CN101644346B

CN101644346B - Two-way water outlet water nozzle valve

Info

Publication number: CN101644346B
Application number: CN2009100918116A
Authority: CN
Inventors: 林必贵
Original assignee: Individual
Current assignee: Individual
Priority date: 2009-08-26
Filing date: 2009-08-26
Publication date: 2011-06-08
Anticipated expiration: 2029-08-26
Also published as: CN101644346A

Abstract

The invention provides a two-way water outlet water nozzle valve having a cold/hot water flow control structure, and the cold/hot water flow control structure comprises an upper module (25) and a lower module (26). The upper module (25) and the lower module (26) are arranged in a cavity shell and is in plane contact, and the upper module (25) is connected with a control component capable of controlling the upper module (25) to slide towards each direction on the lower module (26); the middle part of the lower module (26) is provided with four circumferentially-distributed water inlet channelswhich are a first hot water inlet channel (1), a second cold water inlet channel (3), a second hot water inlet channel (2) and a first cold water inlet channel (4) successively, wherein the inner side near the first hot water inlet channel (1) and the first cold water inlet channel (4) is provided with a first water outlet channel (5), the inner side near the second cold water inlet channel (3) and the second hot water inlet channel (2) is provided with a second water outlet channel (6), and the middle part of the upper module (25) is provided with a first water chute (7) and a second water chute (8). The sliding of the upper module (25) on the lower module (26) is utilized to realize the control of water temperature, flow and flow direction. The invention has compact structure and easy operation as well as maintenance.

Description

Two-way water outlet water nozzle valve

Technical field

The present invention relates to a kind of outlet valve, specifically, the present invention relates to a kind ofly can realize two-way water outlet and water temperature, the water nozzle valve that flow can be regulated.

Background technique

Present outlet valve generally comprises valve body, and valve rod and constitute with the corresponding spool of valve body has only a water outlet usually, and in places such as bathroom, generally need two water outlets, upwards be the shower purposes, can in bathtub, discharge water downwards or realize other purposes.Now also can realize the outlet valve of upper and lower water outlet, its structure is set up valve seat and the spool that communicates with water outlet usually on valve body.This structure need be set up many parts on valve body, more complicated on the structure is used and keeped in repair all inconveniently, therefore need provide a kind of simple in structure, the reversing water outlet valve of convenient maintenance.

Summary of the invention

The objective of the invention is provides a kind of simple in structure at the deficiency that prior art exists, and can realize that two-way commutation water outlet and water temperature are regulated and the bidirectional controlled water nozzle valve of convenient maintenance.

Two-way water outlet water nozzle valve provided by the invention, has hot and cold water flow control structure, described hot and cold water flow control structure comprises upper module and lower module, upper module and lower module are arranged in the shell of chamber and are plane contact, and upper module is connected with can control the controlling component that upper module slides to all directions on lower module, the middle part of lower module has four intake tunnels that are circle distribution, be followed successively by the first hot water inlet passage, the second cold water inlet passage, the second hot water inlet passage and the first cold water inlet passage, the inboard of closing on the first hot water inlet passage and the first cold water inlet passage has first exhalant canal, the inboard of closing on the second cold water inlet passage and the second hot water inlet passage has second exhalant canal, the middle part of upper module has first water chute and second water chute, the opening of first water chute and second water chute is towards lower module, the opening of first water chute can be between first exhalant canal of lower module and second exhalant canal and is not communicated with first exhalant canal, second exhalant canal and described four intake tunnels, under this kind state, second water chute is communicated with the second cold water inlet passage and/or the second hot water inlet passage and is communicated with second exhalant canal, the opening of second water chute can be between first exhalant canal of lower module and second exhalant canal and is not communicated with first exhalant canal, second exhalant canal and described four intake tunnels, under this kind state, first water chute is communicated with the first cold water inlet passage and/or the first hot water inlet passage and is communicated with first exhalant canal, the opening of the opening of first water chute and second water chute can be simultaneously in the interior week of described four intake tunnels that are circle distribution and be not communicated with in described four intake tunnels any.

Preferably, described chamber shell is made of upper shell and lower cover, the described controlling component that upper module connects is the rocking bar that stretches out upper shell, lower cover is provided with lower cover hot water inlet, lower cover cooling water inlet, lower cover first water outlet and lower cover second water outlet, the lower cover hot water inlet is communicated with the first hot water inlet passage and the second hot water inlet passage, the lower cover cooling water inlet is communicated with the first cold water inlet passage and the second cold water inlet passage, lower cover first water outlet is communicated with first exhalant canal, and lower cover second water outlet is communicated with second exhalant canal.

