CN110822137A - Pressure-driven type multi-directional liquid conveying device - Google Patents

Abstract

The invention discloses a pressure-driven multi-azimuth liquid conveying device which comprises a main body box body, wherein the bottom of the main body box body is provided with a bottom mounting base plate. The invention can realize the movement of a plurality of pistons in the device under the action of a stamping device or equipment from above pressure, and the movement of the pistons is driven under the action of hydraulic oil, thereby having the characteristic of no consumption, greatly improving the utilization rate of pressure, synchronously carrying out high-pressure conveying on a branch system, and having high conveying rate.

Description

Pressure-driven type multi-directional liquid conveying device

Technical Field

The invention relates to the technical field of liquid conveying, in particular to a pressure-driven type multi-directional liquid conveying device.

Background

In the prior art, various liquid conveying devices are provided, but most conveying devices have insufficient pressure or can drive only one unit at a time to perform high-pressure conveying, so that the conveying capacity is high, but the conveying amount at each time is small, and the conveying device has certain limitations.

Disclosure of Invention

The invention aims to provide a pressure-driven multi-directional liquid conveying device to solve the problems in the background technology.

In order to achieve the purpose, the invention provides the following technical scheme: a pressure-driven multi-azimuth liquid conveying device comprises a main body box body, wherein a bottom mounting base plate is mounted at the bottom of the main body box body, a longitudinal structure is arranged at the center of the main body box body, an annular middle protruding structure which is of an integral structure with the main body box body is arranged on the side surface of the upper surface of the main body box body, an annular liquid pouring shell which is of an integral structure with the annular middle protruding structure is arranged at the top of the annular middle protruding structure, a main first hollow structure is arranged at the center of the longitudinal structure, a plurality of main second hollow structures which are arranged in an annular array are arranged in the main body box body, the main first hollow structure is communicated with the main second hollow structures through a main through hole structure, a plurality of high-pressure pipeline connecting ports which are communicated with the end parts of the main second hollow structures are arranged on the side surface of the main body box, piston valve space sealed liquid driving mechanisms are respectively arranged in the main second hollow structure and the main first hollow structure, a compressed auxiliary spiral spring is arranged at the end part of the piston valve space sealed liquid driving mechanism in the main second hollow structure, a compressed main spiral spring is arranged at the bottom end of the piston valve space sealed liquid driving mechanism in the main first hollow structure, hydraulic oil is filled in a sealed space between the plurality of internal piston valve space sealed liquid driving mechanisms, a component mounting hole for communicating the external space with the bottom of the main first hollow structure is arranged in the center of the bottom of the main box body, a spiral spring compression abutting type maximum liquid pressure effective control mechanism is arranged in the component mounting hole, and a force applying rod is arranged at the top end of the piston valve space sealed liquid driving mechanism in the main first hollow structure, the body of rod of application of force pole runs through longitudinal structure, and a top installation application of force board, the bottom of the protruding structure in annular middle part is provided with the main second feed port in the middle part of a plurality of intercommunication main second hollow structure, every a spherical structure and the spacing formula liquid unidirectional flow control mechanism of size are all installed to the top of main second feed port, every the spherical structure all is provided with main first feed port with the spacing formula liquid unidirectional flow control mechanism's of size top, and is a plurality of the top of main first feed port is lieing in the inside that the shell was poured to annular liquid is provided with annular liquid storage space.

Further, the spiral spring compression abutting type maximum liquid pressure effective control mechanism comprises a hollow shell for a spiral spring compression abutting type maximum liquid pressure effective control mechanism, a hollow liquid sealing ring for the spiral spring compression abutting type maximum liquid pressure effective control mechanism, a hollow structure for the spiral spring compression abutting type maximum liquid pressure effective control mechanism, a liquid discharge hole for the spiral spring compression abutting type maximum liquid pressure effective control mechanism, a valve plate insertion space for the spiral spring compression abutting type maximum liquid pressure effective control mechanism, a liquid inlet hole for the spiral spring compression abutting type maximum liquid pressure effective control mechanism, a movable plate for the spiral spring compression abutting type maximum liquid pressure effective control mechanism, a valve plate for the spiral spring compression abutting type maximum liquid pressure effective control mechanism, a liquid through hole for the spiral spring compression abutting type maximum liquid pressure effective control mechanism and a spiral spring compression abutting type maximum liquid pressure effective control mechanism A coil spring for the mechanism; a hollow seal ring for the coil spring compression contact type maximum liquid pressure effective control mechanism is sleeved on the side surface of the hollow shell for the coil spring compression contact type maximum liquid pressure effective control mechanism, a hollow structure for the coil spring compression contact type maximum liquid pressure effective control mechanism is arranged in the center of the hollow shell for the coil spring compression contact type maximum liquid pressure effective control mechanism, a liquid discharge hole for the coil spring compression contact type maximum liquid pressure effective control mechanism is arranged on one side of the hollow structure for the coil spring compression contact type maximum liquid pressure effective control mechanism, one end of the liquid discharge hole for the coil spring compression contact type maximum liquid pressure effective control mechanism is communicated with one end of the hollow shell for the coil spring compression contact type maximum liquid pressure effective control mechanism, the other side of the hollow shell for the spiral spring compression abutting type maximum liquid pressure effective control mechanism, which is positioned in the hollow structure for the spiral spring compression abutting type maximum liquid pressure effective control mechanism, is provided with a valve plate insertion space for the spiral spring compression abutting type maximum liquid pressure effective control mechanism, one side of the hollow shell for the spiral spring compression abutting type maximum liquid pressure effective control mechanism, which is positioned in the valve plate insertion space for the spiral spring compression abutting type maximum liquid pressure effective control mechanism, is provided with a liquid inlet hole for the spiral spring compression abutting type maximum liquid pressure effective control mechanism, the liquid inlet hole for the spiral spring compression abutting type maximum liquid pressure effective control mechanism is communicated with the other side of the hollow shell for the spiral spring compression abutting type maximum liquid pressure effective control mechanism, and the hollow shell for the spiral spring compression abutting type maximum liquid pressure effective control mechanism is positioned on the hollow shell for the spiral spring compression abutting type maximum liquid pressure effective control mechanism A coil spring is arranged in the hollow structure of the contact type maximum liquid pressure effective control mechanism to compress a moving plate for the contact type maximum liquid pressure effective control mechanism, the movable plate for the helical spring compression abutting type maximum liquid pressure effective control mechanism is provided with a valve plate for the helical spring compression abutting type maximum liquid pressure effective control mechanism which is integrated with the movable plate at the center of the end surface of one side of the valve plate insertion space for the helical spring compression abutting type maximum liquid pressure effective control mechanism, the side surface of the movable plate for the helical spring compression contact type maximum liquid pressure effective control mechanism is provided with a liquid through hole for the helical spring compression contact type maximum liquid pressure effective control mechanism which is communicated with two end surfaces of the movable plate, and the other end surface of the movable plate for the spiral spring compression abutting type maximum liquid pressure effective control mechanism is provided with a spiral spring for the spiral spring compression abutting type maximum liquid pressure effective control mechanism.

