CN111255702A - Double-water-flow-control water flow supercharging device - Google Patents

Abstract

The invention discloses a double-water-flow-control water flow supercharging device which comprises a main body shell. The double-water-flow double-pressure-difference double-flow hydraulic control device can realize double-water-flow guiding and guide under the action of the same negative pressure, so that double water flows can realize the pressurization effect in a controllable proportion mode within a control range, and can control the proportion mixing between the two water flows when double water flow pressurization is carried out.

Description

Double-water-flow-control water flow supercharging device

Technical Field

The invention relates to the technical field of supercharging devices, in particular to a double-water-flow-control type water flow supercharging device.

Background

At present, in some places, because liquid pressure is not enough, a pressurizing device is needed, and the traditional pressurizing device cannot pressurize liquid flowing in two directions under the same air pressure, so that the speed of single water flow is too high.

Disclosure of Invention

The invention aims to provide a double-water-flow-control type water flow supercharging device to solve the problems in the background technology.

In order to achieve the purpose, the invention provides the following technical scheme: a double-water-control-flow type water flow supercharging device comprises a main body shell, wherein an integrated turbine shell is arranged at the center of one side of the main body shell, two opposite main liquid inlet pipelines are arranged on the other side of the main body shell, the two main liquid inlet pipelines are arranged inside two screw thread screwing caps, a screwing space is arranged at the center of the screw thread screwing cap, a limiting plate structure is arranged at one end of each main liquid inlet pipeline inside the screwing space, a main internal thread structure is arranged on the inner wall of the screwing space, main first liquid through holes are arranged inside the main body shell and the main liquid inlet pipelines, the bottoms of the two main first liquid through holes are communicated through main second liquid through holes, a main part mounting space is arranged at the center inside the main body shell, an auxiliary part mounting space is arranged at the top of the main part mounting space, a worm and a screw thread structure combined type bidirectional synchronous adjusting mechanism are arranged inside the main part mounting space and the auxiliary part mounting space, valve rod moving holes are formed in the middle of the two main first liquid through holes, a valve rod is mounted inside the two valve rod moving holes, a main third liquid through hole is formed in the center of the bottom of the main second liquid through hole, a turbine mounting space is formed in the bottom of the main third liquid through hole, a main rotating shaft is mounted at the center of the turbine shell, a turbine is mounted on a shaft body of the main rotating shaft, a main fourth liquid through hole is formed in the bottom of the turbine mounting space, a liquid reserving space is formed in the bottom of the main fourth liquid through hole, a spiral spring contact type maximum hydraulic pressure difference control mechanism mounting hole communicated with the outside is formed in the side face of the liquid reserving space, a spiral spring contact type maximum hydraulic pressure difference control mechanism is mounted inside the spiral spring contact type maximum hydraulic pressure difference control mechanism mounting hole, and a main liquid discharging hole is formed in the center of the liquid reserving space, and a threaded structure screwing type water flow control mechanism is arranged at the position of the main drainage hole.

Further, the thread structure screwing type water flow control mechanism comprises a shell for the thread structure screwing type water flow control mechanism, a central hole for the thread structure screwing type water flow control mechanism, a valve rod inserting hole for the thread structure screwing type water flow control mechanism, a moving space for the thread structure screwing type water flow control mechanism, a moving plate for the thread structure screwing type water flow control mechanism, a valve rod for the thread structure screwing type water flow control mechanism, a bearing for the thread structure screwing type water flow control mechanism, a threaded rod for the thread structure screwing type water flow control mechanism, a thread structure for the thread structure screwing type water flow control mechanism and a rotating plate for the thread structure screwing type water flow control mechanism; the threaded structure screwing type water flow control mechanism is characterized in that a center hole for the threaded structure screwing type water flow control mechanism is formed in the center of the center hole for the threaded structure screwing type water flow control mechanism, a valve rod inserting hole for the threaded structure screwing type water flow control mechanism is formed in the center of the center hole for the threaded structure screwing type water flow control mechanism, a moving space for the threaded structure screwing type water flow control mechanism is formed in the top of the valve rod inserting hole for the threaded structure screwing type water flow control mechanism, a moving plate for the threaded structure screwing type water flow control mechanism is arranged in the moving space for the threaded structure screwing type water flow control mechanism, a valve rod for the threaded structure screwing type water flow control mechanism is arranged in the valve rod inserting hole for the threaded structure screwing type water flow control mechanism, and the top of the valve rod for the threaded structure screwing type water flow control mechanism is arranged in the screwing type water flow The threaded structure screwing type water flow control mechanism is characterized in that a threaded structure screwing type water flow control mechanism threaded rod is mounted at the center of the bottom of a movable plate, the center of the upper surface of the movable plate for the threaded structure screwing type water flow control mechanism is mounted on a bearing for the threaded structure screwing type water flow control mechanism through a threaded structure, the rod body of the threaded structure screwing type water flow control mechanism threaded rod is mounted at the center of the top of a threaded structure screwing type water flow control mechanism shell through a threaded structure for the threaded structure screwing type water flow control mechanism, and a threaded structure screwing type water flow control mechanism rotating plate is mounted at the top end of the threaded rod for the threaded structure screwing.

Furthermore, the thread structure for the thread structure screwing type water flow control mechanism comprises an external thread structure arranged on a threaded rod body for the thread structure screwing type water flow control mechanism and an internal thread structure arranged on the inner wall of a shell for the structure moving screwing type liquid flow control mechanism.

Furthermore, the shell for the thread structure screwing type water flow control mechanism is arranged at the position of the shell of the main drainage hole, and the central hole for the thread structure screwing type water flow control mechanism is communicated with the main drainage hole.

