CN111219335A - Liquid flow type rotating mechanism connection control device - Google Patents

Abstract

The invention discloses a liquid flow type rotating mechanism connection control device which comprises a main body shell. The invention utilizes the flow principle of the turbine and the liquid, can enable the internal liquid to have the capability of unidirectional flow control and the emergency braking capability, has relatively simple integral structure, low kinetic energy loss on a rotating shaft, low use cost and relatively low limitation, has a spring type liquid pressure elastic control mechanism, can control the maximum internal hydraulic pressure value, prevents the loss of the internal thread structure caused by overlarge rotating force, and has a rotating shaft plug-in mounting and fixing mechanism which can fixedly connect rotating shafts with different sizes.

Description

Liquid flow type rotating mechanism connection control device

Technical Field

The invention relates to the technical field of connecting devices, in particular to a liquid flow type rotating mechanism connection control device.

Background

At present, in some rotating places, it is necessary to control the rotating component, including control for unidirectional rotation and brake control, and the existing method is to divide two functions into two devices, so that the kinetic energy of the rotating shaft is reduced, and at the same time, the cost of the device is high and the limitation is large.

Disclosure of Invention

The present invention is directed to a connection control device for a liquid flow type rotation mechanism, so as to solve the problems of the background art.

In order to achieve the purpose, the invention provides the following technical scheme: a liquid flow type rotating mechanism connection control device comprises a main body shell, wherein a main through hole structure is arranged at the center of the main body shell, a turbine installation space and a spherical space are respectively arranged at two sides of the main through hole structure in the main body shell, a main flow hole structure and an auxiliary flow hole structure which are communicated with the top of the turbine installation space and the top of the spherical space and the bottom of the turbine installation space and the top of the spherical space are arranged in the main body shell, a liquid injection pipeline communicated with the main flow hole structure is arranged on the side surface of the main body shell, a liquid injection valve is arranged at the end part of the liquid injection pipeline, a main part installation space communicated with the auxiliary flow hole structure is arranged on the side surface of the main body shell, a spring type liquid pressure elastic control mechanism is arranged in the main part installation space, and an auxiliary part installation space is arranged at the middle section of the auxiliary flow hole structure in the main body shell, a spiral spring supporting type liquid flow resisting mechanism is arranged inside the auxiliary component mounting space, a ball body is arranged inside the spherical space, the structural radius of the ball body is larger than the structural radius of the main flow hole structure and the auxiliary flow hole structure, a main rotating shaft is arranged inside the main body shell through a bearing and a sealing ring, a turbine is arranged on a shaft body positioned inside the turbine mounting space of the main rotating shaft, one end of the main rotating shaft is positioned outside the main body shell, a rotating shaft inserting type mounting and fixing mechanism is arranged at the end part of the main rotating shaft, a component mounting shell is arranged at the top part of the main through hole structure of the main body shell, an iron core is arranged at the top part inside the component mounting shell, the iron core is sleeved inside a coil, and a wire guide hole for communicating the outside with the coil is arranged inside the component mounting shell, the center of the bottom of the component mounting shell is provided with a component moving space, the top of the spiral spring support type liquid flow resisting mechanism is positioned in the component moving space, and the top of the spiral spring support type liquid flow resisting mechanism is provided with a permanent magnet.

Further, the spring type liquid pressure elastic control mechanism comprises a hollow shell for the spring type liquid pressure elastic control mechanism, an air-liquid sealing ring for the spring type liquid pressure elastic control mechanism, a hollow structure for the spring type liquid pressure elastic control mechanism, a liquid discharge hole for the spring type liquid pressure elastic control mechanism, a valve plate insertion space for the spring type liquid pressure elastic control mechanism, a liquid inlet hole for the spring type liquid pressure elastic control mechanism, a moving plate for the spring type liquid pressure elastic control mechanism, a valve plate for the spring type liquid pressure elastic control mechanism, a liquid through hole for the spring type liquid pressure elastic control mechanism and a spiral spring for the spring type liquid pressure elastic control mechanism; the spring type liquid pressure elastic control mechanism is characterized in that an air-liquid sealing ring for a spring type liquid pressure elastic control mechanism is sleeved on the side surface of a hollow shell for the spring type liquid pressure elastic control mechanism, a hollow structure for the spring type liquid pressure elastic control mechanism is arranged at the center inside the hollow shell for the spring type liquid pressure elastic control mechanism, a liquid discharge hole for the spring type liquid pressure elastic control mechanism is arranged at one side of the hollow structure for the spring type liquid pressure elastic control mechanism, one end of the liquid discharge hole for the spring type liquid pressure elastic control mechanism is communicated with one end of the hollow shell for the spring type liquid pressure elastic control mechanism, and a valve plate inserting space for the spring type liquid pressure elastic control mechanism is arranged at the other side of the hollow structure for the spring type liquid pressure elastic control mechanism, the spring type liquid pressure elastic control mechanism is characterized in that a liquid inlet hole for the spring type liquid pressure elastic control mechanism is arranged at one side of a space for inserting the valve plate into the spring type liquid pressure elastic control mechanism, the spring type liquid pressure elastic control mechanism is communicated with the other side of the hollow shell for the spring type liquid pressure elastic control mechanism through the liquid inlet hole, a moving plate for the spring type liquid pressure elastic control mechanism is arranged in the hollow structure for the spring type liquid pressure elastic control mechanism through the hollow shell for the spring type liquid pressure elastic control mechanism, and the valve plate for the spring type liquid pressure elastic control mechanism is arranged at the center of the end face of the moving plate at one side of the space for inserting the valve plate into the spring type liquid pressure elastic control mechanism and is of an integrated structure with the moving plate, the side surface of the movable plate for the spring type liquid pressure elastic control mechanism is provided with a liquid through hole for the spring type liquid pressure elastic control mechanism, the liquid through hole is communicated with two end surfaces of the movable plate, and the other end surface of the movable plate for the spring type liquid pressure elastic control mechanism is provided with a spiral spring for the spring type liquid pressure elastic control mechanism.