Furthermore, the hollow liquid sealing ring for the coil spring type maximum liquid pressure control mechanism is clamped in the component mounting hole, and one end of the liquid inlet hole for the coil spring type maximum liquid pressure control mechanism is communicated with the bottom of the main first hollow structure.

Further, the initial length of the coil spring type coil spring for the maximum liquid pressure control mechanism is larger than the lateral length of the coil spring type hollow structure for the maximum liquid pressure control mechanism.

Furthermore, the spherical structure and size limit type liquid one-way flow control mechanism comprises a shell for the spherical structure and size limit type liquid one-way flow control mechanism, a spherical space for the spherical structure and size limit type liquid one-way flow control mechanism, a ball valve for the spherical structure and size limit type liquid one-way flow control mechanism, a liquid inlet hole for the spherical structure and size limit type liquid one-way flow control mechanism and a liquid outlet hole for the spherical structure and size limit type liquid one-way flow control mechanism; the spherical structure and size limit type liquid one-way flow control mechanism shell is internally provided with a spherical structure and size limit type ball valve for the liquid one-way flow control mechanism, the spherical structure and size limit type liquid one-way flow control mechanism shell is internally provided with a spherical structure and size limit type liquid one-way flow control mechanism ball valve, the spherical structure and size limit type liquid one-way flow control mechanism shell is internally provided with a spherical structure and size limit type liquid one-way flow control mechanism liquid inlet hole, one end of the spherical structure and size limit type liquid one-way flow control mechanism liquid inlet hole is communicated with the bottom of the spherical structure and size limit type liquid one-way flow control mechanism spherical space center, the other end of the liquid inlet hole for the spherical structure and size limiting type liquid one-way flow control mechanism is communicated with the center of one side of the spherical structure and size limiting type liquid one-way flow control mechanism shell, the inside of the spherical structure and size limiting type liquid one-way flow control mechanism shell is provided with a liquid discharge hole for the spherical structure and size limiting type liquid one-way flow control mechanism shell, one end of the liquid discharge hole for the spherical structure and size limiting type liquid one-way flow control mechanism is communicated with the top of the spherical structure and size limiting type liquid one-way flow control mechanism spherical space center, and the other end of the liquid discharge hole for the spherical structure and size limiting type liquid one-way flow control mechanism is communicated with the center of the other side of the spherical structure and size limiting type liquid one-way flow control mechanism shell.

Furthermore, the structure radius of the spherical space for the spherical structure and size limit type liquid one-way flow control mechanism is larger than the structure radius of the ball valve for the spherical structure and size limit type liquid one-way flow control mechanism, and the structure radius of the ball valve for the spherical structure and size limit type liquid one-way flow control mechanism is larger than the structure radius of the liquid inlet hole for the spherical structure and size limit type liquid one-way flow control mechanism and the liquid outlet hole for the spherical structure and size limit type liquid one-way flow control mechanism.

Furthermore, the spherical structure and size limiting type shell for the liquid one-way flow control mechanism are arranged in the annular middle protruding structure, and the end parts of the liquid inlet hole for the spherical structure and size limiting type liquid one-way flow control mechanism and the liquid outlet hole for the spherical structure and size limiting type liquid one-way flow control mechanism are respectively communicated with the main first feeding hole and the main second feeding hole.

