The multichannel water treatment valve of four spools
(1) technical field: the utility model relates to the parts of water treatment apparatus; Be specifically related to a kind of multichannel water treatment valve of four spools.
(2) background technique: at present, the multichannel water treatment valve of state, inside and outside existing technology, its structure is in valve body, to be provided with single spool to turn to control water treatment work.Because described single spool water treatment valve work output water flow is less than normal, is difficult to satisfy the water demand of enterprise.Two or more sets water treatment apparatus that normally adopt single spool water treatment valve to connect the water treatment tank formation carry out work simultaneously, remedy the deficiency of water treatment output flow.The connection of said two or more sets water treatment apparatus is used, and has increased the cost of production of enterprise significantly.
(3) summary of the invention: to the deficiency that above-mentioned existing technology exists, the purpose of the utility model is to provide a kind of multichannel water treatment valve of four spools, is intended to increase the output flow and the cost of production that reduces enterprise of water treatment.
For realizing above-mentioned purpose, the technological scheme of the multichannel water treatment valve of the utility model four spools is achieved in that it is on valve body, to distribute to be connected with first, second, third, fourth spool chamber; In described spool chamber, be rotatably connected with spool respectively; Corresponding end face water flow passage hole with the spool chamber bottom, the bottom end face water flow passage hole of said spool turns to and is communicated with; On said valve body, being provided with the water hole correspondence is communicated with the body cavity water flow passage.
When implementing technique scheme, the water inlet of the said valve body of the utility model is communicated with the end face water inlet flow channel hole of first, second, third, fourth spool chamber bottom respectively through body cavity water inlet flow channel hole; The limber hole of said valve body is communicated with the end face sewer runner hole of first, second, third, fourth spool chamber bottom respectively through body cavity sewer runner hole; The osculum of said valve body is communicated with the end face osculum of the 3rd, the 4th spool chamber bottom respectively; The corresponding upper and lower water distributing pore of end face with the spool chamber bottom of the upper and lower water distributing pore of said valve body is communicated with.
The utility model is through taking said structure, in valve body first, the 3rd and second, the 4th spool chamber, is connected with spool and constituted two groups of water treatment apparatus and carry out work simultaneously, increased the output flow of water treatment effectively.Be connected use by two groups of water treatment apparatus and the multichannel water treatment valve that fuses with single tank body, compare, reduced the cost of production of enterprise significantly with existing technology.
(4) description of drawings:
Fig. 1 is first kind of embodiment's of the utility model a plan view;
Fig. 2 be among the utility model Fig. 1 A-A to echelon sectional view;
Fig. 3 be among the utility model Fig. 1 B-B to echelon sectional view;
Fig. 4 be among the utility model Fig. 3 C-C to the sectional view in spool end water flow passage hole;
Fig. 5 is the view that valve body is removed four spools among the utility model Fig. 1;
Fig. 6 be among the utility model Fig. 3 D-D to the sectional view of body cavity water flow passage;
Fig. 7 be among the utility model Fig. 3 E-E to the sectional view of body cavity water flow passage;
Fig. 8 descends the valve body F-F sectional view of water distributing pore up and down among the utility model Fig. 3;
Fig. 9 is second kind of embodiment's of the utility model a plan view;
Figure 10 be among the utility model Fig. 9 A1-A1 to echelon sectional view;
Figure 11 be among the utility model Fig. 9 B1-B1 to echelon sectional view;
Figure 12 be among the utility model Figure 11 C1-C1 to the sectional view in spool end water flow passage hole;
Figure 13 is the view that valve body is removed four spools among the utility model Fig. 9;
Figure 14 be among the utility model Figure 11 D1-D1 to the sectional view of body cavity water flow passage;
