CN104948777A - Adjustable valve controlled in pressing mode - Google Patents

Abstract

The invention discloses an adjustable valve controlled in a pressing mode. The adjustable valve comprises a pressing part, a rotating part, a magnet frame, an annular magnet, a spring, a water sealing piece, a water sealing piece base, an iron core, a water sealing head, a valve element cover, a valve element base, a valve deck, a valve base, a water temperature adjusting knob, a flow adjusting knob, a water temperature adjusting part, a flow adjusting part, an upper water through part, a middle water through part and a lower water through part. When the pressing part is pressed down to move upwards, under the effect of water pressure, the water sealing piece and the water sealing piece base move upwards together, and therefore a water outlet in the valve element base is opened; in the state, the pressing part is pressed to move downwards, under the effect of water pressure, the water sealing piece and the water sealing piece base move downwards together, and therefore the water outlet in the valve element base is closed; when the water temperature adjusting knob is rotated, a water sealing portion enables a first water inlet hole in the upper water through piece to be gradually enlarged and enables a second water inlet hole in the upper water through piece to be gradually reduced; when the flow adjusting knob is rotated, a first water sealing portion and a second water sealing portion enable first water inlet holes and second water inlet holes in the upper and middle water through pieces to be gradually enlarged or reduced.

Description

Push type controls adjustable valve

Technical field

The present invention relates to a kind of valve, particularly a kind of push type controls adjustable valve.

Background technique

CN 202158209 U has disclosed a kind of soft-touch type tap valve core, and CN 102072361 A has disclosed a kind of spool for sanitary equipment.

Summary of the invention

A kind of push type is the object of the present invention is to provide to control adjustable valve, as long as moving up and down of the pressing member on control valve top just can be opened or close outlet valve.

To achieve these goals, push type provided by the invention controls adjustable valve, it is characterized in that: comprise pressing member, rotating component, magnet frame, ring magnet, spring, water sealing slice, water shutoff bar, iron core, water shutoff head, cartridge cover, valve core case, valve gap, valve seat, lower water temperature button, Flow-rate adjustment button, lower water temperature part, Flow-rate adjustment part, upper water flowing part, middle water flowing part, lower water flowing part;

Wherein, described pressing member has guiding convex with guiding tooth, described rotating component has rotate convex and turning gear, described magnet frame has spring positioning part and ring magnet fixed position;

Wherein, described water sealing slice there is connection aperture, described water shutoff bar has control hole; , described valve core case there are water intake, water outlet, water sealing slice position in cored chamber in described cartridge cover;

Wherein, described valve gap has transmission foot groove, pressing piece bores is arranged at top, and internal upper part has rotation tongue, guiding tongue, the first inclined-plane, the second inclined-plane; Described rotation tongue is darker than described guiding tongue, and described rotation is convex can only put into described rotation tongue and can not put into described guiding tongue; Described valve seat there are the first water inlet, the second water inlet, osculum, transmission foot groove;

Wherein, described lower water temperature button there is transmission foot, described Flow-rate adjustment button has transmission foot; Described lower water temperature part there are spool bore, water flowing chamber, water shutoff portion, transmission foot position; Described Flow-rate adjustment part there are spool bore, water-flowing trough, transmission foot position, the first water inlet, the second water inlet, the first water shutoff portion, the second water shutoff portion;

Wherein, described upper water flowing part there are spool bore, the first water inlet, the second water inlet, upper water-flowing trough; Described middle water flowing part there are spool bore, the first water inlet, the second water inlet, middle water-flowing trough; Wherein, described middle water-flowing trough is communicated with described spool bore; Described lower water flowing part there are spool bore, the first water inlet, the second water inlet;

Described lower water flowing part, described middle water flowing part, described Flow-rate adjustment part, described upper water flowing part, described lower water temperature part are arranged in described valve seat successively, the first water inlet in described lower water flowing part, described middle water flowing part, described upper water flowing part is all relative with the first water inlet on described valve seat, and the second water inlet in them is also all relative;