Further, the coil spring contact type maximum hydraulic pressure difference control mechanism comprises a hollow shell for the coil spring contact type maximum hydraulic pressure difference control mechanism, a hollow sealing ring for the coil spring contact type maximum hydraulic pressure difference control mechanism, a hollow structure for the coil spring contact type maximum hydraulic pressure difference control mechanism, a liquid discharge hole for the coil spring contact type maximum hydraulic pressure difference control mechanism, a valve plate insertion space for the coil spring contact type maximum hydraulic pressure difference control mechanism, a liquid inlet hole for the coil spring contact type maximum hydraulic pressure difference control mechanism, a moving plate for the coil spring contact type maximum hydraulic pressure difference control mechanism, a valve plate for the coil spring contact type maximum hydraulic pressure difference control mechanism, a liquid through hole for the coil spring contact type maximum hydraulic pressure difference control mechanism and a coil spring for the coil spring contact type maximum hydraulic pressure difference control mechanism; the side surface of the hollow shell for the spiral spring contact type maximum hydraulic pressure difference control mechanism is sleeved with a spiral spring contact type hollow sealing ring for the maximum hydraulic pressure difference control mechanism, the center inside the hollow shell for the spiral spring contact type maximum hydraulic pressure difference control mechanism is provided with a hollow structure for the spiral spring contact type maximum hydraulic pressure difference control mechanism, one side of the hollow shell for the spiral spring contact type maximum hydraulic pressure difference control mechanism, which is positioned in the hollow structure for the spiral spring contact type maximum hydraulic pressure difference control mechanism, is provided with a liquid discharge hole for the spiral spring contact type maximum hydraulic pressure difference control mechanism, one end of the liquid discharge hole for the spiral spring contact type maximum hydraulic pressure difference control mechanism is communicated with one end of the hollow shell for the spiral spring contact type maximum hydraulic pressure difference control mechanism, and the other side of the hollow shell for the spiral spring contact type maximum hydraulic pressure difference control mechanism is provided with a liquid discharge hole The coil spring contact type maximum hydraulic pressure difference control mechanism comprises a coil spring contact type maximum hydraulic pressure difference control mechanism and a coil spring contact type maximum hydraulic pressure difference control mechanism, wherein a valve plate insertion space for the coil spring contact type maximum hydraulic pressure difference control mechanism is arranged at one side of the valve plate insertion space for the coil spring contact type maximum hydraulic pressure difference control mechanism, a liquid inlet hole for the coil spring contact type maximum hydraulic pressure difference control mechanism is formed in a hollow shell for the coil spring contact type maximum hydraulic pressure difference control mechanism, the liquid inlet hole for the coil spring contact type maximum hydraulic pressure difference control mechanism is communicated with the other side of the hollow shell for the coil spring contact type maximum hydraulic pressure difference control mechanism, a movable plate for the coil spring contact type maximum hydraulic pressure difference control mechanism is arranged in the center of the end face, located at one side of the valve plate insertion space for the coil spring contact type maximum hydraulic pressure difference control mechanism, of the hollow shell for the coil spring contact type maximum hydraulic pressure difference control mechanism, and a movable plate for the coil spring contact type maximum The valve plate for the spiral spring contact type maximum hydraulic pressure difference control mechanism is of an integrated structure with the valve plate, a liquid through hole for the spiral spring contact type maximum hydraulic pressure difference control mechanism is formed in the side face of the movable plate for the spiral spring contact type maximum hydraulic pressure difference control mechanism and is communicated with two end faces of the movable plate, and a spiral spring for the spiral spring contact type maximum hydraulic pressure difference control mechanism is installed on the other end face of the movable plate for the spiral spring contact type maximum hydraulic pressure difference control mechanism.

Furthermore, the hollow liquid sealing ring for the spiral spring contact type maximum hydraulic pressure difference control mechanism is clamped inside the mounting hole of the spiral spring contact type maximum hydraulic pressure difference control mechanism, and one end of the liquid inlet hole for the spiral spring contact type maximum hydraulic pressure difference control mechanism is communicated with the liquid reserved space.

Further, the initial length of the coil spring for the coil spring contact type maximum hydraulic pressure difference control mechanism is larger than the transverse length of the hollow structure for the coil spring contact type maximum hydraulic pressure difference control mechanism.

Further, the worm and thread structure combined bidirectional synchronous adjusting mechanism comprises a transverse shell for the worm and thread structure combined bidirectional synchronous adjusting mechanism, a longitudinal shell for the worm and thread structure combined bidirectional synchronous adjusting mechanism, an inner space of the worm and thread structure combined bidirectional synchronous adjusting mechanism, a through hole structure for the worm and thread structure combined bidirectional synchronous adjusting mechanism, and a threaded hole for the worm and thread structure combined bidirectional synchronous adjusting mechanism, the worm and thread structure combined bidirectional synchronous adjusting mechanism comprises a longitudinal worm, a rotating plate, a threaded rod, a thread structure and a transverse worm, wherein the longitudinal worm is used for the worm and thread structure combined bidirectional synchronous adjusting mechanism; the top center of the horizontal shell for the worm and thread structure combined bidirectional synchronous adjusting mechanism is provided with a longitudinal shell for the worm and thread structure combined bidirectional synchronous adjusting mechanism, the inside center of the horizontal shell for the worm and thread structure combined bidirectional synchronous adjusting mechanism is provided with an inner space of the worm and thread structure combined bidirectional synchronous adjusting mechanism, the center of the vertical shell for the worm and thread structure combined bidirectional synchronous adjusting mechanism is provided with a through hole structure for the worm and thread structure combined bidirectional synchronous adjusting mechanism, the through hole structure for the worm and thread structure combined bidirectional synchronous adjusting mechanism is communicated with the inner space of the worm and thread structure combined bidirectional synchronous adjusting mechanism, the inside of the through hole structure for the worm and thread structure combined bidirectional synchronous adjusting mechanism is provided with a longitudinal worm for the worm and thread structure combined bidirectional synchronous adjusting mechanism through a bearing, the screw rod for the worm and thread structure combined bidirectional synchronous adjusting mechanism is internally provided with a screw rod for the worm and thread structure combined bidirectional synchronous adjusting mechanism through the screw structure for the worm and thread structure combined bidirectional synchronous adjusting mechanism, and the screw rod for the worm and thread structure combined bidirectional synchronous adjusting mechanism is arranged at the opposite end of the screw rod for the worm and thread structure combined bidirectional synchronous adjusting mechanism.