Further, the piston valve space sealed liquid driving mechanism comprises a piston valve for the piston valve space sealed liquid driving mechanism, a conical guide moving structure for the piston valve space sealed liquid driving mechanism, a first annular groove structure for the piston valve space sealed liquid driving mechanism, a second annular groove structure for the piston valve space sealed liquid driving mechanism, a first sealing ring for the piston valve space sealed liquid driving mechanism, a second sealing ring for the piston valve space sealed liquid driving mechanism and a rod body mounting groove structure for the piston valve space sealed liquid driving mechanism; one end of the piston valve for the piston valve space sealed liquid driving mechanism is provided with a conical guide moving structure for the piston valve space sealed liquid driving mechanism which is of an integrated structure with the conical guide moving structure, the center of the other end of the piston valve for the piston valve space sealed liquid driving mechanism is provided with a rod body installation groove structure for the piston valve space sealed liquid driving mechanism, the lower upper part of the side surface of the piston valve for the piston valve space sealed liquid driving mechanism is respectively provided with a first annular groove structure for the piston valve space sealed liquid driving mechanism and a second annular groove structure for the piston valve space sealed liquid driving mechanism, and a first sealing ring for the piston valve space-sealing type liquid driving mechanism and a second sealing ring for the piston valve space-sealing type liquid driving mechanism are respectively arranged in the first annular groove structure for the piston valve space-sealing type liquid driving mechanism and the second annular groove structure for the piston valve space-sealing type liquid driving mechanism.

Further, the piston valve space-sealing type liquid driving mechanism is mounted with the piston valve inside the main first hollow structure and the main second hollow structure.

Furthermore, a rod body at one end of the main push rod is arranged in the rod body mounting groove structure for the piston valve space sealing type liquid driving mechanism in the main first hollow structure.

Compared with the prior art, the invention has the beneficial effects that: the invention can realize a plurality of piston motions in the device under the action of a stamping device or a device from above pressure, and the piston motions are driven under the action of hydraulic oil, has the characteristic of no consumption, thereby greatly improving the utilization rate of pressure, synchronously carrying out high-pressure transmission on a branch system, and having high transmission rate, moreover, the device is provided with a spiral spring compression and contact type maximum liquid pressure effective control mechanism, and can effectively control the maximum liquid pressure in the device by utilizing the elasticity of the spiral spring, thereby preventing the parts from being damaged due to overlarge pressure, in addition, the device is provided with a spherical structure and a size limit type liquid one-way flow control mechanism, can realize the one-way flow control of liquid while bearing large hydraulic pressure, and in addition, the device is provided with a piston valve space sealed liquid driving mechanism, can drive the liquid under the sealing effect.

Drawings

FIG. 1 is a schematic view of a pressure-driven multi-directional liquid delivery apparatus according to the present invention;

FIG. 2 is a schematic structural diagram of a compression contact type maximum hydraulic pressure effective control mechanism of a coil spring in a pressure-driven multi-directional liquid conveying apparatus according to the present invention;

FIG. 3 is a schematic structural diagram of a spherical structure and a size-limiting type liquid one-way flow control mechanism in the pressure-driven multi-directional liquid conveying apparatus according to the present invention;

FIG. 4 is a schematic structural diagram of a piston valve space-sealing type liquid driving mechanism in a pressure-driven multi-directional liquid conveying apparatus according to the present invention;

in the figure: 1, a main body box body, 2, a bottom mounting base plate, 3, a longitudinal structure, 4, an annular middle bulge structure, 5, annular liquid pouring shells, 6, a main first hollow structure, 7, a main through hole structure, 8, a main second hollow structure, 9, a high-pressure pipeline connecting port, 10, a port hole, 11, a spiral spring compression abutting type maximum liquid pressure effective control mechanism, 111, a hollow shell for the spiral spring compression abutting type maximum liquid pressure effective control mechanism, 112, a hollow liquid sealing ring for the spiral spring compression abutting type maximum liquid pressure effective control mechanism, 113, a hollow structure for the spiral spring compression abutting type maximum liquid pressure effective control mechanism, 114, a liquid discharge hole for the spiral spring compression abutting type maximum liquid pressure effective control mechanism, 115, a valve plate insertion space for the spiral spring compression abutting type maximum liquid pressure effective control mechanism, 116, a liquid inlet hole for a coil spring compression contact type maximum liquid pressure effective control mechanism, 117, a moving plate for a coil spring compression contact type maximum liquid pressure effective control mechanism, 118, a valve plate for a coil spring compression contact type maximum liquid pressure effective control mechanism, 119, a liquid through hole for a coil spring compression contact type maximum liquid pressure effective control mechanism, 1110, a coil spring for a coil spring compression contact type maximum liquid pressure effective control mechanism, 12, a component mounting hole, 13, an annular liquid storage space, 14, a main first feed hole, 15, a spherical structure and size limit type liquid one-way flow control mechanism, 151, a shell for a spherical structure and size limit type liquid one-way flow control mechanism, 152, a spherical space for a spherical structure and size limit type liquid one-way flow control mechanism, 153, a ball valve for a spherical structure and size limit type liquid one-way flow control mechanism, 154, liquid inlet hole for spherical structure and size-limited type liquid one-way flow control mechanism, 155, liquid outlet hole for spherical structure and size-limited type liquid one-way flow control mechanism, 16, primary and secondary liquid inlet hole, 17, piston valve space-sealed liquid drive mechanism, 171, piston valve space-sealed liquid drive mechanism piston valve, 172, piston valve space-sealed liquid drive mechanism conical guide moving structure, 173, piston valve space-sealed liquid drive mechanism first annular groove structure, 174, piston valve space-sealed liquid drive mechanism second annular groove structure, 175, piston valve space-sealed liquid drive mechanism first seal ring, 176, piston valve space-sealed liquid drive mechanism second seal ring, 177, piston valve space-sealed liquid drive mechanism rod body mounting groove structure, 18, force application rod, 19, an applying plate 20, main spiral springs 21, auxiliary spiral springs 22 and hydraulic oil.

