The lifting gear of shower nozzle
Technical field
The utility model relates to a kind of lifting gear, particularly be a kind of lifting gear of using the shower nozzle that hydraulic principle and magnet characteristic realize.
Background technology
Existing shower nozzle all is to hang by a holder that is fixed on the shower wall, and usually in use, the height of its shower nozzle can not be regulated, and the user can only hand so that be adjusted to suitable height.But the fixed bar that adopts vertically to be provided with is also arranged, and shower nozzle can slide up and down to be arranged on the fixed bar, thus, slides up and down shower nozzle to adjust its position.But, no matter be shower nozzle that can slide up and down or fixing, all inconvenient for children or disabled person's use, children can't slide to the position that it need use down with the shower nozzle pulling of a high position.In view of above-mentioned defective, how createing a kind of device that can self-regulating shower nozzle lifting becomes those skilled in the art's pursuing target.
Summary of the invention
The purpose of this utility model is, a kind of lifting gear of shower nozzle is provided, in order to overcome above-mentioned defective.
For achieving the above object, the technical solution adopted in the utility model is, a kind of lifting gear of shower nozzle is provided, and it is connected with a shower nozzle, realizes the adjustment of sprinkler height, and it comprises:
One water pipe, the upper end of described water pipe are provided with a pipe lid;
One Sliding Control assembly, it is arranged at the lower end of described water pipe, and is connected with a water tap;
One sliding socket assembly, it is set on the described water pipe, according to the control bit of described Sliding Control assembly, realizes upwards sliding, to lower slider or inactive state, and wherein said shower nozzle is articulated on the described sliding socket assembly.
Preferable, be provided with an inner tube in the described water pipe, the upper end of water pipe has a pipe lid, and the upper end of inner tube and described water pipe upper end cavity are connected, and the water pipe lower end connects the described Sliding Control assembly that control water flows into the water pipe space outside inner tube and the inner passage respectively.
Preferable, described sliding socket assembly comprises:
One casing assembly, it articulates mutually with described shower nozzle;
One overcoat magnet assemblies, it is arranged in the described casing assembly;
One piston component, it is set in one and is positioned on the inner tube of described water pipe inside, and it comprises: a piston shelf is provided with and the corresponding piston magnet assemblies of described overcoat magnet assemblies in the outer rim of described piston shelf;
Wherein said piston component respectively with the inwall and the inner tube outer wall tight fit of described water pipe.
Preferable, also comprise: at least one group first seal is enclosed within on the described piston shelf, makes described piston component and described pipe inner wall form sealing; At least one group second seal is enclosed within on the described inner tube, and described piston component and described inner tube outer wall form sealing.
Preferable, described Sliding Control assembly comprises: a diffluence room and a water flow control valve, wherein,
Described diffluence room comprises two independent waterways, and one of them only communicates with described inner tube, and another waterway communicates described diffluence room and described pipe inner wall tight fit with water pipe space outside the described inner passage;
Described water flow control valve is a three-position four-way valve, and its delivery port is connected with described two waterways.
Preferable, also comprise: one the 3rd seal is set in described diffluence room outer wall, makes described diffluence room and described water pipe form sealing.
Preferable, a water inlet of described water flow control valve is connected with described water tap, and a delivery port of described water flow control valve is connected with described shower nozzle water inlet by a water pipe.
The beneficial effects of the utility model are compared with the prior art, overcome the existing defective of passing through the adjusting shower nozzle height of artificial mechanism, by the Sliding Control assembly, the water of water tap is sent to the epicoele and the cavity of resorption of water pipe respectively, thereby the piston component that promotes the sliding socket assembly by waterpower moves up and down along water wall, and then the magnet assemblies by the sliding socket assembly drives the water tap that is hung on the sliding socket assembly outer wall and moves up and down, realization utilizes hydraulic pressure to regulate the high and low position of water tap, have environmental protection and energy saving, the practicality height, child, but adult and handicapped person easy adjustment all, the advantage of more reasonable structure.
Description of drawings
Fig. 1 is the user mode stereogram of the lifting gear of the utility model shower nozzle;
Fig. 2 is the sectional drawing of the lifting gear of the utility model shower nozzle;
Fig. 3 is the water pipe top E profile of the lifting gear of the utility model shower nozzle;
Fig. 4 A is first sectional drawing of sliding socket assembly of the lifting gear of the utility model shower nozzle;
Fig. 4 B is second sectional drawing of sliding socket assembly of the lifting gear of the utility model shower nozzle;
Fig. 5 is diffluence room's sectional drawing of the lifting gear of the utility model shower nozzle.
The specific embodiment
Position described in the utility model manual and claim relation " on ", D score, be with the Y direction among Fig. 1 be the position " on " definition, the position relation in other diagram please refer to Fig. 1.
Below in conjunction with accompanying drawing, to this novel above-mentionedly is described in more detail with other technical characterictic and advantage.
See also shown in Figure 1, it is the user mode stereogram of the lifting gear of the utility model shower nozzle, itself and a shower nozzle 1 Joint, lifting gear by the utility model shower nozzle is realized moving up and down of shower nozzle 1, thereby it is highly realized adjusting, the lifting gear of described shower nozzle comprises: a water pipe 2, be provided with a Sliding Control assembly in the lower end of described water pipe, it is connected with a water tap 6 by one first flexible pipe 42, and described Sliding Control assembly is connected with the water inlet of described shower nozzle 1 by second flexible pipe 41 simultaneously; It also comprises: a sliding socket assembly 3, it is set on the described water pipe 2, according to the control bit of described Sliding Control assembly, to realize upwards sliding, to lower slider or inactive state, wherein said shower nozzle 1 is articulated on the outer wall of described sliding socket assembly 3.