Described water sealing slice is on described water shutoff bar, and described water shutoff head is fixed on the lower end of described iron core, and described ring magnet is in described magnet frame; Described valve core case is on described lower water temperature part, described water sealing slice and described water shutoff bar are on described valve core case, described cartridge cover, on described water sealing slice, wherein makes described water shutoff head towards in the described iron core chamber of the described control hole on described water shutoff bar in described cartridge cover with the described iron core of described water shutoff head; With the described magnet frame of described ring magnet in described cartridge cover and described ring magnet outside described iron core, between described magnet frame and described cartridge cover, have described spring;

One end of described pressing member is stretched out described in described valve upper part of the cover and is pressed piece bores, in the convex described rotation tongue at described valve gap internal upper part of the described guiding on described pressing member, described guiding tongue; Described rotating component is between described pressing member and described magnet frame, and described valve gap is fixed on described valve seat;

Described Flow-rate adjustment button is enclosed within described valve seat, and the described transmission foot on described Flow-rate adjustment button extend on the described transmission foot position on described Flow-rate adjustment part by the described transmission foot groove on described valve seat; Described lower water temperature button is enclosed within described valve gap, and the described transmission foot on described lower water temperature button extend on the described transmission foot position on described lower water temperature part by the described transmission foot groove on described valve gap;

When described pressing member is raised state, in the convex described rotation tongue on described valve gap of described rotation on described rotating component, described pressing member is made to move down in this condition, described pressing member promotes described rotating component and moves down, when moving down into certain position, described rotation is convex skids off described rotation tongue, due to the effect of described spring, described turning gear slides into bottom described first inclined-plane below described guiding tongue along described first inclined-plane along slipping into described first inclined-plane after described guiding tooth rotates a little again; Now described pressing member is lower shifting state;

Described pressing member is moved down again when described pressing member is lower shifting state, due to the effect of described spring, described turning gear slides into bottom described second inclined-plane along described second inclined-plane more finally slip in described rotation tongue along slipping into described second inclined-plane after described guiding tooth rotates a little, thus makes described pressing member moves; Described pressing member is finally made to be raised state;

When there being current to enter, press described pressing member when making described pressing member be raised state, due to the effect of described spring, described magnet frame makes described rotating component and described pressing member move, described ring magnet make described iron core also on move, described water shutoff head leaves the described control hole on described water shutoff bar, thus opens described control hole, under the effect of hydraulic pressure described water sealing slice and described water shutoff bar together on move, thus open the described water outlet on described valve core case;

Press described pressing member in the above-described state when making described pressing member be lower shifting state, described pressing member makes described rotating component and described magnet frame move down, described ring magnet drives described iron core to move down, described water shutoff head moves down the described control hole withstood on described water shutoff bar, under the effect of hydraulic pressure, described water sealing slice and described water shutoff bar together move down, thus close the described water outlet on described valve core case;

When rotating described lower water temperature button, the described transmission foot on described lower water temperature button drives described lower water temperature part to rotate, and described water shutoff portion makes described first water inlet on described upper water flowing part gradually become described greatly the second water inlet gradually to diminish;

When rotating described Flow-rate adjustment button, described transmission foot on described Flow-rate adjustment button drives described Flow-rate adjustment part to rotate, and described first water shutoff portion and described second water shutoff portion make described first water inlet on described upper water flowing part and described middle water flowing part and described second water inlet gradually become large simultaneously or diminish.

The invention has the beneficial effects as follows:

What only need the pressing member on control valve top gently moves up and down the unlatching or closedown that just can control outlet valve.

Accompanying drawing explanation

Fig. 1 is pressing member schematic diagram of the present invention.

Fig. 2 is rotating component schematic diagram of the present invention.

Fig. 3 is magnet frame schematic diagram of the present invention.

Fig. 4 is ring magnet schematic diagram of the present invention.

Fig. 5 is spring schematic diagram of the present invention.

Fig. 6 is water shutoff spring schematic diagram of the present invention.

Fig. 7 (a) is water sealing slice schematic diagram of the present invention.

Fig. 7 (b) is water sealing slice generalized section of the present invention.