Furthermore, the spring type liquid pressure elastic control mechanism is clamped in the main component mounting hole through an empty liquid sealing ring, and one end of the liquid inlet hole for the spring type liquid pressure elastic control mechanism is communicated with the auxiliary flow hole structure.

Further, the initial length of the spiral spring for the spring type liquid pressure elastic control mechanism is larger than the transverse length of the hollow structure for the spring type liquid pressure elastic control mechanism.

Further, the rotation axis insertion type mounting and fixing mechanism comprises a rod-shaped shell for the rotation axis insertion type mounting and fixing mechanism, a cable insertion groove structure for the rotation axis insertion type mounting and fixing mechanism, a threaded pipeline body for the rotation axis insertion type mounting and fixing mechanism, a touch panel groove structure for the rotation axis insertion type mounting and fixing mechanism, a touch panel for the rotation axis insertion type mounting and fixing mechanism, a bearing for the rotation axis insertion type mounting and fixing mechanism, a threaded rod for the rotation axis insertion type mounting and fixing mechanism, a threaded structure for the rotation axis insertion type mounting and fixing mechanism, and a rotating plate for the rotation axis insertion type mounting and fixing mechanism; the center of one end face of the rod-shaped shell for the rotary shaft plug-in type installation and fixing mechanism is provided with a cable plug-in groove structure for the rotary shaft plug-in type installation and fixing mechanism, the side face of the rod-shaped shell for the rotary shaft plug-in type installation and fixing mechanism is provided with a plurality of threaded pipeline bodies for the rotary shaft plug-in type installation and fixing mechanism which are integrated with the threaded pipeline bodies for the rotary shaft plug-in type installation and fixing mechanism, the inner wall of the rod-shaped shell for the rotary shaft plug-in type installation and fixing mechanism, which is positioned in the cable plug-in groove structure for the rotary shaft plug-in type installation and fixing mechanism, is provided with a plurality of touch panel groove structures for the rotary shaft plug-in type installation and fixing mechanism, a touch panel for the rotary shaft plug-in type, the rod body of the threaded rod for the rotary shaft plug-in type installation and fixing mechanism penetrates through the rod-shaped shell for the rotary shaft plug-in type installation and fixing mechanism and the threaded pipeline body for the rotary shaft plug-in type installation and fixing mechanism, the threaded rod for the rotary shaft plug-in type installation and fixing mechanism and the threaded pipeline body for the rotary shaft plug-in type installation and fixing mechanism are connected through a threaded structure for the rotary shaft plug-in type installation and fixing mechanism, and the end part of the threaded rod for the rotary shaft plug-in type installation and fixing mechanism is provided with a rotary plate.

Furthermore, the other end face of the rod-shaped shell for the rotary shaft insertion type installation and fixing mechanism is fixedly connected with the end part of the main rotary shaft at the outer end.

Furthermore, the length of the threaded rod for the rotary shaft plug-in mounting and fixing mechanism is greater than the diameter of the cable plug-in groove structure for the rotary shaft plug-in mounting and fixing mechanism.

Further, the coil spring supported liquid flow resisting mechanism includes a housing for the coil spring supported liquid flow resisting mechanism, a central hole for the coil spring supported liquid flow resisting mechanism, a valve rod insertion hole for the coil spring supported liquid flow resisting mechanism, a moving space for the coil spring supported liquid flow resisting mechanism, a moving plate for the coil spring supported liquid flow resisting mechanism, a valve rod for the coil spring supported liquid flow resisting mechanism, a coil spring for the coil spring supported liquid flow resisting mechanism, a threaded rod for the coil spring supported liquid flow resisting mechanism, a thread structure for the coil spring supported liquid flow resisting mechanism, and a rotating plate for the coil spring supported liquid flow resisting mechanism; the central hole of the spiral spring supporting type liquid flow resisting mechanism is arranged at the center of the central hole of the shell for the spiral spring supporting type liquid flow resisting mechanism, the valve rod inserting hole for the spiral spring supporting type liquid flow resisting mechanism is arranged at the top of the valve rod inserting hole for the spiral spring supporting type liquid flow resisting mechanism, the moving space for the spiral spring supporting type liquid flow resisting mechanism is arranged at the top of the moving space for the spiral spring supporting type liquid flow resisting mechanism, the moving plate for the spiral spring supporting type liquid flow resisting mechanism is arranged in the moving space for the spiral spring supporting type liquid flow resisting mechanism, the valve rod for the spiral spring supporting type liquid flow resisting mechanism is arranged in the valve rod inserting hole for the spiral spring supporting type liquid flow resisting mechanism, and the top of the valve rod for the spiral spring supporting type liquid flow resisting mechanism is arranged at the center of the bottom of the moving plate for the spiral spring supporting type liquid flow resisting mechanism, the screw spring supporting type liquid flow resisting mechanism is characterized in that a screw spring supporting type threaded rod for the liquid flow resisting mechanism is installed on the upper surface center of a movable plate for the screw spring supporting type liquid flow resisting mechanism, a rod body of the screw rod for the screw spring supporting type liquid flow resisting mechanism is installed in the top center of a shell for the screw spring supporting type liquid flow resisting mechanism through a screw structure for the screw spring supporting type liquid flow resisting mechanism, a screw spring supporting type rotating plate for the liquid flow resisting mechanism is installed on the top end of the screw rod for the screw spring supporting type liquid flow resisting mechanism, and a screw spring in a compression state is installed on the rod body inside a moving space for the screw spring supporting type liquid flow resisting mechanism through a valve rod for the screw spring supporting type liquid flow resisting mechanism.