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: the device comprises a main body box body 1, wherein a bottom mounting base plate 2 is installed at the bottom of the main body box body 1, a longitudinal structure 3 is arranged at the center of the main body box body 1, an annular middle protruding structure 4 of an integrated structure with the main body box body 1 is arranged on the side surface of the upper surface of the main body box body 1, an annular liquid pouring shell 5 of an integrated structure with the annular middle protruding structure 4 is arranged at the top of the annular middle protruding structure 4, a main first hollow structure 6 is arranged at the center of the longitudinal structure 3, a plurality of main second hollow structures 8 arranged in an annular array are arranged in the main body box body 1, the main first hollow structure 6 is communicated with the main second hollow structures 8 through a main through hole structure 7, a plurality of high-pressure pipeline connecting ports 9 communicated with the end parts of the main second hollow structures 8 are arranged on the side surface of the main body box body 1, and port holes, piston valve space sealed liquid driving mechanisms 17 are arranged in the main second hollow structure 8 and the main first hollow structure 6, compressed auxiliary spiral springs 21 are arranged at the end parts of the piston valve space sealed liquid driving mechanisms 17 in the main second hollow structure 8, a compressed main spiral spring 20 is arranged at the bottom end of the piston valve space sealed liquid driving mechanism 17 in the main first hollow structure 6, hydraulic oil 22 is filled in a sealed space among the plurality of piston valve space sealed liquid driving mechanisms 17, a component mounting hole 12 communicating the outside space and the bottom of the main first hollow structure 6 is arranged at the center of the bottom of the main box body 1, a spiral spring compression abutting type maximum liquid pressure effective control mechanism 11 is arranged in the component mounting hole 12, a force applying rod 18 is arranged at the top end of the piston valve space sealed liquid driving mechanism 17 in the main first hollow structure 6, the body of rod of application of force pole 18 runs through longitudinal structure 3, and a application of force board 19 is installed at the top, the bottom of the protruding structure 4 in annular middle part is provided with a plurality of main second feed ports 16 that communicate main second hollow structure 8 middle part, every the top of main second feed port 16 all installs a spherical structure and spacing formula liquid one-way flow control mechanism 15 of size, every the top of spherical structure and spacing formula liquid one-way flow control mechanism 15 of size all is provided with main first feed port 14, and a plurality of the top of main first feed port 14 is being located annular liquid pours into the inside of shell 5 and is provided with annular liquid storage space 13.