Preferably, have in the lower cover that hot water enters gutter, cold water enters gutter, the first water outlet gutter and the second water outlet gutter, the lower cover hot water inlet enters gutter by hot water and is communicated with the first hot water inlet passage and the second hot water inlet passage, the lower cover cooling water inlet enters gutter by cold water and is communicated with the first cold water inlet passage and the second cold water inlet passage, lower cover first water outlet is communicated with first exhalant canal by the first water outlet gutter, and lower cover second water outlet is communicated with second exhalant canal by the second water outlet gutter.

As long as the described controlling component that upper module connects can be controlled upper module and slide on lower module and rotate, for example can be rocking bar, realize the slip and the rotation of upper module by pulling or shake rocking bar, also can be for can directly promoting and rotate the knob of upper module.

Preferably, described controlling component is a rocking bar, and rocking bar is connected with upper module by slide block, and the top of slide block has the retainer around rocking bar, and slide block and retainer all are positioned at upper shell.

Preferably, the periphery of the cross section of upper module, lower module, upper shell, lower cover, slide block and retainer all is circular.

Preferably, the cross section of described four intake tunnels all is the ring section of 60-85 degree for radian, and the cross section of first exhalant canal and second exhalant canal all is the ring section of 120-175 degree for radian.

The present invention is simple in structure, and cost is low, is convenient to large-scale promotion and uses, and adopts integral type valve body and integral type valve core structure, and two-way water outlet all is located on the valve body, and is easy to use and be convenient to keep in repair.

Description of drawings

Fig. 1 is a sectional structure schematic representation of the present invention (closed condition);

Fig. 2 is a lower module plan view of the present invention;

Fig. 3 is a lower module worm's eye view shown in Figure 2

Fig. 4 for the A-A of Fig. 2 of the present invention and lower module shown in Figure 3 to sectional view;

Fig. 5 is a upper module plan view of the present invention;

Fig. 6 is that the B-B of upper module shown in Figure 5 is to sectional view

Fig. 7 is the present invention's lower module shown in Figure 2 and upper module shown in Figure 5 schematic representation (closed condition) when overlapping

Fig. 8 is the present invention's second exhalant canal water outlet view (hot and cold water uniform state)

Fig. 9 goes out the hot water conditions schematic representation for the present invention's second exhalant canal;

Figure 10 goes out the cold water view for the present invention's second exhalant canal;

Figure 11 goes out the cold water view for the present invention's first exhalant canal;

Figure 12 is a lower cover plan view of the present invention;

Figure 13 is a lower cover worm's eye view of the present invention;

Figure 14 is that lower cover C-C shown in Figure 12 is to sectional view.

Among the figure: the 1-first hot water inlet passage, the 2-second hot water inlet passage, the 3-second cold water inlet passage, the 4-first cold water inlet passage, 5-first exhalant canal, 6-second exhalant canal, 7-first water chute, 8-second water chute, 9-lower cover hot water inlet, 10-lower cover cooling water inlet, 11-lower cover first water outlet, 12-lower cover second water outlet, 13-hot water enters gutter, the 14-first water outlet gutter, 15-cold water enters gutter, the 16-second water outlet gutter, packing ring between 17-lower module and lower cover, the 18-lower cover second water outlet packing ring, the 19-locating stud, 20-rocking bar, 21-fixing pin, the 22-retainer, the 23-upper shell, 24 slide blocks, 25-upper module, the 26-lower module, the 27-lower cover.