Figure 15 be among the utility model Figure 11 E1-E1 to the sectional view of body cavity water flow passage;
Figure 16 be among the utility model Figure 11 F1-F1 to the sectional view of body cavity water flow passage;
Figure 17 descends the valve body G1-G1 sectional view of water distributing pore up and down among the utility model Figure 11;
Figure 18 is the third embodiment's of the utility model a plan view;
Figure 19 be among the utility model Figure 18 A2-A2 to echelon sectional view;
Figure 20 be among the utility model Figure 18 B2-B2 to echelon sectional view;
Figure 21 be among the utility model Figure 20 C2-C2 to the sectional view in spool end water flow passage hole;
Figure 22 is the view that valve body is removed four spools among the utility model Figure 18;
Figure 23 be among the utility model Figure 20 D2-D2 to the sectional view of body cavity water flow passage;
Figure 24 be among the utility model Figure 20 E2-E2 to the sectional view of body cavity water flow passage;
Figure 25 be among the utility model Figure 20 F2-F2 to the sectional view of body cavity water flow passage;
Figure 26 descends the valve body G2-G2 sectional view of water distributing pore up and down in the utility model 20;
Figure 27 is the 4th kind of embodiment's of the utility model a plan view;
Figure 28 be among the utility model Figure 27 A3-A3 to echelon sectional view;
Figure 29 be among the utility model Figure 27 B3-B3 to echelon sectional view;
Figure 30 be among the utility model Figure 29 C3-C3 to the sectional view in spool end water flow passage hole;
Figure 31 is the view that valve body is removed four spools among the utility model Figure 27;
Figure 32 be among the utility model Figure 29 D3-D3 to the sectional view of body cavity water flow passage;
Figure 33 be among the utility model Figure 29 E3-E3 to the sectional view of body cavity water flow passage;
Figure 34 be among the utility model Figure 29 F3-F3 to the sectional view of body cavity water flow passage;
Figure 35 descends the valve body G3-G3 sectional view of water distributing pore up and down among the utility model Figure 29;
Figure 36 is the 5th kind of embodiment's of the utility model a sectional view;
Figure 37 descends the valve A 4-A4 sectional view of water distributing pore up and down among the utility model Figure 36;
Figure 38 is that the utility model Fig. 1 installs the working state schematic representation that is connected with water treatment tank.
(5) embodiment: embodiment one, Fig. 1-shown in Figure 8.The multichannel water treatment valve of this four spools, it is on valve body, to distribute to be connected with first, second, third, fourth spool chamber 8,9,10,11; In described spool chamber, be rotatably connected with spool respectively; Corresponding end face water flow passage hole with the spool chamber bottom, the bottom end face water flow passage hole of said spool turns to and is communicated with (Fig. 2-shown in Figure 5).On said valve body, be provided with the water hole correspondence and be communicated with the body cavity water flow passage, as: the water inlet 1 of said valve body is communicated with (Fig. 2-shown in Figure 7) with the end face water inlet flow channel hole 1-1 of first, second, third, fourth spool chamber, 8,9,10,11 bottoms respectively through body cavity water inlet flow channel hole 1-1; The limber hole 3 of said valve body is communicated with (Fig. 4-shown in Figure 7) with the end face sewer runner hole 3-1 of first, second, third, fourth spool chamber, 8,9,10,11 bottoms respectively through body cavity sewer runner hole 3-1; The osculum 2 of said valve body is communicated with (Fig. 2-shown in Figure 7) with the end face osculum 2 of the 3rd, the 4th spool chamber 10,11 bottoms respectively.The upper and lower water distributing pore of end face bottom the corresponding and said spool chambers of the upper and lower water distributing pore 4,5 of said valve body is communicated with, as: on the following valve body of said valve body on the end face of water distributing pore 4 and first, second spool chamber 8,9 bottoms water distributing pore 4 be communicated with; Water distributing pore 5 is communicated with (Fig. 2-shown in Figure 8) under the following water distributing pore 5 and the 3rd of said valve body down, the end face of the 4th spool chamber 10,11 bottoms.Constituted multichannel water treatment filter tap.