Furthermore, one end of the two worms outside the threaded rod of the threaded structure combined bidirectional synchronous adjusting mechanism is respectively fixedly connected with the end parts of the two valve rods.

Furthermore, the transverse worm for the worm and thread structure combined bidirectional synchronous adjusting mechanism and the longitudinal worm for the worm and thread structure combined bidirectional synchronous adjusting mechanism are meshed through a worm gear type rack.

Compared with the prior art, the invention has the beneficial effects that: the double-water-flow double-pressure-difference double-flow hydraulic control device can realize double-water-flow guiding and guide under the action of the same negative pressure, so that double water flows can realize the pressurization effect in a controllable proportion mode within a control range, and can control the proportion mixing between the two water flows when double water flow pressurization is carried out.

Drawings

FIG. 1 is a schematic diagram of a full-section structure of a double-flow-control water flow supercharging device according to the present invention;

FIG. 2 is a schematic structural diagram of a threaded structure screwing type water flow control mechanism in a dual-flow control type water flow supercharging device according to the present invention;

FIG. 3 is a schematic structural diagram of a coil spring contact type maximum hydraulic pressure difference control mechanism in a dual-flow-control type water flow supercharging device according to the present invention;

FIG. 4 is a schematic structural view of a bidirectional synchronous adjusting mechanism combining a worm and a thread structure in a dual-flow-control type water flow supercharging device according to the present invention;

in the figure: 1, a main body shell, 2, a turbine shell, 3, a main liquid inlet pipeline, 4, a thread screwing cap, 5, a screwing space, 6, a limiting plate structure, 7, a main internal thread structure, 8, a main first liquid through hole, 9, a main second liquid through hole, 10, a main third liquid through hole, 11, a turbine installation space, 12, a main fourth liquid through hole, 13, a liquid reserving space, 14, a main liquid discharging hole, 15, a thread structure screwing type water flow control mechanism, 151, a thread structure screwing type water flow control mechanism shell, 152, a thread structure screwing type water flow control mechanism central hole, 153, a thread structure screwing type water flow control mechanism valve rod inserting hole, 154, a thread structure screwing type water flow control mechanism moving plate, 155, a thread structure screwing type water flow control mechanism moving plate, 156, a thread structure screwing type water flow control mechanism valve rod, 157, a bearing for a screw-structured screw-on type water flow control mechanism, 158, a threaded rod for a screw-structured screw-on type water flow control mechanism, 159, a screw-structured screw-on type water flow control mechanism, 1510, a rotating plate for a screw-structured screw-on type water flow control mechanism, 17, a coil spring contact type maximum hydraulic pressure difference control mechanism mounting hole, 18, a coil spring contact type maximum hydraulic pressure difference control mechanism, 181, a coil spring contact type maximum hydraulic pressure difference control mechanism hollow housing, 182, a coil spring contact type maximum hydraulic pressure difference control mechanism hollow fluid seal ring, 183, a coil spring contact type maximum hydraulic pressure difference control mechanism hollow structure, 184, a coil spring contact type maximum hydraulic pressure difference control mechanism drain hole, 185, a coil spring contact type maximum hydraulic pressure difference control mechanism valve plate insertion space, 186, a coil spring contact type maximum hydraulic pressure difference control mechanism inlet hole, 187, a moving plate for a coil spring contact type maximum hydraulic pressure difference control mechanism, 188, a valve plate for a coil spring contact type maximum hydraulic pressure difference control mechanism, 189, a liquid through hole for a coil spring contact type maximum hydraulic pressure difference control mechanism, 1810, a coil spring for a coil spring contact type maximum hydraulic pressure difference control mechanism, 19, a valve rod moving hole, 20, a main component mounting space, 21, a sub component mounting space, 22, a main rotation shaft, 23, a turbine, 25, a valve rod, 26, a worm and thread structure combined type bidirectional synchronous adjusting mechanism, 261, a transverse housing for a worm and thread structure combined type bidirectional synchronous adjusting mechanism, 262, a longitudinal housing for a worm and thread structure combined type bidirectional synchronous adjusting mechanism, 263, an internal space for a worm and thread structure combined type bidirectional synchronous adjusting mechanism, 264, a through hole structure for a worm and thread structure combined type bidirectional synchronous adjusting mechanism, 265, a threaded hole 266 for a bidirectional synchronous adjustment mechanism of the combined worm and thread structure, a longitudinal worm 267 for a bidirectional synchronous adjustment mechanism of the combined worm and thread structure, a rotating plate 268 for a bidirectional synchronous adjustment mechanism of the combined worm and thread structure, a threaded rod 269 for a bidirectional synchronous adjustment mechanism of the combined worm and thread structure, a thread structure 2610 for a bidirectional synchronous adjustment mechanism of the combined worm and thread structure, and a transverse worm for a bidirectional synchronous adjustment mechanism of the combined worm and thread structure.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