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

Further, the outer shell for the coil spring supporting type liquid flow resisting mechanism is installed inside the auxiliary component installation space, the central hole for the coil spring supporting type liquid flow resisting mechanism is communicated with the auxiliary flow hole structure, the rotating plate for the coil spring supporting type liquid flow resisting mechanism is located inside the component moving space, and a permanent magnet is installed on the upper surface of the rotating plate for the coil spring supporting type liquid flow resisting mechanism.

Compared with the prior art, the invention has the beneficial effects that: the invention utilizes the flow principle of the turbine and the liquid, can enable the internal liquid to have the capability of unidirectional flow control and the emergency braking capability, has relatively simple integral structure, low kinetic energy loss on a rotating shaft, low use cost and relatively low limitation, has a spring type liquid pressure elastic control mechanism, can control the maximum internal hydraulic pressure value, prevents the loss of the internal thread structure caused by overlarge rotating force, and has a rotating shaft plug-in mounting and fixing mechanism which can fixedly connect rotating shafts with different sizes.

Drawings

FIG. 1 is a schematic view of a full-section structure of a liquid flow type rotating mechanism connection control device according to the present invention;

FIG. 2 is a schematic structural diagram of a spring type liquid pressure elastic control mechanism in a liquid flow type rotating mechanism connection control device according to the present invention;

FIG. 3 is a schematic structural view of a fixing mechanism for inserting a rotating shaft in a liquid flow type rotating mechanism connection control device according to the present invention;

fig. 4 is a schematic structural view of a coil spring supporting type liquid flow resisting mechanism in a liquid flow type rotating mechanism connection control device according to the present invention;

in the figure: 1, a main body housing, 2, a main through hole structure, 3, a turbine mounting space, 4, a spherical space, 5, a main flow hole structure, 6, a sub-flow hole structure, 7, a liquid injection pipe, 8, a liquid injection valve, 9, a sphere, 10, a main part mounting space, 11, a spring type liquid pressure elastic control mechanism, 111, a hollow housing for the spring type liquid pressure elastic control mechanism, 112, an empty liquid seal ring for the spring type liquid pressure elastic control mechanism, 113, a hollow structure for the spring type liquid pressure elastic control mechanism, 114, a liquid discharge hole for the spring type liquid pressure elastic control mechanism, 115, a valve plate insertion space for the spring type liquid pressure elastic control mechanism, 116, a liquid inlet hole for the spring type liquid pressure elastic control mechanism, 117, a moving plate for the spring type liquid pressure elastic control mechanism, 118, a valve plate for the spring type liquid pressure elastic control mechanism, 119, a liquid passing hole for a spring type liquid pressure elastic control mechanism, 1110, a coil spring for a spring type liquid pressure elastic control mechanism, 12, a main rotation axis, 13, a turbine, 14, a rotation axis insertion type mounting and fixing mechanism, 141, a rod-shaped housing for a rotation axis insertion type mounting and fixing mechanism, 142, a cable insertion groove structure for a rotation axis insertion type mounting and fixing mechanism, 143, a threaded pipe body for a rotation axis insertion type mounting and fixing mechanism, 144, a touch panel groove structure for a rotation axis insertion type mounting and fixing mechanism, 145, a touch panel for a rotation axis insertion type mounting and fixing mechanism, 146, a bearing for a rotation axis insertion type mounting and fixing mechanism, 147, a threaded rod for a rotation axis insertion type mounting and fixing mechanism, 148, a threaded structure for a rotation axis insertion type mounting and fixing mechanism, 149, a rotation plate for a rotation axis insertion type mounting and, 16, coil spring supporting type fluid flow resisting mechanism, 161, housing for coil spring supporting type fluid flow resisting mechanism, 162, center hole for coil spring supporting type fluid flow resisting mechanism, 163, valve stem insertion hole for coil spring supporting type fluid flow resisting mechanism, 164, moving space for coil spring supporting type fluid flow resisting mechanism, 165, moving plate for coil spring supporting type fluid flow resisting mechanism, 166, valve stem for coil spring supporting type fluid flow resisting mechanism, 167, coil spring for coil spring supporting type fluid flow resisting mechanism, 168, threaded rod for coil spring supporting type fluid flow resisting mechanism, 169, screw structure for coil spring supporting type fluid flow resisting mechanism, 1610, rotating plate for coil spring supporting type fluid flow resisting mechanism, 17, component mounting housing, 18, component moving space, 19, iron cores, 20, coils, 21, wire holes, 22 and permanent magnets.