Fig. 8 (a) is water shutoff bar schematic diagram of the present invention.

Fig. 8 (b) is water shutoff bar generalized section of the present invention.

Fig. 9 is lower water temperature lid schematic diagram of the present invention.

Figure 10 is lower water temperature button schematic diagram of the present invention.

Figure 11 (a) is cartridge cover schematic diagram of the present invention.

Figure 11 (b) is cartridge cover generalized section of the present invention.

Figure 12 (a) is valve core case schematic diagram of the present invention.

Figure 12 (b) is valve core case generalized section of the present invention.

Figure 13 (a) is valve gap schematic diagram of the present invention.

Figure 13 (b) is valve gap generalized section of the present invention.

Figure 14 (a) is that valve seat of the present invention is bowed schematic side view.

Figure 14 (b) is that valve seat of the present invention faces upward schematic side view.

Figure 15 is energizing spring schematic diagram of the present invention.

Figure 16 is iron core schematic diagram of the present invention.

Figure 17 is water shutoff head schematic diagram of the present invention.

Figure 18 is Flow-rate adjustment button schematic diagram of the present invention.

Figure 19 (a) is lower water temperature part front schematic view of the present invention.

Figure 19 (b) is lower water temperature part reverse side schematic diagram of the present invention.

Figure 20 is Flow-rate adjustment part schematic diagram of the present invention.

Figure 21 is upper water flowing part schematic diagram of the present invention.

Figure 22 (a) is middle water flowing part front schematic view of the present invention.

Figure 22 (b) is middle water flowing part reverse side schematic diagram of the present invention.

Figure 23 is lower water flowing part schematic diagram of the present invention.

Figure 24 is the generalized section of the present invention under valve port open mode.

Figure 25 is the generalized section of the present invention under valve port closed condition.

Embodiment

Consult Fig. 1, pressing member 1 has guiding convex 2 and guiding tooth 3;

Consult Fig. 2, rotating component 4 has and rotates convex 5 and turning gear 6;

Consult Fig. 3, magnet frame 7 has spring positioning part 8 and ring magnet fixed position 9;

Consult Fig. 7 (a), Fig. 7 (b), water sealing slice 13 has and is communicated with aperture 14;

Consult Fig. 8 (a), Fig. 8 (b), water shutoff bar 15 has control hole 16, water port 17;

Consult Fig. 9, lower water temperature lid 18 has transmission convex 19;

Consult Figure 10, lower water temperature button 20 has transmission foot 21, driving convex position 22;

Consult Figure 11 (a), Figure 11 (b), cored chamber 24 in cartridge cover 23;

Consult Figure 12 (a), Figure 12 (b), valve core case 25 has water intake 26, water outlet 27, water sealing slice position 28;

Consult Figure 13 (a), Figure 13 (b), valve gap 29 has transmission foot groove 30, pressing piece bores 31 is arranged at top, and internal upper part has rotation tongue 32, guiding inclined-plane 35, tongue 33, first inclined-plane 34, second; Rotate tongue 32 darker than guiding tongue 33, rotate convex 5 and can only put into rotation tongue 32 and guiding tongue 33 can not be put into;

Consult Figure 14 (a), Figure 14 (b), valve seat 36 has water inlet 39, transmission foot groove 37, first water inlet 38, second, osculum 40;

Consult Figure 18, Flow-rate adjustment button 44 has transmission foot 45;

Consult Figure 19 (a), Figure 19 (b), lower water temperature part 46 has spool bore 47, water flowing chamber 48, water shutoff portion 49, transmission foot position 50;

Consult Figure 20, Flow-rate adjustment part 51 has spool bore 47, water-flowing trough 52, water shutoff portion 55 of water shutoff portion 54, second, water inlet 39, first, water inlet 38, second, transmission foot position 53, first;

Consult Figure 21, upper water flowing part 56 has water inlet 39, spool bore 47, first water inlet 38, second, upper water-flowing trough 57;