Referring to fig. 2, the coil spring compression contact type maximum effective control mechanism 11 includes a hollow shell 111 for the coil spring compression contact type maximum effective control mechanism, a hollow seal ring 112 for the coil spring compression contact type maximum effective control mechanism, a hollow structure 113 for the coil spring compression contact type maximum effective control mechanism, a liquid discharge hole 114 for the coil spring compression contact type maximum effective control mechanism, a valve plate insertion space 115 for the coil spring compression contact type maximum effective control mechanism, a liquid inlet hole 116 for the coil spring compression contact type maximum effective control mechanism, a moving plate 117 for the coil spring compression contact type maximum effective control mechanism, a valve plate 118 for the coil spring compression contact type maximum effective control mechanism, a liquid discharge hole 119 for the coil spring compression contact type maximum effective control mechanism, and a coil spring compression contact type maximum effective control mechanism A coil spring 1110 for a maximum hydraulic pressure effective control mechanism; a coil spring compression contact type hollow structure 113 for the maximum liquid pressure effective control mechanism is arranged at the center inside the hollow shell 111 for the coil spring compression contact type maximum liquid pressure effective control mechanism, a coil spring compression contact type liquid pressure effective control mechanism drainage hole 114 for the maximum liquid pressure effective control mechanism is arranged at one side of the hollow structure 113 for the coil spring compression contact type maximum liquid pressure effective control mechanism on the hollow shell 111 for the coil spring compression contact type maximum liquid pressure effective control mechanism, one end of the coil spring compression contact type liquid pressure effective control mechanism drainage hole 114 is communicated with one end of the coil spring compression contact type hollow shell 111 for the maximum liquid pressure effective control mechanism, the hollow shell 111 for the helical spring compression abutting type maximum liquid pressure effective control mechanism is provided with a valve plate inserting space 115 for the helical spring compression abutting type maximum liquid pressure effective control mechanism at the other side of the hollow structure 113 for the helical spring compression abutting type maximum liquid pressure effective control mechanism, a fluid inlet hole 116 for the helical spring compression abutting type maximum liquid pressure effective control mechanism is arranged at one side of the valve plate inserting space 115 for the helical spring compression abutting type maximum liquid pressure effective control mechanism on the hollow shell 111 for the helical spring compression abutting type maximum liquid pressure effective control mechanism, the fluid inlet hole 116 for the helical spring compression abutting type maximum liquid pressure effective control mechanism is communicated with the other side of the hollow shell 111 for the helical spring compression abutting type maximum liquid pressure effective control mechanism, the coil spring compression contact type hollow shell 111 for the maximum liquid pressure effective control mechanism is provided with a coil spring compression contact type movable plate 117 for the maximum liquid pressure effective control mechanism in the inner part of the coil spring compression contact type hollow structure 113 for the maximum liquid pressure effective control mechanism, the coil spring compression contact type movable plate 117 for the maximum liquid pressure effective control mechanism is provided with a coil spring compression contact type valve plate 118 for the maximum liquid pressure effective control mechanism in an integrated structure with the coil spring compression contact type movable plate 117 in the center of the end surface of one side of the insertion space 115 for the valve plate for the coil spring compression contact type maximum liquid pressure effective control mechanism, the side surface of the coil spring compression contact type movable plate 117 for the maximum liquid pressure effective control mechanism is provided with a coil spring compression contact type liquid through hole 119 for the maximum liquid pressure effective control mechanism communicating the two end surfaces of the movable plate, the other end face of the moving plate 117 for the coil spring compression contact type maximum liquid pressure effective control mechanism is provided with a coil spring 1110 for the coil spring compression contact type maximum liquid pressure effective control mechanism; the coil spring type air-liquid sealing ring 112 for the maximum liquid pressure control mechanism is clamped in the component mounting hole 12, and one end of the liquid inlet hole 116 for the maximum liquid pressure control mechanism is communicated with the bottom of the main first hollow structure 6; the initial length of the coil spring type coil spring 1110 for maximum liquid pressure control mechanism is greater than the lateral length of the hollow structure 113 for maximum liquid pressure control mechanism, and its main functions are: the elastic value of the spiral spring 1110 for the spiral spring compression contact type maximum liquid pressure effective control mechanism is the maximum pressure value, when the internal pressure value is larger than the elastic force of the spiral spring 1110 for the spiral spring compression contact type maximum liquid pressure effective control mechanism, the internal gas can be discharged in time, so that the pressure is reduced, and the elastic force of the spiral spring 1110 for the spiral spring compression contact type maximum liquid pressure effective control mechanism is smaller than the tension value when the internal part deforms.

Referring to fig. 3, the spherical structure and size-limited type liquid one-way flow control mechanism 15 includes a spherical structure and size-limited type liquid one-way flow control mechanism housing 151, a spherical space 152 for the spherical structure and size-limited type liquid one-way flow control mechanism, a spherical structure and size-limited type liquid one-way flow control mechanism ball valve 153, a spherical structure and size-limited type liquid one-way flow control mechanism liquid inlet hole 154 and a spherical structure and size-limited type liquid one-way flow control mechanism liquid outlet hole 155; the spherical structure and size-limited type spherical space 152 for the liquid one-way flow control mechanism is arranged at the center inside the shell 151 for the liquid one-way flow control mechanism with the spherical structure and size-limited type, the spherical structure and size-limited type ball valve 153 for the liquid one-way flow control mechanism is arranged inside the spherical space 152 for the liquid one-way flow control mechanism with the spherical structure and size-limited type inside the shell 151 for the liquid one-way flow control mechanism with the spherical structure and size-limited type, the liquid inlet hole 154 for the liquid one-way flow control mechanism with the spherical structure and size-limited type inside the shell 151 for the liquid one-way flow control mechanism with the spherical structure and size-limited type is arranged, one end of the liquid inlet hole 154 for the liquid one-way flow control mechanism with the spherical structure and size-limited type is communicated with the bottom of the center of the spherical space 152 for the liquid one-way flow, the other end of the liquid inlet hole 154 for the spherical structure and size-limited type liquid one-way flow control mechanism is communicated with the center of one side of the spherical structure and size-limited type liquid one-way flow control mechanism shell 151, a liquid outlet hole 155 for the spherical structure and size-limited type liquid one-way flow control mechanism is arranged in the spherical structure and size-limited type liquid one-way flow control mechanism shell 151, one end of the liquid outlet hole 155 for the spherical structure and size-limited type liquid one-way flow control mechanism is communicated with the top of the center of the spherical structure and size-limited type liquid one-way flow control mechanism spherical space 152, and the other end of the liquid outlet hole 155 for the spherical structure and size-limited type liquid one-way flow control mechanism is communicated with the center of the other side of the spherical structure and size-limited type liquid one-way flow control mechanism; the structural radius of the spherical space 152 for the spherical structure and size-limited type liquid one-way flow control mechanism is larger than the structural radius of the ball valve 153 for the spherical structure and size-limited type liquid one-way flow control mechanism, and the structural radius of the ball valve 153 for the spherical structure and size-limited type liquid one-way flow control mechanism is larger than the structural radii of the liquid inlet hole 154 for the spherical structure and size-limited type liquid one-way flow control mechanism and the liquid outlet hole 155 for the spherical structure and size-limited type liquid one-way flow control mechanism; spherical structure and spacing formula liquid unidirectional flow for control mechanism shell 151 install in the inside of annular middle part protruding structure 4 of size, spherical structure and spacing formula liquid unidirectional flow for control mechanism feed liquor hole 154 and spherical structure and spacing formula liquid unidirectional flow for control mechanism drain hole 155 tip of size communicate main first feed port 14 and main second feed port 16 respectively its main function is: the unidirectional flow of liquid in the vertical direction can be realized.

