probe 10.

Second air guide member 5 is located in the upper end of the inner cavity of the first pipeline section 101, and the lower end surface of the second air guide member 5 is far from first The upper surface of pipeline section 101, the lower end surface of the second air guide member 5 are in upwardly recessed arc, the interior intracavitary air-flow of the first pipeline section 101 By intracavitary in arc-shaped transition to the second pipeline section 102, i.e., air-flow has rectified action, energy in flowing by arc-shaped transition The smooth degree of air-flow is enough further improved, flow velocity loss is reduced, reduces noise when using.

Collet 6 includes the first collet 61 and the second collet 61, and the first collet 61 is located in the first pipeline section 101, And first the inner peripheral surface of outer peripheral surface and the first pipeline section 101 of collet 61 fit, the second collet 62 is located at the second pipeline section 102 It is interior, and the outer peripheral surface of the second collet 62 and the inner peripheral surface of the second pipeline section 102 fit.

First end cover 7 is located at the upper end of the first pipeline section 101 to close the upper end of the inner cavity of the first pipeline section 101, first end cover 7 Lower end surface be equipped with the second positioning column 12 for extending downwardly, the second positioning column 12 has penetrates through the second positioning column 12 along the vertical direction Second location hole 120.

Second air guide member 5 is equipped with the first positioning column 51 extended upwardly from the upper end, and the first positioning column 51 has along upper Lower direction penetrates through the first positioning hole 510 of the first positioning column 51, and the lower end of the inner wall of first positioning hole 510 is equipped with annular convex platform 511, wherein the cooperation of the second positioning column 12, in first positioning hole 510, the second air guide member 5 has to be connected to first positioning hole 510 Aperture 501, the lower end of fastener 13 has flange, and fastener 13 passes through aperture 501 from bottom to top and is connected to second location hole In 120, and the upper surface of the flange of fastener 13 is in contact with the lower end surface of annular convex platform 511.Fastener 13 be screw, second Location hole 120 has internal screw thread, and screw is threadedly coupled with second location hole 120.

Second end cover 8 is located at the left end of the second pipeline section 102 to close the left end of the inner cavity of the second pipeline section 102, second end cover 8 Left side be equipped with trim 9.Sealing ring is equipped between second end cover 8 and the second pipeline section 102, to improve leakproofness.

In the description of this specification, reference term " one embodiment ", " some embodiments ", " example ", " specifically show The description of example " or " some examples " etc. means specific features, structure, material or spy described in conjunction with this embodiment or example Point is included at least one embodiment or example of the invention.In the present specification, schematic expression of the above terms are not It must be directed to identical embodiment or example.Moreover, particular features, structures, materials, or characteristics described can be in office It can be combined in any suitable manner in one or more embodiment or examples.In addition, without conflicting with each other, the skill of this field Art personnel can tie the feature of different embodiments or examples described in this specification and different embodiments or examples It closes and combines.

In the present invention unless specifically defined or limited otherwise, term " installation ", " connected ", " connection ", " fixation " etc. Term shall be understood in a broad sense, for example, it may be being fixedly connected, may be a detachable connection, or integral；It can be mechanical connect It connects, is also possible to be electrically connected or can communicate each other；It can be directly connected, can also indirectly connected through an intermediary, it can be with It is the interaction relationship of the connection or two elements inside two elements, unless otherwise restricted clearly.For this field For those of ordinary skill, the specific meanings of the above terms in the present invention can be understood according to specific conditions.

In the present invention unless specifically defined or limited otherwise, fisrt feature in the second feature " on " or " down " can be with It is that the first and second features directly contact or the first and second features pass through intermediary mediate contact.Moreover, fisrt feature exists Second feature " on ", " top " and " above " but fisrt feature be directly above or diagonally above the second feature, or be merely representative of First feature horizontal height is higher than second feature.Fisrt feature can be under the second feature " below ", " below " and " below " One feature is directly under or diagonally below the second feature, or is merely representative of first feature horizontal height less than second feature.

Although the embodiments of the present invention has been shown and described above, it is to be understood that above-described embodiment is example Property, it is not considered as limiting the invention, those skilled in the art within the scope of the invention can be to above-mentioned Embodiment is changed, modifies, replacement and variant.