Consult Figure 22 (a), Figure 22 (b), middle water flowing part 58 has water inlet 39, spool bore 47, first water inlet 38, second, middle water-flowing trough 59; Wherein, middle water-flowing trough 59 is communicated with spool bore 47;

Consult Figure 23, lower water flowing part 60 has water inlet 39, spool bore 47, first water inlet 38, second;

Consult Figure 14 (a), Figure 14 (b), Figure 19 (a) is to Figure 25, lower water flowing part 60, middle water flowing part 58, Flow-rate adjustment part 51, upper water flowing part 56, lower water temperature part 46 are arranged in valve seat 36 successively, the first water inlet 38 in lower water flowing part 60, middle water flowing part 58, upper water flowing part 56 is all relative with the first water inlet 38 on valve seat 36, and the second water inlet 39 in them is also all relative;

Consult Fig. 3 to Fig. 8 (b), Figure 11 (a) is to Figure 12 (b), Figure 15 to Figure 17, Figure 25, water sealing slice 13 is on water shutoff bar 15, and water shutoff 43 is fixed on the lower end of iron core 42, and ring magnet 10 is on the ring magnet fixed position 9 of magnet frame 7; Valve core case 25 is on lower water temperature part 46, water sealing slice 13 and water shutoff bar 15 are on the water sealing slice position 28 of valve core case 25, cartridge cover 23 is on water sealing slice 13, wherein make water shutoff 43 towards in the iron core chamber 24 of the control hole 16 on water shutoff bar 15 in cartridge cover 23 with the iron core 42 of water shutoff 43, and energizing spring 41 is had between iron core 42 and top, iron core chamber 24, between water shutoff bar 15 and cartridge cover 23, there is water shutoff spring 12; With the magnet frame 7 of ring magnet 10 in cartridge cover 23 and ring magnet 10 outside iron core 42, between magnet frame 7 and cartridge cover 23, have spring 11;

Consult Fig. 1, Fig. 2, Fig. 3, Figure 13 (a) to Figure 14 (b), the pressing piece bores 31 on valve gap 29 top is stretched out in one end of pressing member 1, and the guiding on pressing member 1 convex 2 is in the rotation tongue 32 and guiding tongue 33 of valve gap 29 internal upper part; Rotating component 4 is between pressing member 1 and magnet frame 7, and valve gap 29 is fixed on valve seat 36;

Consult Fig. 9, Figure 10, Figure 13 (a) to, 14 (a), Figure 18,19 (a), Figure 20, Figure 25, Flow-rate adjustment button 44 is enclosed within valve seat 36, and the transmission foot 45 on Flow-rate adjustment button 44 extend on the transmission foot position 53 on Flow-rate adjustment part 51 by the transmission foot groove 37 on valve seat 36; Lower water temperature button 20 is enclosed within valve gap 29, transmission foot 21 on lower water temperature button 20 extend on the transmission foot position 50 on lower water temperature part 46 by the transmission foot groove 30 on valve gap 29, lower water temperature lid 18 on lower water temperature button 20, on the driving convex position 22 of the transmission on lower water temperature lid 18 convex 19 on lower water temperature button 20.

The structure of pressing member 1, rotating component 4, valve gap 29 internal upper part is exactly the structure of the sliding bouncing type pen core that we often use at ordinary times in fact, is early known technology, to make brief of the introduction their working procedure below in conjunction with accompanying drawing;

Consult Fig. 1, Fig. 2, Figure 13 (a), Figure 13 (b), when pressing member 1 is in raised state, in the rotation tongue 32 of rotation on rotating component 4 convex 5 on valve gap 29, pressing member 1 is made to move down in the above-described state, pressing member 1 promotes rotating component 4 and moves down, rotate convex 5 when moving down into certain position and skid off rotation tongue 32, due to the effect of spring 11, turning gear 6 slides into bottom the first inclined-plane 34 of leading below tongue 33 along slipping into the first inclined-plane 34 after guiding tooth 3 rotates a little again along the first inclined-plane 34; Now pressing member 1 is in lower shifting state; Pressing member 1 is moved down again when above-mentioned state, due to the effect of spring 11, turning gear 6 slides into along the second inclined-plane 35 more finally to slip in rotation tongue 32 bottom the second inclined-plane 35 along slipping into the second inclined-plane 35 after guiding tooth 3 rotates a little, thus make pressing member 1 moves, pressing member 1 is in raised state;