Referring to fig. 4, the piston valve space-sealing type liquid driving mechanism 17 includes a piston valve 171 for a piston valve space-sealing type liquid driving mechanism, a tapered guide moving structure 172 for a piston valve space-sealing type liquid driving mechanism, a first annular groove structure 173 for a piston valve space-sealing type liquid driving mechanism, a second annular groove structure 174 for a piston valve space-sealing type liquid driving mechanism, a first seal ring 175 for a piston valve space-sealing type liquid driving mechanism, a second seal ring 176 for a piston valve space-sealing type liquid driving mechanism, and a rod body mounting groove structure 177 for a piston valve space-sealing type liquid driving mechanism; one end of the piston valve 171 for the piston valve space sealed type liquid driving mechanism is provided with a conical guide moving structure 172 for the piston valve space sealed type liquid driving mechanism which is integrated with the piston valve 171, the center of the other end of the piston valve 171 for the piston valve space sealed type liquid driving mechanism is provided with a rod body mounting groove structure 177 for the piston valve space sealed type liquid driving mechanism, the lower upper part of the side surface of the piston valve 171 for the piston valve space sealed type liquid driving mechanism is respectively provided with a first annular groove structure 173 for the piston valve space sealed type liquid driving mechanism and a second annular groove structure 174 for the piston valve space sealed type liquid driving mechanism, and the first annular groove structure 173 for the piston valve space sealed type liquid driving mechanism and the second annular groove structure 174 for the piston valve space sealed type liquid driving mechanism are respectively internally provided with a first sealing ring 175 for the piston valve space sealed type liquid driving mechanism and a second sealing ring structure 175 for the piston valve space sealed Two seal rings 176; the piston valve space-sealing type piston valve 171 for the liquid drive mechanism is installed inside the main first hollow structure 6 and the main second hollow structure 8; the rod body mounting groove structure 177 for the piston valve space sealing type liquid driving mechanism in the main first hollow structure 6 is internally provided with a rod body at one end of a main push rod 18, and mainly functions as: the driving function of the internal liquid is realized.

The specific use mode is as follows: in the work of the invention, the bottom mounting substrate 2 is mounted on the surface of the fixed equipment, the force application plate 19 is positioned under the force application head, then the liquid to be conveyed is put into the annular liquid storage space 13, then the high-pressure pipeline connecting port 9 is connected with the high-pressure pipeline for conveying, when the pressure application device moves downwards, the piston valve space sealed liquid driving mechanism 17 moves, the hydraulic pressure is conveyed under the linkage action, when the pressure application device moves upwards, all the components are reset under the action of the main spiral spring 17 and the auxiliary spiral spring 20, and the liquid enters the liquid conveying space 8 again under the action of gravity, thereby facilitating the next work.

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 diversified liquid conveyor of pressure-driven formula, includes that main part box (1) of bottom mounting substrate (2) are installed to the bottom, its characterized in that: the main body box body (1) is provided with a longitudinal structure (3) at the center, the side surface of the upper surface of the main body box body (1) is provided with an annular middle protruding structure (4) of an integral structure with the main body box body, the top of the annular middle protruding structure (4) is provided with an annular liquid pouring shell (5) of an integral structure with the annular middle protruding structure, the center of the longitudinal structure (3) is provided with a main first hollow structure (6), the inside of the main body box body (1) is provided with a plurality of main second hollow structures (8) arranged in an annular array, the main first hollow structures (6) and the main second hollow structures (8) are communicated through a main through hole structure (7), the side surface of the main body box body (1) is provided with a plurality of high-pressure pipeline connecting ports (9) communicated with the end parts of the main second hollow structures (8), the inside of the high-pressure pipeline connecting ports (9) is provided with port holes (10) communicated with the, piston valve space sealed liquid driving mechanisms (17) are arranged in the main second hollow structure (8) and the main first hollow structure (6), a compressed auxiliary spiral spring (21) is arranged at the end part of the piston valve space sealed liquid driving mechanism (17) in the main second hollow structure (8), a compressed main spiral spring (20) is arranged at the bottom end of the piston valve space sealed liquid driving mechanism (17) in the main first hollow structure (6), hydraulic oil (22) is filled in a sealed space between the internal piston valve space sealed liquid driving mechanisms (17), a component mounting hole (12) for communicating the external space with the bottom of the main first hollow structure (6) is formed in the center of the bottom of the main box body (1), a spiral spring compression abutting type maximum liquid pressure effective control mechanism (11) is arranged in the component mounting hole (12), the top end of a piston valve space sealing type liquid driving mechanism (17) positioned in the main first hollow structure (6) is provided with an applying rod (18), the body of the force application rod (18) penetrates through the longitudinal structure (3), and the top end of the force application rod is provided with a force application plate (19), the bottom of the annular middle protruding structure (4) is provided with a plurality of main second feed holes (16) communicated with the middle of the main second hollow structure (8), each main second feed hole (16) is provided with a spherical structure and a size limiting type liquid one-way flow control mechanism (15) at the top end, each spherical structure and size limiting type liquid one-way flow control mechanism (15) is provided with a main first feed hole (14) at the top end, and the top ends of the main first feed holes (14) are located annular liquid is poured into the inside of the shell (5) to form an annular liquid storage space (13).