Embodiment two, Fig. 9-shown in Figure 17.Present embodiment and embodiment's one something in common repeat no more.Its difference is: on said valve body, be provided with the left and right water hole 6,7 of salt valve; Said left water hole 6 is communicated with the water hole 6, an end face left side of first, second spool chamber 8,9 bottoms, and said right water hole 7 is communicated with (Figure 10-shown in Figure 15) with the right water hole 7 of the end face of the 3rd, the 4th spool chamber 10,11 bottoms.Constituted multichannel water treatment counter-current regeneration softener valve.
Embodiment three, Figure 18-shown in Figure 26.Present embodiment repeats no more with embodiment's two identical parts.Its difference is: replace the spool in said four spool chambers, end face water flow passage hole bottom corresponding and said four spool chambers in end face water flow passage hole of its spool bottom is turned to be communicated with
(Figure 21, shown in Figure 22).Constituted multichannel water treatment co-current regeneration softener valve.
Embodiment four, Figure 27-shown in Figure 35.Present embodiment and embodiment's one something in common repeat no more.Its difference is: replace the spool in said four spool chambers, end face water flow passage hole bottom corresponding and said four spool chambers in end face water flow passage hole of its spool bottom is turned to be communicated with (Figure 30, shown in Figure 31).On said valve body, be provided with the left and right water hole 6,7 of salt valve, said left water hole 6 is communicated with the water hole 6, an end face left side of first, second spool chamber 8,9 bottoms, and said right water hole 7 is communicated with the right water hole 7 of the end face of the 3rd, the 4th spool chamber 10,11 bottoms.The following valve body dextrorotation turnback (shown in Figure 35) of valve body installed with valve body is connected, make that water distributing pore 4 is communicated with on the end face of last water distributing pore 4 and the 3rd, the 4th spool chamber 10,11 bottoms of said time valve body; Water distributing pore 5 is communicated with (Figure 28-shown in Figure 35) under the following water distributing pore 5 of said down valve body and the end face of first, second spool chamber 8,9 bottoms.Constituted multichannel water treatment floating bed softener valve.
The utility model is according to being installed in different height position on the water treatment tank, and described upward water distributing pore 4 can be located at the bottom (Fig. 1-shown in Figure 35) of valve body with following water distributing pore 5 or be located at a side (Figure 36, shown in Figure 37) of valve body bottom.
During work (Fig. 1-Fig. 8, shown in Figure 38); The utility model is installed with single water treatment tank body 15 and is connected; When the pending water of the big flow in the external world water inlet 1 through valve body through body cavity water inlet flow channel hole 1-1 (among Figure 38 shown in the direction of arrow); Get into the end face water inlet flow channel hole 1-1 of first, second spool chamber 8,9 bottoms respectively; Get into water distributing pore 4 on the end face of first, second spool chamber 8,9 bottoms through the end face water inlet flow channel hole of spool bottom respectively, get in the tank body that is equipped with silica sand from upper water distributor 12 and carry out filtration, purification.Big flow after the filtration is purified waste water through lower water-dispensing device 14, center tube 13, following water distributing pore 5, and the end face osculum through the spool bottom gets into the end face osculum 2 of the 3rd, the 4th spool chamber 10,11 bottoms respectively, from the osculum 2 of valve body, discharges.In valve body first, the 3rd and second, the 4th spool chamber, be connected with spool and constituted two groups of water treatment apparatus and carry out work simultaneously, increased the output of water treatment flow effectively.
The above only is the preferred implementation of the utility model.Be noted that for those of ordinary skill in the art under the prerequisite that does not break away from the principle of the invention; Need not other technical characteristics that the process creative work just can be associated; Can also make the modification or the improvement of some kinds of basic identical modes; Realize essentially identical function and produce essentially identical effect, these variations should be regarded as equivalent feature, all belong within the protection domain of the utility model patent.