The structure of water sealing slice 13, water shutoff bar 15, iron core 42, water shutoff 43 is exactly similar with the valve core structure in existing solenoid valve in fact, and its opening and closing principle is early known technology, to make brief of the introduction their working procedure below in conjunction with accompanying drawing;

Consult Fig. 3 to Fig. 8 (b), Figure 11 (a) is to Figure 12 (b), Figure 15 to Figure 17, Figure 24, Figure 25, when there being current to enter, press lower water temperature lid 18, when making pressing member 1 in raised state, due to the effect of spring 11, magnet frame 7 and rotating component 4 and pressing member 1 all on move, ring magnet 10 also on move, ring magnet 10 make iron core 42 also on move, the control hole 16 on water shutoff bar 15 is left in water shutoff 43, thus open control hole 16, water sealing slice 13 and water shutoff bar 15 1 is the same moves under the effect of hydraulic pressure, thus the water outlet 27 opened on valve core case 25, press lower water temperature lid 18 in the above-described state, when making pressing member 1 in lower shifting state, pressing member 1 makes rotating component 4 and magnet frame 7 move down, ring magnet 10 drives iron core 42 to move down, water shutoff 43 moves down the control hole 16 withstood on water shutoff bar 15, under the effect of hydraulic pressure, water sealing slice 13 and water shutoff bar 15 together move down, thus close the water outlet 27 on valve core case 25,

Consult Fig. 9, Figure 10, Figure 18 to Figure 23, when rotating lower water temperature lid 18, transmission convex 19 drives lower water temperature button 20 to rotate, transmission foot 21 on lower water temperature button 20 drives lower water temperature part 46 to rotate, and water shutoff portion 49 makes the first water inlet 38 on water flowing part 56 gradually become large second water inlet 39 gradually to diminish;

When rotation flow adjusting knob 44, transmission foot 45 on Flow-rate adjustment button 44 drives Flow-rate adjustment part 51 to rotate, and the first water shutoff portion 54 and the second water shutoff portion 55 make water flowing part 56 gradually become large with the first water inlet 38 on middle water flowing part 58 and the second water inlet 39 simultaneously or diminish.

Claims (1)

1. push type controls an adjustable valve, it is characterized in that: comprise pressing member, rotating component, magnet frame, ring magnet, spring, water sealing slice, water shutoff bar, iron core, water shutoff head, cartridge cover, valve core case, valve gap, valve seat, lower water temperature button, Flow-rate adjustment button, lower water temperature part, Flow-rate adjustment part, upper water flowing part, middle water flowing part, lower water flowing part;

Wherein, described pressing member has guiding convex with guiding tooth, described rotating component has rotate convex and turning gear, described magnet frame has spring positioning part and ring magnet fixed position;

Wherein, described water sealing slice there is connection aperture, described water shutoff bar has control hole; , described valve core case there are water intake, water outlet, water sealing slice position in cored chamber in described cartridge cover;

Wherein, described valve gap has transmission foot groove, pressing piece bores is arranged at top, and internal upper part has rotation tongue, guiding tongue, the first inclined-plane, the second inclined-plane; Described rotation tongue is darker than described guiding tongue, and described rotation is convex can only put into described rotation tongue and can not put into described guiding tongue; Described valve seat there are the first water inlet, the second water inlet, osculum, transmission foot groove;

Wherein, described lower water temperature button there is transmission foot, described Flow-rate adjustment button has transmission foot; Described lower water temperature part there are spool bore, water flowing chamber, water shutoff portion, transmission foot position; Described Flow-rate adjustment part there are spool bore, water-flowing trough, transmission foot position, the first water inlet, the second water inlet, the first water shutoff portion, the second water shutoff portion;