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, main body cover 1 center is provided with main through-hole structure 2, main body cover 1's inside is again located main through-hole structure 2's both sides are provided with turbine installation space 3 and spherical space 4 respectively, main body cover 1's inside is provided with main flow pore structure 5 and the side flow pore structure 6 of intercommunication turbine installation space 3 and spherical space 4 top and the bottom at turbine installation space 3 and spherical space 4 top, main body cover 1's side is provided with the liquid injection pipeline 7 of intercommunication main flow pore structure 5, a liquid injection valve 8 of the tip installation of liquid injection pipeline 7, main body cover 1's side is provided with the main part installation space 10 of intercommunication auxiliary flow pore structure 6, a spring liquid pressure elasticity control mechanism 11 of the internally mounted of main part installation space 10, main body cover 1's inside is being located auxiliary flow pore structure 6's middle section position is provided with auxiliary part installation space 15, a coil spring supporting type liquid flow resisting mechanism 16 is installed inside the secondary component installation space 15, a ball 9 is placed inside the spherical space 4, the structural radius of the ball 9 is greater than the structural radii of the main flow hole structure 5 and the secondary flow hole structure 6, a main rotating shaft 12 is installed inside the main body casing 1 through a bearing and a sealing ring, a turbine 13 is installed on a shaft body located inside the turbine installation space 3 by the main rotating shaft 12, one end of the main rotating shaft 12 is located outside the main body casing 1, a rotating shaft inserting type installation fixing mechanism 14 is installed at the end of the main body casing 1, a component installation casing 17 is installed at the top of the main through hole structure 2 by the main body casing 1, an iron core 19 is installed at the top inside the component installation casing 17, and the iron core 19 is sleeved inside a coil 20, the inside of the component mounting case 17 is provided with a wire guide 21 communicating the outside with the coil 20, the center of the bottom of the component mounting case 17 is provided with a component moving space 18, the top of the coil spring support type liquid flow blocking mechanism 16 is located inside the component moving space 18, and the top of the coil spring support type liquid flow blocking mechanism 16 is provided with a permanent magnet 22.

Referring to fig. 2, the spring-type liquid pressure elastic control mechanism 11 includes a hollow housing 111 for a spring-type liquid pressure elastic control mechanism, a hollow sealing ring 112 for the spring-type liquid pressure elastic control mechanism, a hollow structure 113 for the spring-type liquid pressure elastic control mechanism, a liquid discharge hole 114 for the spring-type liquid pressure elastic control mechanism, a valve plate insertion space 115 for the spring-type liquid pressure elastic control mechanism, a liquid inlet hole 116 for the spring-type liquid pressure elastic control mechanism, a moving plate 117 for the spring-type liquid pressure elastic control mechanism, a valve plate 118 for the spring-type liquid pressure elastic control mechanism, a liquid through hole 119 for the spring-type liquid pressure elastic control mechanism, and a coil spring 1110 for the spring-type liquid pressure elastic control mechanism; a spring type liquid pressure elastic control mechanism hollow structure 113 is arranged in the center of the spring type liquid pressure elastic control mechanism hollow structure 113, a spring type liquid pressure elastic control mechanism hollow structure 114 is arranged on one side of the spring type liquid pressure elastic control mechanism hollow structure 113, one end of the spring type liquid pressure elastic control mechanism hollow structure 114 is communicated with one end of the spring type liquid pressure elastic control mechanism hollow structure 111, a spring type liquid pressure elastic control mechanism hollow shell 111 is arranged on the other side of the spring type liquid pressure elastic control mechanism hollow structure 113, a spring type liquid pressure elastic control mechanism valve plate inserting space 115 is arranged on the other side of the spring type liquid pressure elastic control mechanism hollow structure 111, the hollow shell 111 for the spring-type liquid pressure elastic control mechanism is provided with a liquid inlet hole 116 for the spring-type liquid pressure elastic control mechanism at one side of a valve plate inserting space 115 for the spring-type liquid pressure elastic control mechanism, the liquid inlet hole 116 for the spring-type liquid pressure elastic control mechanism is communicated with the other side of the hollow shell 111 for the spring-type liquid pressure elastic control mechanism, a moving plate 117 for the spring-type liquid pressure elastic control mechanism is arranged in the hollow structure 113 for the spring-type liquid pressure elastic control mechanism, the moving plate 117 for the spring-type liquid pressure elastic control mechanism is provided with a valve plate 118 for the spring-type liquid pressure elastic control mechanism in an integrated structure with the moving plate 117 at the center of the end surface at one side of the valve plate inserting space 115 for the spring-type liquid pressure elastic control mechanism, a liquid through hole 119 for the spring type liquid pressure elastic control mechanism is formed in the side surface of the moving plate 117 for the spring type liquid pressure elastic control mechanism and communicated with two end surfaces of the moving plate, and a spiral spring 1110 for the spring type liquid pressure elastic control mechanism is installed on the other end surface of the moving plate 117 for the spring type liquid pressure elastic control mechanism; the spring type liquid pressure elastic control mechanism is clamped in the main part mounting hole 10 by an air-liquid sealing ring 112, and one end of a liquid inlet hole 116 for the spring type liquid pressure elastic control mechanism is communicated with the auxiliary flow hole structure 6; the initial length of the helical spring 1110 for the spring type liquid pressure elastic control mechanism is greater than the transverse length of the hollow structure 113 for the spring type liquid pressure elastic control mechanism, and the main functions are as follows: the elastic force of the coil spring 1110 for the spring-type liquid pressure elastic control mechanism is the maximum pressure value, and when the internal pressure value is larger than the elastic force of the coil spring 1110 for the spring-type liquid pressure elastic control mechanism, the internal liquid will be discharged in time, so as to reduce the pressure, and therefore the elastic force of the coil spring 1110 for the spring-type liquid pressure elastic control mechanism is smaller than the value of the rotation strength of the turbine 13 when the turbine 13 is deformed under the stress.