2. A pressure-driven multi-azimuth liquid conveying apparatus according to claim 1, wherein: the spiral spring compression contact type maximum liquid pressure effective control mechanism (11) comprises a hollow shell (111) for the spiral spring compression contact type maximum liquid pressure effective control mechanism, a liquid sealing ring (112) for the spiral spring compression contact type maximum liquid pressure effective control mechanism, a hollow structure (113) for the spiral spring compression contact type maximum liquid pressure effective control mechanism, a liquid discharge hole (114) for the spiral spring compression contact type maximum liquid pressure effective control mechanism, a valve plate insertion space (115) for the spiral spring compression contact type maximum liquid pressure effective control mechanism, a liquid inlet hole (116) for the spiral spring compression contact type maximum liquid pressure effective control mechanism, a movable plate (117) for the spiral spring compression contact type maximum liquid pressure effective control mechanism, and a valve plate (118) for the spiral spring compression contact type maximum liquid pressure effective control mechanism, A liquid through hole (119) for a helical spring compression abutting type maximum liquid pressure effective control mechanism and a helical spring (1110) for the helical spring compression abutting type maximum liquid pressure effective control mechanism; a hollow seal ring (112) for the spiral spring compression contact type maximum liquid pressure effective control mechanism is sleeved on the side surface of a hollow shell (111) for the spiral spring compression contact type maximum liquid pressure effective control mechanism, a hollow structure (113) for the spiral spring compression contact type maximum liquid pressure effective control mechanism is arranged in the center of the interior of the hollow shell (111) for the spiral spring compression contact type maximum liquid pressure effective control mechanism, a liquid discharge hole (114) for the spiral spring compression contact type maximum liquid pressure effective control mechanism is arranged on one side of the hollow structure (113) for the spiral spring compression contact type maximum liquid pressure effective control mechanism, and one end of the liquid discharge hole (114) for the spiral spring compression contact type maximum liquid pressure effective control mechanism is communicated with the spiral spring compression contact type maximum liquid pressure effective control mechanism One end of a hollow shell (111) for a control mechanism, wherein the hollow shell (111) for the spiral spring compression abutting type maximum liquid pressure effective control mechanism is provided with a valve plate insertion space (115) for the spiral spring compression abutting type maximum liquid pressure effective control mechanism at the other side of the hollow structure (113) for the spiral spring compression abutting type maximum liquid pressure effective control mechanism, a liquid inlet hole (116) for the spiral spring compression abutting type maximum liquid pressure effective control mechanism is arranged at one side of the valve plate insertion space (115) for the spiral spring compression abutting type maximum liquid pressure effective control mechanism of the hollow shell (111) for the spiral spring compression abutting type maximum liquid pressure effective control mechanism, and the liquid inlet hole (116) for the spiral spring compression abutting type maximum liquid pressure effective control mechanism is communicated with the other side of the hollow shell (111) for the spiral spring compression abutting type maximum liquid pressure effective control mechanism A coil spring compression contact type movable plate (117) for the maximum liquid pressure effective control mechanism is arranged in the hollow structure (113) for the coil spring compression contact type maximum liquid pressure effective control mechanism, the movable plate (117) for the coil spring compression contact type maximum liquid pressure effective control mechanism is arranged in the end surface center of one side of the valve plate insertion space (115) for the coil spring compression contact type maximum liquid pressure effective control mechanism, a valve plate (118) for the coil spring compression contact type maximum liquid pressure effective control mechanism is arranged in an integrated manner with the movable plate (117), a liquid through hole (119) for the coil spring compression contact type maximum liquid pressure effective control mechanism is arranged on the side surface of the movable plate (117) for the coil spring compression contact type maximum liquid pressure effective control mechanism, and the liquid through hole is communicated with the two end surfaces of the movable plate (119), and a spiral spring (1110) for the compression and contact type maximum liquid pressure effective control mechanism is arranged on the other end surface of the moving plate (117) for the compression and contact type maximum liquid pressure effective control mechanism of the spiral spring.

3. A pressure-driven multi-azimuth liquid conveying apparatus according to claim 2, wherein: the coil spring type air-liquid sealing ring (112) for the maximum liquid pressure control mechanism is clamped in the component mounting hole (12), and one end of the liquid inlet hole (116) for the maximum liquid pressure control mechanism is communicated with the bottom of the main first hollow structure (6).

4. A pressure-driven multi-azimuth liquid conveying apparatus according to claim 2, wherein: the initial length of the coil spring type maximum liquid pressure control mechanism coil spring (1110) is longer than the lateral length of the coil spring type maximum liquid pressure control mechanism hollow structure (113).