Referring to fig. 1, an embodiment of the present invention: including main body cover 1, one side center of main body cover 1 is provided with turbine shell 2 of integral type, main body cover 1's opposite side is provided with two main inlet channel 3 that are just to standing, two main inlet channel 3 is installed and is twisted the inside of closing cap 4 at two screw threads, the screw thread is twisted and is closed 4 centers and be provided with and twist space 5, main inlet channel 3 is provided with limiting plate structure 6 lieing in the one end of twisting inside space 5, the inner wall of twisting space 5 is provided with main internal thread structure 7, main body cover 1 and main inlet channel 3 are inside to be provided with main first liquid through-hole 8, and main second liquid through-hole 9 intercommunication is passed through to the bottom of two main first liquid through-holes 8, main body cover 1 inside center is provided with main part installation space 20, the top of main part installation space 20 is provided with accessory installation space 21, an internally mounted worm and the two screw thread structure convolution formula of main part installation space 20 and accessory installation space 21 Towards a synchronous adjusting mechanism 26, valve rod moving holes 19 are respectively arranged in the middle of the two main first liquid through holes 8, a valve rod 25 is respectively arranged in the two valve rod moving holes 19, a main third liquid through hole 10 is arranged in the center of the bottom of the main second liquid through hole 9, a turbine installation space 11 is arranged at the bottom of the main third liquid through hole 10, a main rotating shaft 22 is arranged at the center of the turbine shell 2, a turbine 23 is arranged on the shaft body of the main rotating shaft 22, a main fourth liquid through hole 12 is arranged at the bottom of the turbine installation space 11, a liquid reserved space 13 is arranged at the bottom of the main fourth liquid through hole 12, a spiral spring contact type maximum hydraulic pressure difference control mechanism installation hole 17 communicated with the outside is arranged on the side surface of the liquid reserved space 13, a spiral spring contact type maximum hydraulic pressure difference control mechanism 18 is arranged in the spiral spring contact type maximum hydraulic pressure difference control mechanism installation hole 17, the center of the liquid reserved space 13 is provided with a main liquid discharge hole 14, and a threaded structure screwing type water flow control mechanism 15 is installed at the position of the main liquid discharge hole 14.

Referring to fig. 2, the thread-structured screw-on type water flow control mechanism 15 includes a thread-structured screw-on type water flow control mechanism housing 151, a thread-structured screw-on type water flow control mechanism center hole 152, a thread-structured screw-on type water flow control mechanism stem insertion hole 153, a thread-structured screw-on type water flow control mechanism movement space 154, a thread-structured screw-on type water flow control mechanism movement plate 155, a thread-structured screw-on type water flow control mechanism stem 156, a thread-structured screw-on type water flow control mechanism bearing 157, a thread-structured screw-on type water flow control mechanism screw rod 158, a thread-structured screw-on type water flow control mechanism screw thread 159, and a thread-structured screw-on type water flow control mechanism rotation plate 1510; the center of the bottom of the shell 151 for the thread structure screwing type water flow control mechanism is provided with a center hole 152 for the thread structure screwing type water flow control mechanism, the center of the center hole 152 for the thread structure screwing type water flow control mechanism is provided with a valve rod inserting hole 153 for the thread structure screwing type water flow control mechanism, the top of the valve rod inserting hole 153 for the thread structure screwing type water flow control mechanism is provided with a moving space 154 for the thread structure screwing type water flow control mechanism, the inside of the moving space 154 for the thread structure screwing type water flow control mechanism is provided with a moving plate 155 for the thread structure screwing type water flow control mechanism, the inside of the valve rod inserting hole 153 for the thread structure screwing type water flow control mechanism is provided with a valve rod 156 for the thread structure screwing type water flow control mechanism, the top of the valve rod 156 for the thread-structured screwing type water flow control mechanism is installed at the center of the bottom of the movable plate 155 for the thread-structured screwing type water flow control mechanism, the center of the upper surface of the movable plate 155 for the thread-structured screwing type water flow control mechanism is provided with a thread rod 158 for the thread-structured screwing type water flow control mechanism through a bearing 157 for the thread-structured screwing type water flow control mechanism, the rod body of the thread rod 158 for the thread structure screwing type water flow control mechanism is installed at the center of the top of the shell 151 for the thread structure screwing type water flow control mechanism through a thread structure 159, and the top end of the thread rod 158 for the thread structure screwing type water flow control mechanism is provided with a rotation plate 1510 for the thread structure screwing type water flow control mechanism; the thread structure 159 for the thread structure screwing type water flow control mechanism comprises an external thread structure arranged on the rod body of the thread structure screwing type threaded rod 158 for the water flow control mechanism and an internal thread structure arranged on the inner wall of the shell 151 for the structure moving screwing type liquid flow control mechanism; the shell 151 for the thread structure screwing type water flow control mechanism is arranged at the position of the shell of the main drainage hole 14, the central hole 152 for the thread structure screwing type water flow control mechanism is communicated with the main drainage hole 14, and the thread structure screwing type water flow control mechanism mainly has the following functions: through rotatory rotor plate, can adjust the valve rod to reach the effect of control rivers.