Referring to fig. 3, the rotating shaft insertion type mounting and fixing mechanism 14 includes a rod-shaped housing 141 for a rotating shaft insertion type mounting and fixing mechanism, a cable insertion groove structure 142 for a rotating shaft insertion type mounting and fixing mechanism, a threaded pipe body 143 for a rotating shaft insertion type mounting and fixing mechanism, a touch panel groove structure 144 for a rotating shaft insertion type mounting and fixing mechanism, a touch panel 145 for a rotating shaft insertion type mounting and fixing mechanism, a bearing 146 for a rotating shaft insertion type mounting and fixing mechanism, a threaded rod 147 for a rotating shaft insertion type mounting and fixing mechanism, a threaded structure 148 for a rotating shaft insertion type mounting and fixing mechanism, and a rotating plate 149 for a rotating shaft insertion type mounting and; a cable insertion groove structure 142 for a rotary shaft insertion type installation fixing mechanism is arranged at the center of one end face of the rotary shaft insertion type installation fixing mechanism rod-shaped shell 141, a plurality of rotary shaft insertion type installation fixing mechanism threaded pipeline bodies 143 integrated with the rotary shaft insertion type installation fixing mechanism rod-shaped shell 141 are arranged on the side face of the rotary shaft insertion type installation fixing mechanism rod-shaped shell 141, a plurality of rotary shaft insertion type installation fixing mechanism touch plate groove structures 144 are arranged on the inner wall of the rotary shaft insertion type installation fixing mechanism cable insertion groove structure 142, a rotary shaft insertion type installation fixing mechanism touch plate 145 is arranged in each rotary shaft insertion type installation fixing mechanism touch plate groove structure 144, a rotary shaft insertion type installation fixing mechanism threaded rod 147 is arranged on one end face of the rotary shaft insertion type installation fixing mechanism touch plate 145, a rod body of the screw rod 147 for the rotary shaft insertion type mounting and fixing mechanism penetrates through the rod-shaped housing 141 for the rotary shaft insertion type mounting and fixing mechanism and the screw pipeline body 143 for the rotary shaft insertion type mounting and fixing mechanism, the screw rod 147 for the rotary shaft insertion type mounting and fixing mechanism and the screw pipeline body 143 for the rotary shaft insertion type mounting and fixing mechanism are connected through a screw structure 148 for the rotary shaft insertion type mounting and fixing mechanism, and a rotary plate 149 for the rotary shaft insertion type mounting and fixing mechanism is mounted at the end of the screw rod 147 for the rotary shaft insertion type mounting and fixing mechanism; the other end surface of the rod-shaped housing 141 for the rotation shaft insertion-type mounting and fixing mechanism is fixedly connected with the end part of the main rotation shaft 12 at the outer end; the length of the threaded rod 147 for the rotation shaft insertion type installation and fixing mechanism is greater than the diameter of the cable insertion groove structure 142 for the rotation shaft insertion type installation and fixing mechanism, and the main functions are as follows: the external rotation shaft is inserted into the cable insertion groove structure 142 for the rotation shaft insertion type mounting and fixing mechanism, and then the rotation plate is rotated to fix the rotation plate.