Embodiment

As shown in Figure 1, the described hot and cold water flow control structure of this two-way water outlet water nozzle valve comprises upper module 25 and lower module 26, upper module 25 is arranged in the shell of chamber with lower module 26 and is plane contact, described chamber shell is made of upper shell 23 and lower cover 27, and upper module 25 is connected with can control the rocking bar 20 that upper module 25 slides to all directions on lower module 26, rocking bar 20 is connected with upper module 25 by slide block 24, the top of slide block 24 has the retainer 22 around rocking bar 20, slide block 24 and retainer 22 all are positioned at upper shell 23, and rocking bar 20 stretches out upper shell 23.Shown in Fig. 2～4, the middle part of lower module 26 has four intake tunnels that are circle distribution, be followed successively by the first hot water inlet passage 1, the second cold water inlet passage 3, the second hot water inlet passage 2 and the first cold water inlet passage 4, the inboard of closing on the first hot water inlet passage 1 and the first cold water inlet passage 4 has first exhalant canal 5, and the inboard of closing on the second cold water inlet passage 3 and the second hot water inlet passage 2 has second exhalant canal 6.As shown in Figure 5 and Figure 6, the middle part of upper module 25 has first water chute 7 and second water chute 8.Shown in Fig. 1,11-14, lower cover 27 is provided with lower cover hot water inlet 9, lower cover cooling water inlet 10, lower cover first water outlet 11 and lower cover second water outlet 12, lower cover hot water inlet 9 is communicated with the first hot water inlet passage 1 and the second hot water inlet passage 2, lower cover cooling water inlet 10 is communicated with the first cold water inlet passage 4 and the second cold water inlet passage 3, lower cover first water outlet 11 is communicated with first exhalant canal 5, and lower cover second water outlet 12 is communicated with second exhalant canal 6.As Fig. 8, Fig. 9 and shown in Figure 11, the opening of first water chute 7 and second water chute 8 is towards lower module 26, the opening of first water chute 7 can be between first exhalant canal 5 of lower module 26 and second exhalant canal 6 and is not communicated with first exhalant canal 5, second exhalant canal 6 and described four intake tunnels, second water chute 8 is communicated with the second cold water inlet passages 3 and/or the second hot water inlet passage 2 and is communicated with second exhalant canal 6, wherein, Fig. 8 has represented the state of even outflow hot and cold water, Fig. 9 has represented hot water conditions, and Figure 11 has represented the cold water state.Similarly, the opening of second water chute 8 can be between first exhalant canal 5 of lower module 26 and second exhalant canal 6 and is not communicated with first exhalant canal 5, second exhalant canal 6 and described four intake tunnels, under this kind state, first water chute 7 is communicated with the first cold water inlet passages 4 and/or the first hot water inlet passage 1 and is communicated with first exhalant canal 5, wherein, Figure 10 has represented that first water chute 7 is communicated with the first hot water inlet passages 1 and is communicated with first exhalant canal 5 and goes out the state of hot water.As shown in Figure 7, the opening of the opening of first water chute 7 and second water chute 8 can be simultaneously in the interior week of described four intake tunnels that are circle distribution and be not communicated with in described four intake tunnels any, be in closed condition this moment.

As Fig. 1, shown in 12～14, have hot water in the lower cover 27 and enter gutter 13, cold water enters gutter 15, the first water outlet gutter 16 and the second water outlet gutter 14, lower cover hot water inlet 9 enters gutter 13 by hot water and is communicated with the first hot water inlet passage 1 and the second hot water inlet passage 2, lower cover cooling water inlet 10 enters gutter 15 by cold water and is communicated with the first cold water inlet passage 3 and the second cold water inlet passage 4, lower cover first water outlet 11 is communicated with first exhalant canal 5 by the first water outlet gutter 14, and lower cover second water outlet 12 is communicated with second exhalant canal 6 by the second water outlet gutter 16.

Wherein, the periphery of the cross section of upper module 25, lower module 26, upper shell 23, lower cover 27, slide block 24 and retainer 22 all is circular.The cross section of described four intake tunnels all is the ring section of 60-85 degree for radian, and the cross section of first exhalant canal 5 and second exhalant canal 6 all is the ring section of 120-175 degree for radian.

Upper module and lower module can be ceramic module.Can add packing ring between lower module and the lower cover, represent packing ring 17 between lower module and lower cover among Fig. 1.Lower cover hot water inlet 9, lower cover cooling water inlet 10, lower cover first water outlet 11 and lower cover second water outlet 12 also can be provided with packing ring, and Fig. 1 and Fig. 3 have represented the lower cover second water outlet packing ring 18.The locating stud of representing among Figure 13 19 is used to locate lower cover 27.Fig. 1 represent fixing pin 21 be used for fixing rocking bar 20.

Fig. 1 and Fig. 7 represent is the schematic representation of closed condition.

Fig. 8 is the even water outlet status architecture of second exhalant canal, 6 a hot and cold waters schematic representation, the left and right rotation of rocking bar among Fig. 1 can be controlled second exhalant canal, 6 hot and cold water temperature, or Dan Leng, single heat go out water state (Fig. 9,11), Fig. 9 is two-way water nozzle valve second exhalant canal of the present invention 6 hot water effluent's states, rocking bar among Figure 11 is pulled round about, first exhalant canal, 5 cold water go out water state, see Figure 10, at this moment rotate rocking bar and just can control first exhalant canal, 5 water-exit temperatures.

When first exhalant canal, 5 water-exit temperatures adjusted when good, at this moment to use 6 water outlets of second exhalant canal, can reach first exhalant canal 5 and the identical purpose of second exhalant canal, 6 water-exit temperatures round about as long as rocking bar pulled, save the trouble that readjusts water temperature, can also play the effect of water saving.