5. A pressure-driven multi-azimuth liquid conveying apparatus according to claim 1, wherein: the spherical structure and size limit type liquid one-way flow control mechanism (15) comprises a shell (151) for the spherical structure and size limit type liquid one-way flow control mechanism, a spherical space (152) for the spherical structure and size limit type liquid one-way flow control mechanism, a ball valve (153) for the spherical structure and size limit type liquid one-way flow control mechanism, a liquid inlet hole (154) for the spherical structure and size limit type liquid one-way flow control mechanism and a liquid outlet hole (155) for the spherical structure and size limit type liquid one-way flow control mechanism; the spherical structure and size-limiting type spherical space (152) for the liquid one-way flow control mechanism is arranged at the center inside the shell (151) for the liquid one-way flow control mechanism with the spherical structure and size-limiting type, the spherical structure and size-limiting type spherical space (152) for the liquid one-way flow control mechanism with the spherical structure and size-limiting type is internally provided with a spherical structure and size-limiting type ball valve (153) for the liquid one-way flow control mechanism, the spherical structure and size-limiting type liquid one-way flow control mechanism shell (151) is internally provided with a spherical structure and size-limiting type liquid one-way flow control mechanism liquid inlet hole (154), one end of the spherical structure and size-limiting type liquid one-way flow control mechanism liquid inlet hole (154) is communicated with the bottom of the center of the spherical structure and size-limiting type spherical space (152) for the liquid one-way flow control mechanism, the other end of the liquid inlet hole (154) for the spherical structure and the size-limiting type liquid one-way flow control mechanism is communicated with the center of one side of the shell (151) for the spherical structure and the size-limiting type liquid one-way flow control mechanism, a liquid discharge hole (155) for the spherical structure and the size limit type liquid one-way flow control mechanism is arranged in the shell (151) for the spherical structure and the size limit type liquid one-way flow control mechanism, one end of the spherical structure and one end of the size-limiting liquid one-way flow control mechanism used liquid discharge hole (155) are communicated with the top of the center of the spherical structure and the size-limiting liquid one-way flow control mechanism used spherical space (152), the other end of the spherical structure and the size-limiting liquid one-way flow control mechanism drain hole (155) is communicated with the center of the other side of the spherical structure and the size-limiting liquid one-way flow control mechanism shell (151).

6. A pressure-driven multi-azimuth liquid conveying apparatus according to claim 5, wherein: the structure radius of the spherical space (152) for the spherical structure and size limit type liquid one-way flow control mechanism is larger than the structure radius of the ball valve (153) for the spherical structure and size limit type liquid one-way flow control mechanism, and the structure radius of the ball valve (153) for the spherical structure and size limit type liquid one-way flow control mechanism is larger than the structure radius of the liquid inlet hole (154) for the spherical structure and size limit type liquid one-way flow control mechanism and the liquid outlet hole (155) for the spherical structure and size limit type liquid one-way flow control mechanism.

7. A pressure-driven multi-azimuth liquid conveying apparatus according to claim 5, wherein: the spherical structure and size limiting type shell (151) for the liquid one-way flow control mechanism is arranged in the annular middle protruding structure (4), and the end parts of a liquid inlet hole (154) for the spherical structure and size limiting type liquid one-way flow control mechanism and a liquid outlet hole (155) for the spherical structure and size limiting type liquid one-way flow control mechanism are respectively communicated with the main first feeding hole (14) and the main second feeding hole (16).

8. A pressure-driven multi-azimuth liquid conveying apparatus according to claim 1, wherein: the piston valve space sealing type liquid driving mechanism (17) comprises a piston valve (171) for the piston valve space sealing type liquid driving mechanism, a conical guide moving structure (172) for the piston valve space sealing type liquid driving mechanism, a first annular groove structure (173) for the piston valve space sealing type liquid driving mechanism, a second annular groove structure (174) for the piston valve space sealing type liquid driving mechanism, a first sealing ring (175) for the piston valve space sealing type liquid driving mechanism, a second sealing ring (176) for the piston valve space sealing type liquid driving mechanism and a rod body mounting groove structure (177) for the piston valve space sealing type liquid driving mechanism; one end of a piston valve (171) for the piston valve space sealed liquid driving mechanism is provided with a conical guide moving structure (172) for the piston valve space sealed liquid driving mechanism of an integrated structure with the piston valve space sealed liquid driving mechanism, the center of the other end of the piston valve (171) for the piston valve space sealed liquid driving mechanism is provided with a rod body mounting groove structure (177) for the piston valve space sealed liquid driving mechanism, the lower upper part of the side surface of the piston valve (171) for the piston valve space sealed liquid driving mechanism is respectively provided with a first annular groove structure (173) for the piston valve space sealed liquid driving mechanism and a second annular groove structure (174) for the piston valve space sealed liquid driving mechanism, and the interiors of the first annular groove structure (173) for the piston valve space sealed liquid driving mechanism and the second annular groove structure (174) for the piston valve space sealed liquid driving mechanism are respectively provided with a first sealing ring for the piston valve space sealed liquid driving mechanism (175) And a second seal (176) for the piston valve space-sealing type liquid drive mechanism.

9. A pressure-driven multi-azimuth liquid conveying apparatus according to claim 8, wherein: the piston valve space-sealing type piston valve (171) for a liquid drive mechanism is installed inside the main first hollow structure (6) and the main second hollow structure (8).

10. A pressure-driven multi-azimuth liquid conveying apparatus according to claim 8, wherein: and a rod body at one end of a main push rod (18) is arranged in the rod body mounting groove structure (177) for the piston valve space sealing type liquid driving mechanism in the main first hollow structure (6).

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