Wherein, described upper water flowing part there are spool bore, the first water inlet, the second water inlet, upper water-flowing trough; Described middle water flowing part there are spool bore, the first water inlet, the second water inlet, middle water-flowing trough; Wherein, described middle water-flowing trough is communicated with described spool bore; Described lower water flowing part there are spool bore, the first water inlet, the second water inlet;

Described lower water flowing part, described middle water flowing part, described Flow-rate adjustment part, described upper water flowing part, described lower water temperature part are arranged in described valve seat successively, the first water inlet in described lower water flowing part, described middle water flowing part, described upper water flowing part is all relative with the first water inlet on described valve seat, and the second water inlet in them is also all relative;

Described water sealing slice is on described water shutoff bar, and described water shutoff head is fixed on the lower end of described iron core, and described ring magnet is in described magnet frame; Described valve core case is on described lower water temperature part, described water sealing slice and described water shutoff bar are on described valve core case, described cartridge cover, on described water sealing slice, wherein makes described water shutoff head towards in the described iron core chamber of the described control hole on described water shutoff bar in described cartridge cover with the described iron core of described water shutoff head; With the described magnet frame of described ring magnet in described cartridge cover and described ring magnet outside described iron core, between described magnet frame and described cartridge cover, have described spring;

One end of described pressing member is stretched out described in described valve upper part of the cover and is pressed piece bores, in the convex described rotation tongue at described valve gap internal upper part of the described guiding on described pressing member, described guiding tongue; Described rotating component is between described pressing member and described magnet frame, and described valve gap is fixed on described valve seat;

Described Flow-rate adjustment button is enclosed within described valve seat, and the described transmission foot on described Flow-rate adjustment button extend on the described transmission foot position on described Flow-rate adjustment part by the described transmission foot groove on described valve seat; Described lower water temperature button is enclosed within described valve gap, and the described transmission foot on described lower water temperature button extend on the described transmission foot position on described lower water temperature part by the described transmission foot groove on described valve gap;

When described pressing member is raised state, in the convex described rotation tongue on described valve gap of described rotation on described rotating component, described pressing member is made to move down in this condition, described pressing member promotes described rotating component and moves down, when moving down into certain position, described rotation is convex skids off described rotation tongue, due to the effect of described spring, described turning gear slides into bottom described first inclined-plane below described guiding tongue along described first inclined-plane along slipping into described first inclined-plane after described guiding tooth rotates a little again; Now described pressing member is lower shifting state;

Described pressing member is moved down again when described pressing member is lower shifting state, due to the effect of described spring, described turning gear slides into bottom described second inclined-plane along described second inclined-plane more finally slip in described rotation tongue along slipping into described second inclined-plane after described guiding tooth rotates a little, thus makes described pressing member moves; Described pressing member is finally made to be raised state;

When there being current to enter, press described pressing member when making described pressing member be raised state, due to the effect of described spring, described magnet frame makes described rotating component and described pressing member move, described ring magnet make described iron core also on move, described water shutoff head leaves the described control hole on described water shutoff bar, thus opens described control hole, under the effect of hydraulic pressure described water sealing slice and described water shutoff bar together on move, thus open the described water outlet on described valve core case;

Press described pressing member in the above-described state when making described pressing member be lower shifting state, described pressing member makes described rotating component and described magnet frame move down, described ring magnet drives described iron core to move down, described water shutoff head moves down the described control hole withstood on described water shutoff bar, under the effect of hydraulic pressure, described water sealing slice and described water shutoff bar together move down, thus close the described water outlet on described valve core case;

When rotating described lower water temperature button, the described transmission foot on described lower water temperature button drives described lower water temperature part to rotate, and described water shutoff portion makes described first water inlet on described upper water flowing part gradually become described greatly the second water inlet gradually to diminish;

When rotating described Flow-rate adjustment button, described transmission foot on described Flow-rate adjustment button drives described Flow-rate adjustment part to rotate, and described first water shutoff portion and described second water shutoff portion make described first water inlet on described upper water flowing part and described middle water flowing part and described second water inlet gradually become large simultaneously or diminish.