Claims (15)

1. a kind of tap type drying device characterized by comprising outer tube and air outlet, the air outlet are located at the outer tube First end and be mounted on the tube wall of the outer tube, the air outlet includes ontology, the ontology have it is multiple protrude into it is described The interior intracavitary grid of outer tube forms the inner cavity for being connected to the outer tube and extraneous air outlet between the adjacent grid.

2. tap type drying device according to claim 1, which is characterized in that the air outlet further includes extension, institute Extending part is stated in intracavitary in the outer tube, the grid of the first end face in multiple grids far from the outer tube is most side Edge grid, the side of second end of the extension from the most edge grid along the first end from the outer tube towards the outer tube Direction is extended along to the upper surface of extension, and the extension to tilt down.

3. tap type drying device according to claim 2, which is characterized in that the upper surface of the extension is to recessed The curved surface entered.

4. tap type drying device according to claim 2, which is characterized in that the upper surface of the most edge grid is lower than The upper surface of remaining grid in multiple grids in addition to the most edge grid.

5. tap type drying device according to claim 4, which is characterized in that the upper surface of the most edge grid and institute State the upper surface flush of neighbouring described most one end of edge grid of extension.

6. tap type drying device according to claim 4, which is characterized in that put down each other the upper surface of remaining grid Together.

7. tap type drying device according to claim 1, which is characterized in that multiple grids are along from the outer tube The direction of first end towards the second end of outer tube arrangement evenly spaced from one another.

8. tap type drying device according to claim 2, which is characterized in that the lower end of the ontology is located at the outer tube Outside forms card slot between one end and the extension of the second end of the neighbouring outer tube of the ontology, the outer tube Tube wall is connected in the card slot.

9. tap type drying device according to claim 1, which is characterized in that it further include the first air guide member, described first Air guide member is located in the first end of the inner cavity of the outer tube and is located at the side of the first end of the neighbouring outer tube of the grid, The surface of the first end far from the outer tube of first air guide member is the curved surface recessed towards the first end of the outer tube.

10. tap type drying device according to claim 9, which is characterized in that first air guide member includes matrix, arc Shape plate and floor, described matrix are located at the top of the ontology and are located at the one of the first end of the neighbouring outer tube of the grid Side, the arc panel faces upward from the upper end of described matrix and the second end along the first end from the outer tube towards the outer tube Direction bending, the arc panel has a first side, the first side of the arc panel adjacent to the outer tube first end face, The floor extends from the first end of first side towards the outer tube of the arc panel.

11. tap type drying device according to claim 10, which is characterized in that described matrix, which is equipped with, runs through described matrix Through hole, one end of the first end of the neighbouring outer tube of the ontology is equipped with the induction window through the ontology, the sense Answer window and the through hole relative to each other in the up-down direction.

12. tap type drying device according to claim 11, which is characterized in that further include fixed block, inductive probe and Transparent briquetting, the fixed block are located in the first end of the inner cavity of the outer tube and abut the floor, the transparent briquetting Upper end is in contact with the lower end of the fixed block, and the lower end of the transparent briquetting passes through the through hole and cooperates in the induction window Interior, the transparent briquetting is equipped with groove, and the inductive probe is set in the groove.

13. tap type drying device described in any one of -12 according to claim 1, which is characterized in that the outer tube includes the One pipeline section and the second pipeline section, second pipeline section favour first pipeline section, and the second end of second pipeline section with it is described The tube wall of the first end of first pipeline section is connected to be connected to the inner cavity of second pipeline section and the inner cavity of first pipeline section, it is described go out Tuyere is located at the first end of second pipeline section.

14. tap type drying device according to claim 13, which is characterized in that it further include the second air guide member, described Two air guide members are located in the first end of first pipeline section, and second air guide member has second end face, second air guide member First end face of the second end face far from first pipeline section, the second end face of second air guide member is in towards first pipe The recessed arc of the first end face of section, for directing into air-flow intracavitary in first pipeline section in second pipeline section It is intracavitary.

15. tap type drying device according to claim 13, which is characterized in that further include first end cover and second end Lid, the first end cover are located at the first end of first pipeline section to close the first end of the inner cavity of first pipeline section, described Second end cover is located at the first end of second pipeline section to close the first end of the inner cavity of second pipeline section.