Referring to fig. 3, the coil spring contact type maximum hydraulic pressure difference control mechanism 18 includes a hollow housing 181 for the coil spring contact type maximum hydraulic pressure difference control mechanism, a hollow liquid seal ring 182 for the coil spring contact type maximum hydraulic pressure difference control mechanism, a hollow structure 183 for the coil spring contact type maximum hydraulic pressure difference control mechanism, a liquid discharge hole 184 for the coil spring contact type maximum hydraulic pressure difference control mechanism, a valve plate insertion space 185 for the coil spring contact type maximum hydraulic pressure difference control mechanism, a liquid inlet hole 186 for the coil spring contact type maximum hydraulic pressure difference control mechanism, a moving plate 187 for the coil spring contact type maximum hydraulic pressure difference control mechanism, a valve plate 188 for the coil spring contact type maximum hydraulic pressure difference control mechanism, a liquid through hole 189 for the coil spring contact type maximum hydraulic pressure difference control mechanism, and a coil spring 1810 for the coil spring contact type maximum hydraulic pressure difference control mechanism; a coil spring contact type hollow structure 183 for the maximum hydraulic pressure difference control mechanism is arranged at the center inside the hollow shell 181 for the coil spring contact type maximum hydraulic pressure difference control mechanism, a coil spring contact type drain hole 184 for the maximum hydraulic pressure difference control mechanism is arranged at one side of the hollow structure 183 for the coil spring contact type maximum hydraulic pressure difference control mechanism, one end of the coil spring contact type drain hole 184 for the maximum hydraulic pressure difference control mechanism is communicated with one end of the coil spring contact type maximum hydraulic pressure difference control mechanism hollow shell 181, and the coil spring contact type hollow shell 181 for the maximum hydraulic pressure difference control mechanism is arranged in the coil spring contact type maximum hydraulic pressure difference control mechanism hollow shell 181 A valve plate insertion space 185 for a coil spring contact type maximum hydraulic pressure difference control mechanism is arranged on the other side of the hollow structure 183, a liquid inlet hole 186 for the coil spring contact type maximum hydraulic pressure difference control mechanism is arranged on one side of the valve plate insertion space 185 for the coil spring contact type maximum hydraulic pressure difference control mechanism, the liquid inlet hole 186 for the coil spring contact type maximum hydraulic pressure difference control mechanism is communicated with the other side of the hollow shell 181 for the coil spring contact type maximum hydraulic pressure difference control mechanism, a coil spring contact type maximum hydraulic pressure difference control mechanism moving plate 187 is arranged in the hollow structure 183 for the coil spring contact type maximum hydraulic pressure difference control mechanism, and the moving plate 187 for the coil spring contact type maximum hydraulic pressure difference control mechanism is arranged in the hollow structure 183 for the coil spring contact type maximum hydraulic pressure difference control mechanism A coil spring contact type maximum hydraulic pressure difference control mechanism valve plate 188 which is integrated with the difference control mechanism valve plate is arranged at the center of the end surface of one side of the valve plate insertion space 185, a coil spring contact type maximum hydraulic pressure difference control mechanism liquid through hole 189 which is communicated with the two end surfaces of the moving plate 187 for the coil spring contact type maximum hydraulic pressure difference control mechanism is arranged on the side surface of the moving plate 187 for the coil spring contact type maximum hydraulic pressure difference control mechanism, and a coil spring contact type maximum hydraulic pressure difference control mechanism coil spring 1810 is arranged on the other end surface of the moving plate 187 for the coil spring contact type maximum hydraulic pressure difference control mechanism; the coil spring contact type maximum hydraulic pressure difference control mechanism hollow liquid sealing ring 182 is clamped inside the coil spring contact type maximum hydraulic pressure difference control mechanism mounting hole 17, and one end of the coil spring contact type maximum hydraulic pressure difference control mechanism liquid inlet hole 186 is communicated with the liquid reserved space 15; the initial length of the coil spring 1810 for the coil spring contact type maximum hydraulic pressure difference control mechanism is greater than the transverse length of the hollow structure 183 for the coil spring contact type maximum hydraulic pressure difference control mechanism, and the main functions of the hollow structure are as follows: the elastic force of the spiral spring 1810 for the spiral spring contact type maximum hydraulic pressure difference control mechanism is the maximum pressure value, and when the internal pressure value is larger than the elastic force of the spiral spring 1810 for the spiral spring contact type maximum hydraulic pressure difference control mechanism, the internal liquid is discharged in time, so that the pressure is reduced, and the elastic force of the spiral spring 1810 for the spiral spring contact type maximum hydraulic pressure difference control mechanism is smaller than the value of the rotation strength of the driving motor at the maximum power.