Realize two-way temperature of the present invention by above operation, the controlled water outlet of flow does not increase the device that communicates with water outlet on valve body on the structure of the present invention that hence one can see that, reached the purpose of two-way water outlet, designs simplification, and function increases, and is easy to maintenance.

As well known to the skilled person; the foregoing description only plays the exemplary role in the foregoing invention protection domain; for those of ordinary skills; also have a lot of conventional distortion and other embodiments in the protection domain that the present invention limited, these distortion and embodiment will be within protection scope of the present invention.

Claims

1. two-way water outlet water nozzle valve, has hot and cold water flow control structure, it is characterized in that, described hot and cold water flow control structure comprises upper module (25) and lower module (26), upper module (25) is arranged in the shell of chamber with lower module (26) and is plane contact, and upper module (25) is connected with can control the controlling component that upper module (25) upward slides to all directions at lower module (26), the middle part of lower module (26) has four intake tunnels that are circle distribution, be followed successively by the first hot water inlet passage (1), the second cold water inlet passage (3), the second hot water inlet passage (2) and the first cold water inlet passage (4), the inboard of closing on the first hot water inlet passage (1) and the first cold water inlet passage (4) has first exhalant canal (5), the inboard of closing on the second cold water inlet passage (3) and the second hot water inlet passage (2) has second exhalant canal (6), the middle part of upper module (25) has first water chute (7) and second water chute (8), the opening of first water chute (7) and second water chute (8) is towards lower module (26), the opening of first water chute (7) can be between first exhalant canal (5) of lower module (26) and second exhalant canal (6) and is not communicated with first exhalant canal (5), second exhalant canal (6) and described four intake tunnels, under this kind state, second water chute (8) is communicated with the second cold water inlet passage (3) and/or the second hot water inlet passage (2) and is communicated with second exhalant canal (6), the opening of second water chute (8) can be between first exhalant canal (5) of lower module (26) and second exhalant canal (6) and is not communicated with first exhalant canal (5), second exhalant canal (6) and described four intake tunnels, under this kind state, first water chute (7) is communicated with the first cold water inlet passage (4) and/or the first hot water inlet passage (1) and is communicated with first exhalant canal (5), the opening of the opening of first water chute (7) and second water chute (8) can be simultaneously in the interior week of described four intake tunnels that are circle distribution and be not communicated with in described four intake tunnels any.

2. two-way water outlet water nozzle valve according to claim 1, it is characterized in that, described chamber shell is made of upper shell (23) and lower cover (27), the described controlling component that upper module (25) connects stretches out upper shell (23), lower cover (27) is provided with lower cover hot water inlet (9), lower cover cooling water inlet (10), lower cover first water outlet (11) and lower cover second water outlet (12), lower cover hot water inlet (9) is communicated with the first hot water inlet passage (1) and the second hot water inlet passage (2), lower cover cooling water inlet (10) is communicated with the first cold water inlet passage (4) and the second cold water inlet passage (3), lower cover first water outlet (11) is communicated with first exhalant canal (5), and lower cover second water outlet (12) is communicated with second exhalant canal (6).

3. two-way water outlet water nozzle valve according to claim 2, it is characterized in that, have hot water in the lower cover (27) and enter gutter (13), cold water enters gutter (15), the first water outlet gutter (16) and the second water outlet gutter (14), lower cover hot water inlet (9) enters gutter (13) by hot water and is communicated with the first hot water inlet passage (1) and the second hot water inlet passage (2), lower cover cooling water inlet (10) enters gutter (15) by cold water and is communicated with the first cold water inlet passage (3) and the second cold water inlet passage (4), lower cover first water outlet (11) is communicated with first exhalant canal (5) by the first water outlet gutter (14), and lower cover second water outlet (12) is communicated with second exhalant canal (6) by the second water outlet gutter (16).

4. two-way water outlet water nozzle valve according to claim 2 is characterized in that, the controlling component that upper module (25) connects is rocking bar (20).

5. two-way water outlet water nozzle valve according to claim 4, it is characterized in that, rocking bar (20) is connected with upper module (25) by slide block (24), and the top of slide block (24) has the retainer (22) around rocking bar (20), and slide block (24) and retainer (22) all are positioned at upper shell (23).

6. two-way water outlet water nozzle valve according to claim 5 is characterized in that, the periphery of the cross section of upper module (25), lower module (26), upper shell (23), lower cover (27), slide block (24) and retainer (22) all is circular.

7. two-way water outlet water nozzle valve according to claim 1, it is characterized in that, the cross section of described four intake tunnels all is the ring section of 60-85 degree for radian, and the cross section of first exhalant canal (5) and second exhalant canal (6) all is the ring section of 120-175 degree for radian.