Referring to fig. 4, the coil spring-supported type choke mechanism 16 includes a housing 161 for a coil spring-supported type choke mechanism, a central hole 162 for a coil spring-supported type choke mechanism, a valve stem insertion hole 163 for a coil spring-supported type choke mechanism, a moving space 164 for a coil spring-supported type choke mechanism, a moving plate 165 for a coil spring-supported type choke mechanism, a valve stem 166 for a coil spring-supported type choke mechanism, a coil spring 167 for a coil spring-supported type choke mechanism, a threaded rod 168 for a coil spring-supported type choke mechanism, a threaded structure 169 for a coil spring-supported type choke mechanism, and a rotating plate 1610 for a coil spring-supported type choke mechanism; a central hole 162 for the coil spring supported type liquid flow resisting mechanism is formed in the center of the central hole 162 for the coil spring supported type liquid flow resisting mechanism at the bottom of the housing 161 for the coil spring supported type liquid flow resisting mechanism, a valve rod insertion hole 163 for the coil spring supported type liquid flow resisting mechanism is formed in the center of the central hole 162 for the coil spring supported type liquid flow resisting mechanism at the top of the valve rod insertion hole 163 for the coil spring supported type liquid flow resisting mechanism, a moving space 164 for the coil spring supported type liquid flow resisting mechanism is formed in the top of the valve rod insertion hole 163 for the coil spring supported type liquid flow resisting mechanism, a moving plate 165 for the coil spring supported type liquid flow resisting mechanism is installed inside the moving space 164 for the coil spring supported type liquid flow resisting mechanism, a valve rod 166 for the coil spring supported type liquid flow resisting mechanism is installed inside the valve rod insertion hole 163 for the coil spring supported type liquid flow resisting mechanism at the top of the A threaded rod 168 for a coil spring supporting type liquid flow resisting mechanism is arranged in the center of the bottom of the moving plate 165 for the coil spring supporting type liquid flow resisting mechanism, a rod body of the threaded rod 168 for the coil spring supporting type liquid flow resisting mechanism is arranged in the center of the top of the shell 161 for the coil spring supporting type liquid flow resisting mechanism through a threaded structure 169 for the coil spring supporting type liquid flow resisting mechanism, a rotating plate 1610 for the coil spring supporting type liquid flow resisting mechanism is arranged at the top end of the threaded rod 168 for the coil spring supporting type liquid flow resisting mechanism, and a coil spring 167 for the coil spring supporting type liquid flow resisting mechanism in a compressed state is arranged on a rod body positioned in the moving space 164 for the coil spring supporting type liquid flow resisting mechanism by the valve rod 166 for the coil spring supporting type liquid flow resisting mechanism; the thread structure 169 for the coil spring support type liquid flow resisting mechanism comprises an external thread structure arranged on a threaded rod 168 body for the coil spring support type liquid flow resisting mechanism and an internal thread structure arranged on the inner wall of a shell 161 for the structure moving screwing type liquid flow control mechanism; the housing 161 for the coil spring supporting type fluid flow resisting mechanism is installed inside the sub-component installation space 15, the center hole 162 for the coil spring supporting type fluid flow resisting mechanism is communicated with the sub-flow hole structure 5, the rotating plate 1610 for the coil spring supporting type fluid flow resisting mechanism is located inside the component moving space 18, and the permanent magnet 22 is installed on the upper surface of the rotating plate 1610 for the coil spring supporting type fluid flow resisting mechanism, and the main functions are as follows: under the effect of repulsion, can make coil spring support formula liquid flow resisting mechanism block up with centre bore 162, under the prerequisite that does not have the repulsion influence, coil spring support formula liquid flow resisting mechanism can reset the part with coil spring 167, and the centre bore is opened, realizes that liquid flows.

The specific use mode is as follows: during the operation of the invention, a rotating shaft to be controlled is arranged inside the plug-in mounting and fixing mechanism 16, then hydraulic oil is filled in the device, then the control input end of the coil 20 is connected with the control output end of a current controller through a lead, when the device is operated, the rotating shaft drives the turbine 13 to rotate rapidly, internal liquid forms a circulating flow, once reverse backflow rotation occurs, the ball 9 blocks a hole at the bottom, so that the flow cannot be formed, the rotating state is stopped, when braking is required, the coil 20 is controlled, so that repulsive force is generated between the iron core 19 and the permanent magnet 22, and the repulsive force enables the spiral spring support type liquid flow resisting mechanism 16 to operate, so that the liquid is blocked, and braking is realized.

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 liquid flow formula rotary mechanism connection control device, includes main body cover (1), its characterized in that: the main body shell (1) center is provided with a main through hole structure (2), the inside of the main body shell (1) is located again the two sides of the main through hole structure (2) are respectively provided with a turbine installation space (3) and a spherical space (4), the inside of the main body shell (1) is provided with a main flow hole structure (5) and an auxiliary flow hole structure (6) which are communicated with the tops of the turbine installation space (3) and the spherical space (4) and the bottoms of the turbine installation space (3) and the spherical space (4), the side surface of the main body shell (1) is provided with a liquid injection pipeline (7) communicated with the main flow hole structure (5), the end part of the liquid injection pipeline (7) is provided with a liquid injection valve (8), the side surface of the main body shell (1) is provided with a main part installation space (10) communicated with the auxiliary flow hole structure (6), and the inside of the main part installation space (10) is provided with a spring type liquid pressure elastic control mechanism (11) An auxiliary part installation space (15) is arranged in the middle part of the auxiliary flow hole structure (6) in the main body shell (1), a spiral spring supporting type liquid flow blocking mechanism (16) is installed in the auxiliary part installation space (15), a ball (9) is placed in the spherical space (4), the structural radius of the ball (9) is larger than that of the main flow hole structure (5) and the auxiliary flow hole structure (6), a main rotating shaft (12) is installed in the main body shell (1) through a bearing and a sealing ring, a turbine (13) is installed on a shaft body in the turbine installation space (3) in the main rotating shaft (12), one end of the main rotating shaft (12) is located outside the main body shell (1), and a rotating shaft inserting type installation and fixing mechanism (14) is installed at the end part of the main body shell, main body cover (1) is lieing in a main through-hole structure (2) top position installation part installation shell (17), an inside top installation iron core (19) of part installation shell (17), iron core (19) cup joint in the inside of a coil (20), the inside of part installation shell (17) is provided with wire guide (21) that communicate outside and coil (20), part installation shell (17) bottom center is provided with part removal space (18), the top of coil spring support formula liquid choked flow mechanism (16) is located the inside of part removal space (18), just a top installation permanent magnet (22) of coil spring support formula liquid choked flow mechanism (16).