Referring to fig. 4, the worm and thread structure combined bidirectional synchronous adjusting mechanism 26 includes a horizontal outer shell 261 for worm and thread structure combined bidirectional synchronous adjusting mechanism, a vertical outer shell 262 for worm and thread structure combined bidirectional synchronous adjusting mechanism, an inner space 263 for worm and thread structure combined bidirectional synchronous adjusting mechanism, a through hole structure 264 for worm and thread structure combined bidirectional synchronous adjusting mechanism, and a threaded hole 265 for worm and thread structure combined bidirectional synchronous adjusting mechanism, a longitudinal worm 266 for a worm and thread structure combined bidirectional synchronous adjusting mechanism, a rotating plate 267 for a worm and thread structure combined bidirectional synchronous adjusting mechanism, a threaded rod 268 for a worm and thread structure combined bidirectional synchronous adjusting mechanism, a thread structure 269 for a worm and thread structure combined bidirectional synchronous adjusting mechanism, and a transverse worm 2610 for a worm and thread structure combined bidirectional synchronous adjusting mechanism; the top center of the transverse shell 261 for the worm and thread structure combined type bidirectional synchronous regulating mechanism is provided with a longitudinal shell 262 for the worm and thread structure combined type bidirectional synchronous regulating mechanism, the inner center of the transverse shell 261 for the worm and thread structure combined type bidirectional synchronous regulating mechanism is provided with an inner space 263 for the worm and thread structure combined type bidirectional synchronous regulating mechanism, the center of the longitudinal shell 262 for the worm and thread structure combined type bidirectional synchronous regulating mechanism is provided with a through hole structure 264 for the worm and thread structure combined type bidirectional synchronous regulating mechanism, which communicates the inner space 263 for the worm and thread structure combined type bidirectional synchronous regulating mechanism, the inner part of the through hole structure 264 for the worm and thread structure combined type bidirectional synchronous regulating mechanism is provided with a longitudinal worm 266 for the worm and thread structure combined type bidirectional synchronous regulating mechanism through a bearing, a rotating plate 267 for the worm and thread structure combined bidirectional synchronous adjusting mechanism is arranged at the top end of the longitudinal worm 266 for the worm and thread structure combined bidirectional synchronous adjusting mechanism, a threaded hole 265 for the worm and thread structure combined bidirectional synchronous adjusting mechanism is arranged in the center of the opposite side of the transverse shell 261 for the worm and thread structure combined bidirectional synchronous adjusting mechanism, a threaded rod 268 for the worm and thread structure combined bidirectional synchronous adjusting mechanism is arranged in the threaded hole 265 for the worm and thread structure combined bidirectional synchronous adjusting mechanism through the threaded structure 269 for the worm and thread structure combined bidirectional synchronous adjusting mechanism, and a threaded rod 268 for the worm and thread structure combined bidirectional synchronous adjusting mechanism is arranged at the opposite end of the threaded rod 268 for the worm and thread structure combined bidirectional synchronous adjusting mechanism; one end of the two worms outside the threaded rod 268 for the thread structure combined type bidirectional synchronous adjusting mechanism is respectively fixedly connected with the end parts of the two valve rods 25; the transverse worm 2610 for the worm and thread structure combined bidirectional synchronous adjusting mechanism and the longitudinal worm 266 for the worm and thread structure combined bidirectional synchronous adjusting mechanism are meshed through a worm and gear type rack, and the main functions of the worm and thread structure combined bidirectional synchronous adjusting mechanism are as follows: when the rotating plate is rotated, due to the connection mode of the worm and the gear, the transverse worm 2610 for the worm and thread structure combined bidirectional synchronous adjusting mechanism can drive the threaded rod 268 for the worm and thread structure combined bidirectional synchronous adjusting mechanism to rotate, and the threaded rod 268 moves during rotation to control the valve rod.

The specific use mode is as follows: in the working process of the invention, two threaded screwing caps 4 are respectively connected with two water flow discharge ports, then the end part of a main rotating shaft 22 is fixedly connected with the end part of a motor main shaft of a driving motor, when the driving motor is turned on, a turbine 23 rapidly rotates under the rotation action, under the action of air negative pressure, two liquids can enter simultaneously in the same negative pressure state, and then during the discharge, the mixing ratio between the two liquids can be adjusted by adjusting a worm and threaded structure combined type bidirectional synchronous adjusting mechanism 26.

It will be evident to those skilled in the art that the invention is not limited to the details of the foregoing illustrative embodiments, and that the present invention may be embodied in other specific forms without departing from the spirit or essential attributes thereof. The present embodiments are therefore to be considered in all respects as illustrative and not restrictive, the scope of the invention being indicated by the appended claims rather than by the foregoing description, and all changes which come within the meaning and range of equivalency of the claims are therefore intended to be embraced therein. Any reference sign in a claim should not be construed as limiting the claim concerned.

Claims (10)

1. The utility model provides a two water accuse STREAMING rivers supercharging device, includes main body cover (1), its characterized in that: the turbine shell (2) of integral type is provided with at one side center of main body cover (1), the opposite side of main body cover (1) is provided with two main inlet channel (3) that are just to the right, two main inlet channel (3) are installed in the inside of two screw threads twist to close cap (4), screw threads twist to close cap (4) center and are provided with twist to close space (5), main inlet channel (3) are provided with limiting plate structure (6) in the one end that is located twist to close space (5) inside, the inner wall of twist to close space (5) is provided with main internal thread structure (7), main body cover (1) and main inlet channel (3) inside are provided with main first liquid through-hole (8), the bottom of two main first liquid through-holes (8) is through main second liquid through-hole (9) intercommunication, main body cover (1) inside center is provided with main part installation space (20), an auxiliary component mounting space (21) is arranged at the top of the main component mounting space (20), a worm and thread structure combined type bidirectional synchronous adjusting mechanism (26) is mounted inside the main component mounting space (20) and the auxiliary component mounting space (21), valve rod moving holes (19) are formed in the middle of the two main first liquid through holes (8), a valve rod (25) is mounted inside the two valve rod moving holes (19), a main third liquid through hole (10) is formed in the center of the bottom of the main second liquid through hole (9), a turbine mounting space (11) is formed in the bottom of the main third liquid through hole (10), a main rotating shaft (22) is mounted at the center of the turbine shell (2), a turbine (23) is mounted on the shaft body of the main rotating shaft (22), and a main fourth liquid through hole (12) is formed in the bottom of the turbine mounting space (11), the bottom of the main fourth liquid through hole (12) is provided with a liquid reserved space (13), the side face of the liquid reserved space (13) is provided with a spiral spring contact type maximum hydraulic pressure difference control mechanism mounting hole (17) communicated with the outside, a spiral spring contact type maximum hydraulic pressure difference control mechanism (18) is mounted inside the spiral spring contact type maximum hydraulic pressure difference control mechanism mounting hole (17), a main liquid drainage hole (14) is formed in the center of the liquid reserved space (13), and a threaded structure screwing type water flow control mechanism (15) is mounted at the position of the main liquid drainage hole (14).