See also shown in Figure 2, it is the sectional drawing of the lifting gear of the utility model shower nozzle, and in conjunction with shown in Figure 3, described water pipe 2 upper ends are provided with pipe and cover 22, and get up by the inner wall sealing of a sealing ring 23 with described pipe lid 22 and described water pipe 2, described water pipe 2 inside are provided with inner tube 21, it has certain distance with being divided into two described inner tube 21 upper end mouths of pipe in space and described pipe lid 22 in the described water pipe 2, is convenient to the inflow and the outflow of liquid in the described inner tube 21.Water pipe 2 lower ends connect the Sliding Control assembly that control water flows into the water pipe space outside inner tube and the inner passage respectively.
Please in conjunction with shown in Fig. 4 A and Fig. 4 B, it is disclosed as first, second sectional drawing of sliding socket assembly of the lifting gear of the utility model shower nozzle; Described sliding socket assembly comprises: a casing assembly 31, itself and described shower nozzle 1 Joint; One overcoat magnet assemblies 32, it is arranged on the outer wall that is adjacent to described water pipe 2 in the described casing assembly 31, and with described casing assembly 31 Joints; Be provided with a piston component 33 in described water pipe 2 inside, it is set on the described inner tube 21 that is positioned at described water pipe 2 inside, it comprises: a piston shelf 332, outer rim one side at described piston shelf 332 is provided with and described overcoat magnet assemblies 32 corresponding piston magnet assemblies 331, itself and described overcoat magnet assemblies 32 are passed through magnetic attraction, lifting is to the normal pressure of water pipe 2 walls, thereby produce enough big frictional force, have consistent action in order to guarantee described sliding socket assembly to be in an integral body; It also comprises: two group of first seal cover 333,334 makes described piston component 33 and described water pipe 2 inwalls form sealing on described piston shelf 332, can adopt the seal of many groups in order to guarantee sealing; Comprise also that simultaneously one group of second seal 335 is enclosed within on the described inner tube 21, described piston component 33 forms sealing with described inner tube 21 outer walls.
Described Sliding Control assembly comprises: a diffluence room 52 and a water flow control valve 51, please in conjunction with shown in Figure 5, it is diffluence room's sectional drawing of the lifting gear of the utility model shower nozzle, described diffluence room 52 comprises two independent waterways: first waterway 521 and second waterway 522, wherein said first waterway 521 only communicates with described inner tube 21, described second waterway 522 communicates described diffluence room 52 and described water pipe 2 inwall tight fits with water pipe 2 spaces outward, described inner passage 21;
Described water flow control valve 51 is that (it is existing parts to a three-position four-way valve, those skilled in the art know its structure, therefore just repeated no more here), described " three " are corresponding in fact is exactly three control bits-upwards slide, to lower slider or inactive state, its delivery port of described three-position four-way valve is connected with described two waterways; Also comprise: one the 3rd seal 523 is set on described diffluence room 52 outer walls, makes described diffluence room 52 and described water pipe 2 form sealing.One water inlet of described water flow control valve 51 is connected with described water tap 6 by described first flexible pipe 42, and a delivery port of described water flow control valve 51 is connected with described shower nozzle 1 water inlet by described second flexible pipe 41.
Be described below for the course of work of the present utility model: when described water flow control valve 51 is in first state (Sliding Control position downwards), the described water flow control valve 51 one the first valve port joints communicate with first waterway 521, the second valve port joint communicates with described second waterway 522, water enters the water inlet of described water flow control valve 51 by first flexible pipe 42 from described water tap 6, and enter described first waterway 521 by the described first valve port joint, enter via described inner tube 21 then, be positioned at the water pipe 2 on described sliding socket assembly top, promoting piston component 33 under the effect of hydraulic pressure moves down, make the water that is positioned at described sliding socket assembly bottom in the water pipe 2, discharge enter the water inlet of described shower nozzle 1 by described second flexible pipe 41 by second waterway and water flow control valve 51 after.
When described water flow control valve is in second state (upwards Sliding Control position), the described water flow control valve 51 one the first valve port joints communicate with first waterway 521, the second valve port joint communicates with described second waterway 522, water enters the water inlet of described water flow control valve 51 by described first flexible pipe 42 from described water tap 6, and enter described second waterway 522 by the described second valve port joint, enter the space that described water pipe 2 is positioned at described sliding socket assembly bottom then, promoting piston component 33 under the effect of hydraulic pressure up moves, make the water that is positioned at described sliding socket assembly top in the water pipe 2, discharge enter the water inlet of described shower nozzle 1 by described second flexible pipe 41 by described inner tube 21 and first waterway 521 and water flow control valve 51 after.
Arrive suitable height, the user can make described water flow control valve 51 be in the third state (static control bit), and described first waterway 521 and second waterway 522 all seal, and described piston component 33 stops to move.
When described water flow control valve 51 is in the different conditions position, just can make described piston component 33 make progress, move down or stop, and the piston group of magnets 331 corresponding described overcoat group of magnets 32 on the described piston component 33, form the phase attraction, drive sliding socket assembly and shower nozzle 1 move up and down or stop, thereby realize purpose of design.
More than explanation is novel just illustrative for this; and it is nonrestrictive; those of ordinary skills understand; under the situation of the spirit and scope that do not break away from following claims and limited; can make many modifications; change, or equivalence, but all will fall in the protection domain of the present utility model.