2. A liquid flow rotary mechanism interface control apparatus as claimed in claim 1 wherein: the spring type liquid pressure elastic control mechanism (11) comprises a hollow shell (111) for the spring type liquid pressure elastic control mechanism, an empty liquid sealing ring (112) for the spring type liquid pressure elastic control mechanism, a hollow structure (113) for the spring type liquid pressure elastic control mechanism, a liquid discharge hole (114) for the spring type liquid pressure elastic control mechanism, a valve plate insertion space (115) for the spring type liquid pressure elastic control mechanism, a liquid inlet hole (116) for the spring type liquid pressure elastic control mechanism, a moving plate (117) for the spring type liquid pressure elastic control mechanism, a valve plate (118) for the spring type liquid pressure elastic control mechanism, a liquid through hole (119) for the spring type liquid pressure elastic control mechanism and a spiral spring (1110) for the spring type liquid pressure elastic control mechanism; the spring type liquid pressure elastic control mechanism is characterized in that a hollow sealing ring (112) for the spring type liquid pressure elastic control mechanism is sleeved on the side face of a hollow shell (111) for the spring type liquid pressure elastic control mechanism, a hollow structure (113) for the spring type liquid pressure elastic control mechanism is arranged in the center of the inner portion of the hollow shell (111) for the spring type liquid pressure elastic control mechanism, a liquid discharge hole (114) for the spring type liquid pressure elastic control mechanism is arranged at one side of the hollow structure (113) for the spring type liquid pressure elastic control mechanism, one end of the liquid discharge hole (114) for the spring type liquid pressure elastic control mechanism is communicated with one end of the hollow shell (111) for the spring type liquid pressure elastic control mechanism, and the hollow shell (111) for the spring type liquid pressure elastic control mechanism is arranged at the other side of the hollow structure (113) for the spring type liquid pressure elastic control mechanism A valve plate insertion space (115) for a spring type liquid pressure elastic control mechanism, wherein a liquid inlet hole (116) for the spring type liquid pressure elastic control mechanism is formed in one side, located in the valve plate insertion space (115), of a hollow shell (111) for the spring type liquid pressure elastic control mechanism, the spring type liquid pressure elastic control mechanism is communicated with the other side of the hollow shell (111) for the spring type liquid pressure elastic control mechanism through the liquid inlet hole (116), a moving plate (117) for the spring type liquid pressure elastic control mechanism is arranged in the hollow shell (111) for the spring type liquid pressure elastic control mechanism and located in a hollow structure (113) for the spring type liquid pressure elastic control mechanism, and the moving plate (117) for the spring type liquid pressure elastic control mechanism is arranged in the center of the end face, located on one side of the valve plate insertion space (115) for the spring type liquid pressure elastic control mechanism The valve plate (118) is integrated with the valve plate for the spring type liquid pressure elastic control mechanism, a liquid through hole (119) for the spring type liquid pressure elastic control mechanism is formed in the side face of a moving plate (117) for the spring type liquid pressure elastic control mechanism and communicated with two end faces of the moving plate, and a spiral spring (1110) for the spring type liquid pressure elastic control mechanism is installed on the other end face of the moving plate (117) for the spring type liquid pressure elastic control mechanism.

3. A liquid flow rotary mechanism interface control apparatus as claimed in claim 2 wherein: the spring type liquid pressure elastic control mechanism is clamped in the main component mounting hole (10) through an air-liquid sealing ring (112), and one end of a liquid inlet hole (116) for the spring type liquid pressure elastic control mechanism is communicated with the auxiliary flow hole structure (6).

4. A liquid flow rotary mechanism interface control apparatus as claimed in claim 2 wherein: the initial length of the spiral spring (1110) for the spring type liquid pressure elastic control mechanism is larger than the transverse length of the hollow structure (113) for the spring type liquid pressure elastic control mechanism.

5. A liquid flow rotary mechanism interface control apparatus as claimed in claim 1 wherein: the rotary shaft inserting type mounting and fixing mechanism (14) comprises a rod-shaped shell (141) for the rotary shaft inserting type mounting and fixing mechanism, a cable inserting groove structure (142) for the rotary shaft inserting type mounting and fixing mechanism, a threaded pipeline body (143) for the rotary shaft inserting type mounting and fixing mechanism, a touch panel groove structure (144) for the rotary shaft inserting type mounting and fixing mechanism, a touch panel (145) for the rotary shaft inserting type mounting and fixing mechanism, a bearing (146) for the rotary shaft inserting type mounting and fixing mechanism, a threaded rod (147) for the rotary shaft inserting type mounting and fixing mechanism, a threaded structure (148) for the rotary shaft inserting type mounting and fixing mechanism and a rotating plate (149) for the; the center of a rotation axis plug-in installation is equipped with that the rotation axis plug-in installation is cable for fixed establishment and inserts groove structure (142) at the center of a rotation axis plug-in installation for fixed establishment shaft rod shell (141) terminal surface, the side of rotation axis plug-in installation for fixed establishment rod shell (141) is provided with a plurality of with screw pipeline body (143) for the rotation axis plug-in installation fixed establishment of its integral type structure, rotation axis plug-in installation for fixed establishment rod shell (141) is lieing in the inner wall of rotation axis plug-in installation for fixed establishment cable inserts groove structure (142) is provided with a plurality of rotation axis plug-in installation for fixed establishment touch panel groove structure (144), every the inside installation of rotation axis plug-in installation for fixed establishment touch panel groove structure (144) for the rotation axis plug-in installation fixed establishment touch panel (145), a terminal surface installation of rotation axis plug-in installation for fixed establishment touch panel And a threaded rod (147), wherein the rod body of the threaded rod (147) for the rotary shaft plug-in mounting and fixing mechanism penetrates through the rod-shaped housing (141) for the rotary shaft plug-in mounting and fixing mechanism and the threaded pipe body (143) for the rotary shaft plug-in mounting and fixing mechanism, the threaded rod (147) for the rotary shaft plug-in mounting and fixing mechanism and the threaded pipe body (143) for the rotary shaft plug-in mounting and fixing mechanism are connected by a threaded structure (148) for the rotary shaft plug-in mounting and fixing mechanism, and a rotary plate (149) for the rotary shaft plug-in mounting and fixing mechanism is mounted at the end of the threaded rod (147) for the.