2. The double-water-control-flow water flow supercharging device according to claim 1, characterized in that: the thread structure screwing type water flow control mechanism (15) comprises a shell (151) for the thread structure screwing type water flow control mechanism, a central hole (152) for the thread structure screwing type water flow control mechanism, a valve rod inserting hole (153) for the thread structure screwing type water flow control mechanism, a moving space (154) for the thread structure screwing type water flow control mechanism, a moving plate (155) for the thread structure screwing type water flow control mechanism, a valve rod (156) for the thread structure screwing type water flow control mechanism, a bearing (157) for the thread structure screwing type water flow control mechanism, a threaded rod (158) for the thread structure screwing type water flow control mechanism, a thread structure (159) for the thread structure screwing type water flow control mechanism and a rotating plate (1510) for the thread structure screwing type water flow control mechanism; the thread structure screwing type water flow control mechanism is characterized in that a central hole (152) for the thread structure screwing type water flow control mechanism is arranged at the center of the central hole (152) at the bottom of a shell (151) for the thread structure screwing type water flow control mechanism, a valve rod inserting hole (153) for the thread structure screwing type water flow control mechanism is arranged in the center of the shell (151) for the thread structure screwing type water flow control mechanism, a moving space (154) for the thread structure screwing type water flow control mechanism is arranged at the top of the valve rod inserting hole (153) for the thread structure screwing type water flow control mechanism, a moving plate (155) for the thread structure screwing type water flow control mechanism is arranged inside the moving space (154) for the thread structure screwing type water flow control mechanism, and a valve rod (156) for the thread structure screwing type water flow control mechanism is arranged inside the valve rod inserting hole (153) for the thread structure screwing, the top of the valve rod (156) for the thread structure screwing type water flow control mechanism is arranged at the center of the bottom of the moving plate (155) for the thread structure screwing type water flow control mechanism, the center of the upper surface of the movable plate (155) for the thread structure screwing type water flow control mechanism is provided with a thread rod (158) for the thread structure screwing type water flow control mechanism through a bearing (157) for the thread structure screwing type water flow control mechanism, the rod body of the threaded rod (158) for the thread structure screwing type water flow control mechanism is arranged at the center of the top of the shell (151) for the thread structure screwing type water flow control mechanism through the thread structure (159) for the thread structure screwing type water flow control mechanism, and a rotating plate (1510) for the threaded structure screwing type water flow control mechanism is arranged at the top end of the threaded rod (158) for the threaded structure screwing type water flow control mechanism.

3. The double-water-control-flow water flow supercharging device according to claim 2, characterized in that: the thread structure (159) for the thread structure screwing type water flow control mechanism comprises an external thread structure arranged on a threaded rod (158) body for the thread structure screwing type water flow control mechanism and an internal thread structure arranged on the inner wall of a shell (151) for the structure moving screwing type liquid flow control mechanism.

4. The double-water-control-flow water flow supercharging device according to claim 2, characterized in that: the shell (151) for the threaded structure screwing type water flow control mechanism is arranged at the position of the shell of the main drainage hole (14), and the central hole (152) for the threaded structure screwing type water flow control mechanism is communicated with the main drainage hole (14).

5. The double-water-control-flow water flow supercharging device according to claim 1, characterized in that: the spiral spring contact type maximum hydraulic pressure difference control mechanism (18) comprises a hollow shell (181) for the spiral spring contact type maximum hydraulic pressure difference control mechanism, a hollow sealing ring (182) for the spiral spring contact type maximum hydraulic pressure difference control mechanism, a hollow structure (183) for the spiral spring contact type maximum hydraulic pressure difference control mechanism, a liquid discharge hole (184) for the spiral spring contact type maximum hydraulic pressure difference control mechanism, and a valve plate insertion space (185) for the spiral spring contact type maximum hydraulic pressure difference control mechanism, a liquid inlet hole (186) for a spiral spring contact type maximum hydraulic pressure difference control mechanism, a moving plate (187) for the spiral spring contact type maximum hydraulic pressure difference control mechanism, a valve plate (188) for the spiral spring contact type maximum hydraulic pressure difference control mechanism, a liquid through hole (189) for the spiral spring contact type maximum hydraulic pressure difference control mechanism and a spiral spring (1810) for the spiral spring contact type maximum hydraulic pressure difference control mechanism; a coil spring contact type hollow structure (183) for the maximum hydraulic pressure difference control mechanism is arranged at the center inside the hollow shell (181) for the coil spring contact type maximum hydraulic pressure difference control mechanism, a coil spring contact type drain hole (184) for the maximum hydraulic pressure difference control mechanism is arranged at one side of the hollow structure (183) for the coil spring contact type maximum hydraulic pressure difference control mechanism on the hollow shell (181) for the coil spring contact type maximum hydraulic pressure difference control mechanism, one end of the coil spring contact type maximum hydraulic pressure difference control mechanism drain hole (184) is communicated with one end of the coil spring contact type maximum hydraulic pressure difference control mechanism hollow shell (181), a valve plate insertion space (185) for the coil spring contact type maximum hydraulic pressure difference control mechanism is arranged on the other side of the hollow structure (183) for the coil spring contact type maximum hydraulic pressure difference control mechanism by the hollow shell (181), a liquid inlet hole (186) for the coil spring contact type maximum hydraulic pressure difference control mechanism is arranged on one side of the valve plate insertion space (185) for the coil spring contact type maximum hydraulic pressure difference control mechanism by the hollow shell (181), the liquid inlet hole (186) for the coil spring contact type maximum hydraulic pressure difference control mechanism is communicated with the other side of the hollow shell (181) for the coil spring contact type maximum hydraulic pressure difference control mechanism by the liquid inlet hole (186), the hollow structure (183) for the coil spring contact type maximum hydraulic pressure difference control mechanism by the hollow shell (181) The movable plate (187) for the spiral spring contact type maximum hydraulic pressure difference control mechanism is arranged inside, a valve plate (188) for the spiral spring contact type maximum hydraulic pressure difference control mechanism is arranged in the center of the end face of one side of a valve plate insertion space (185) for the spiral spring contact type maximum hydraulic pressure difference control mechanism, the valve plate is integrated with the movable plate (187), a liquid through hole (189) for the spiral spring contact type maximum hydraulic pressure difference control mechanism is formed in the side face of the movable plate (187) for the spiral spring contact type maximum hydraulic pressure difference control mechanism and communicates with two end faces of the movable plate, and a spiral spring contact type spiral spring (1810) for the maximum hydraulic pressure difference control mechanism is arranged on the other end face of the movable plate (187) for the spiral spring contact type maximum hydraulic pressure difference control mechanism.