6. A liquid flow rotary mechanism interface control apparatus as claimed in claim 5, wherein: the other end face of the rod-shaped shell (141) for the rotating shaft inserting type mounting and fixing mechanism is fixedly connected with the end part of one end of the main rotating shaft (12) which is positioned at the outside.

7. A liquid flow rotary mechanism interface control apparatus as claimed in claim 5, wherein: the length of the threaded rod (147) for the rotary shaft plug-in mounting and fixing mechanism is larger than the diameter of the cable plug-in groove structure (142) for the rotary shaft plug-in mounting and fixing mechanism.

8. A liquid flow rotary mechanism interface control apparatus as claimed in claim 1 wherein: the spiral spring support type liquid flow resisting mechanism (16) comprises a shell (161) for a spiral spring support type liquid flow resisting mechanism, a central hole (162) for the spiral spring support type liquid flow resisting mechanism, a valve rod inserting hole (163) for the spiral spring support type liquid flow resisting mechanism, a moving space (164) for the spiral spring support type liquid flow resisting mechanism, a moving plate (165) for the spiral spring support type liquid flow resisting mechanism, a valve rod (166) for the spiral spring support type liquid flow resisting mechanism, a spiral spring (167) for the spiral spring support type liquid flow resisting mechanism, a threaded rod (168) for the spiral spring support type liquid flow resisting mechanism, a threaded structure (169) for the spiral spring support type liquid flow resisting mechanism and a rotating plate (1610) for the spiral spring support type liquid flow resisting mechanism; a central hole (162) for the coil spring support type liquid flow resisting mechanism is arranged at the center of the central hole (162) at the bottom of the shell (161) for the coil spring support type liquid flow resisting mechanism, a valve rod inserting hole (163) for the coil spring support type liquid flow resisting mechanism is arranged at the center of the central hole (162) for the coil spring support type liquid flow resisting mechanism, a moving space (164) for the coil spring support type liquid flow resisting mechanism is arranged at the top of the valve rod inserting hole (163) for the coil spring support type liquid flow resisting mechanism, a moving plate (165) for the coil spring support type liquid flow resisting mechanism is arranged inside the moving space (164) for the coil spring support type liquid flow resisting mechanism, and a valve rod (166) for the coil spring support type liquid flow resisting mechanism is arranged inside the valve rod inserting hole (163) for the coil spring support type liquid flow resisting mechanism, the top of valve rod (166) for the spiral spring support type liquid flow resisting mechanism is arranged at the center of the bottom of a movable plate (165) for the spiral spring support type liquid flow resisting mechanism, a threaded rod (168) for the spiral spring support type liquid flow resisting mechanism is arranged at the center of the upper surface of the movable plate (165) for the spiral spring support type liquid flow resisting mechanism, a rod body of the threaded rod (168) for the spiral spring support type liquid flow resisting mechanism is arranged at the center of the top of a shell (161) for the spiral spring support type liquid flow resisting mechanism through a threaded structure (169) for the spiral spring support type liquid flow resisting mechanism, a spiral spring support type rotating plate (1610) for the liquid flow resisting mechanism is arranged at the top end of the threaded rod (168) for the spiral spring support type liquid flow resisting mechanism, and the valve rod (166) for the spiral spring support type liquid flow resisting mechanism is arranged on a rod body in a moving space (164) for the spiral spring support type liquid The spiral spring support type liquid flow resisting mechanism uses the spiral spring (167).

9. A liquid flow rotary mechanism interface control apparatus as claimed in claim 8 wherein: the thread structure (169) for the spiral spring support type liquid flow resisting mechanism comprises an external thread structure arranged on a threaded rod (168) body for the spiral spring support type liquid flow resisting mechanism and an internal thread structure arranged on the inner wall of a shell (161) for the structure moving screwing type liquid flow control mechanism.

10. A liquid flow rotary mechanism interface control apparatus as claimed in claim 8 wherein: the spiral spring supporting type liquid flow resisting mechanism shell (161) is installed inside the auxiliary component installation space (15), the spiral spring supporting type liquid flow resisting mechanism center hole (162) is communicated with the auxiliary flow hole structure (5), the spiral spring supporting type liquid flow resisting mechanism rotating plate (1610) is located inside the component moving space (18), and a permanent magnet (22) is installed on the upper surface of the spiral spring supporting type liquid flow resisting mechanism rotating plate (1610).

Images