6. The double-water-control-flow water flow supercharging device according to claim 5, characterized in that: the coil spring contact type maximum hydraulic pressure difference control mechanism is connected with the inside of a coil spring contact type maximum hydraulic pressure difference control mechanism mounting hole (17) in a clamping mode through a hollow sealing ring (182), and one end of a liquid inlet hole (186) for the coil spring contact type maximum hydraulic pressure difference control mechanism is communicated with a liquid reserved space (15).

7. The double-water-control-flow water flow supercharging device according to claim 5, characterized in that: the initial length of the spiral spring (1810) for the spiral spring contact type maximum hydraulic pressure difference control mechanism is larger than the transverse length of the hollow structure (183) for the spiral spring contact type maximum hydraulic pressure difference control mechanism.

8. The double-water-control-flow water flow supercharging device according to claim 1, characterized in that: the worm and thread structure combined type bidirectional synchronous adjusting mechanism (26) comprises a transverse shell (261) for a worm and thread structure combined type bidirectional synchronous adjusting mechanism, a longitudinal shell (262) for the worm and thread structure combined type bidirectional synchronous adjusting mechanism, an inner space (263) of the worm and thread structure combined type bidirectional synchronous adjusting mechanism, a through hole structure (264) for the worm and thread structure combined type bidirectional synchronous adjusting mechanism, a threaded hole (265) for the worm and thread structure combined type bidirectional synchronous adjusting mechanism, a longitudinal worm (266) for the worm and thread structure combined type bidirectional synchronous adjusting mechanism, a rotating plate (267) for the worm and thread structure combined type bidirectional synchronous adjusting mechanism, a threaded rod (268) for the worm and thread structure combined type bidirectional synchronous adjusting mechanism, a thread structure (269) for the worm and thread structure combined type bidirectional synchronous adjusting mechanism, and a transverse worm (2610) for the worm and thread structure combined type bidirectional synchronous adjusting mechanism ) (ii) a The top center of the horizontal shell (261) for the worm and thread structure combined type bidirectional synchronous adjusting mechanism is provided with a vertical shell (262) for the worm and thread structure combined type bidirectional synchronous adjusting mechanism, the internal center of the horizontal shell (261) for the worm and thread structure combined type bidirectional synchronous adjusting mechanism is provided with an internal space (263) for the worm and thread structure combined type bidirectional synchronous adjusting mechanism, the center of the vertical shell (262) for the worm and thread structure combined type bidirectional synchronous adjusting mechanism is provided with a through hole structure (264) for the worm and thread structure combined type bidirectional synchronous adjusting mechanism, which communicates the internal space (263) of the worm and thread structure combined type bidirectional synchronous adjusting mechanism, the inside of the through hole structure (264) for the worm and thread structure combined type bidirectional synchronous adjusting mechanism is provided with a vertical worm (266) for the worm and thread structure combined type bidirectional synchronous adjusting mechanism through a bearing, the top end of the longitudinal worm (266) for the worm and thread structure combined bidirectional synchronous adjusting mechanism is provided with a rotating plate (267) for the worm and thread structure combined bidirectional synchronous adjusting mechanism, the centers of the transverse shell (261) for the worm and thread structure combined type bidirectional synchronous adjusting mechanism on the opposite side are provided with threaded holes (265) for the worm and thread structure combined type bidirectional synchronous adjusting mechanism, a threaded rod (268) for the worm and thread structure combined type bidirectional synchronous adjusting mechanism is arranged in the threaded hole (265) for the worm and thread structure combined type bidirectional synchronous adjusting mechanism through a thread structure (269) for the worm and thread structure combined type bidirectional synchronous adjusting mechanism, and the opposite end of the threaded rod (268) for the worm and thread structure combined type bidirectional synchronous adjusting mechanism is provided with the threaded rod (268) for the worm and thread structure combined type bidirectional synchronous adjusting mechanism.

9. The double-water-control-flow water flow supercharging device according to claim 8, characterized in that: and one end of the outer part of the threaded rod (268) for the two-way synchronous adjusting mechanism with the combined worm and thread structure is respectively and fixedly connected with the end parts of the two valve rods (25).

10. The double-water-control-flow water flow supercharging device according to claim 8, characterized in that: the horizontal worm (2610) for the worm and thread structure combined bidirectional synchronous adjusting mechanism and the longitudinal worm (266) for the worm and thread structure combined bidirectional synchronous adjusting mechanism are meshed through a worm gear type rack.

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