CN115143287A - Intelligent heat remote transmission valve - Google Patents

Abstract

The invention discloses an intelligent heat remote transmission valve, which comprises a valve body, wherein a sealing connecting seat is arranged in the valve body, a trapezoidal water flowing port is formed in the center of the sealing connecting seat, a remote automatic control device is installed on the valve body and comprises an outer protective shell, a threaded hole is formed in the valve body, a cylindrical gear is sleeved at one end, located in the outer protective shell, of a threaded valve rod, a transmission gear is meshed at one side of the cylindrical gear, the bottom end of the transmission gear is connected with a micro motor through a transmission rod, the micro motor is installed on the valve body, and a remote control system is connected to one side of the micro motor in a control mode, so that the intelligent heat remote transmission valve has the advantages that: the device is simple in structure and convenient to use, can effectively increase the sealing property of the connection between the external pipeline and the valve body, can be remotely controlled, facilitates the management of people, and is not limited by distance.

Description

Intelligent heat remote transmission valve

Technical Field

The invention relates to the technical field of remote transmission valves, in particular to an intelligent heat remote transmission valve.

Background

The water works occupy huge land, and related pipe networks and valves are numerous, but are limited by electricity utilization limitation, and generally adopt mechanical manual valves, special opening angle indications are arranged on the valves, special valve operators need to be equipped, and the opening and closing angles of the related valves are adjusted according to instructions of a master control room to adjust the flow of the pipelines. However, since the existing valves are all mechanical manual valves, the on-site opening and closing angles of the valves need operators, the operators need to feed back the on-site opening and closing angles to the master control room after reading the on-site opening and closing angles, the master control room measures and calculates the regulating and controlling angles according to the opening angle values fed back on the site, and then calls the operators to carry out on-site regulation, which wastes time and labor.

Along with the development of society and the technique and improvement of science and technology, people's standard of living has obtained the promotion gradually, and the application of valve is everywhere, and especially the running water enterprise is used, and the current running water enterprise mostly adopts manual valve, need transfer the staff to close when closing the valve, from this can not be timely close the action to the valve, and then cause great loss, reduced the work efficiency of valve.

An effective solution to the problems in the related art has not been proposed yet.

Disclosure of Invention

The invention provides an intelligent heat remote transmission valve aiming at the problems in the related art, and aims to overcome the technical problems in the prior related art.

The technical scheme of the invention is realized as follows:

an intelligent heat remote transmission valve comprises a valve body, wherein a sealing connecting seat is arranged in the valve body, a trapezoidal water flow opening is formed in the center of the sealing connecting seat, a remote automatic control device is installed on the valve body and comprises an outer protective shell, a threaded hole is formed in the valve body, a threaded valve rod penetrating through the threaded hole is movably arranged on the outer protective shell, a trapezoidal sealing plug matched with the trapezoidal water flow opening is arranged at one end of the threaded valve rod, a cylindrical gear is sleeved at one end of the threaded valve rod, the cylindrical gear is meshed with a transmission gear, the bottom end of the transmission gear is connected with a micro motor through a transmission rod, the micro motor is installed on the valve body, a remote control system is connected to one side of the micro motor and comprises the Internet of things, the Internet of things is connected with a transmitting module, the transmitting module is connected with a remote control terminal, the remote control terminal is connected with a valve actuator and a valve sensor, the valve actuator is connected with the micro motor in a control mode, the top end of the transmission gear is connected with an angle detection device through a rotating shaft, flanges are connected to two ends of the valve body, a circular opening is arranged in the flange, a circular opening is arranged in the circular opening, a limiting block is symmetrically arranged on the inner wall of the limiting block, a limiting block is symmetrically arranged on the inner wall of the limiting ring, and a limiting block, a limiting block is symmetrically arranged on the inner wall of the limiting block, and a compression spring is arranged on the limiting hole, an upper positioning ring is connected between the tops of the compression springs, and an elastic sealing ring is arranged on the upper positioning ring.

Furthermore, the top of screw thread valve rod is equipped with manual carousel, be equipped with the rotation handle on the manual carousel.

Furthermore, four mounting positioning holes are formed in the flange plate, and a rubber sealing gasket is arranged on the outer wall of the flange plate.

Furthermore, the two sides of the outer protective shell are fixedly provided with installation blocks, and the installation blocks fix the outer protective shell on the outer wall of the valve body through installation nails.

Further, install the battery in the outer protective housing, the battery pass through the cable with remote control system with the micro motor electrical property links to each other.

Furthermore, the threaded valve rod is located the upper end and the lower end of the threaded hole are both provided with waterproof rings, and waterproof coatings are sprayed on the outer wall of the threaded valve rod.

Further, angle detection device is including installing circular casing on the protective housing, be equipped with the scale indication strip in the circular casing, the top of pivot extends to be equipped with the pointer in the circular casing.

Further, install pressure sensor and flow sensor in the valve body respectively, pressure sensor with flow sensor with internet of things connects.

The invention provides an intelligent heat remote transmission valve which has the following beneficial effects:

(1) The automatic remote control device comprises an outer protective shell, a threaded hole is formed in the valve body, a threaded valve rod penetrating through the threaded hole is movably arranged on the outer protective shell, one end, located inside the valve body, of the threaded valve rod is provided with a trapezoidal sealing plug matched with the trapezoidal water flowing port, a cylindrical gear is sleeved on one end, located inside the outer protective shell, of the threaded valve rod, a transmission gear is meshed with one side of the cylindrical gear, the bottom end of the transmission gear is connected with a micro motor through a transmission rod, the micro motor is installed on the valve body, one side of the micro motor is in control connection with a remote control system, the automatic remote control device is simple in structure, the automatic remote control device is convenient to use, the sealing performance of the external pipeline and the valve body can be effectively improved, meanwhile, remote control can be achieved, people's management is facilitated, and the automatic remote control device is not limited by distance.

(2) The top at the screw thread valve rod is equipped with manual carousel, be equipped with the rotation handle on the manual carousel, utilize to rotate the manual carousel of handle cooperation, make things convenient for the manual rotation of screw thread valve rod.

(3) Four mounting positioning holes are formed in the flange plate, a rubber sealing gasket is arranged on the outer wall of the flange plate, and the rubber sealing gasket is matched under the action of the mounting positioning holes, so that the connection accuracy and the sealing effect are improved.

(4) The installation blocks are fixedly arranged on two sides of the outer protection shell, the installation blocks are fixed to the outer protection shell through installation nails, the outer protection shell is fixed to the outer wall of the valve body, and the outer protection shell is conveniently installed on the outer wall of the valve body through the cooperation of the installation blocks and the installation nails.

(5) The storage battery is installed in the outer protective shell, the storage battery passes through the cable and the remote control system with the micro motor electrical property links to each other, utilizes the effect of battery, conveniently supplies power to equipment.

(6) Lie in on the screw thread valve rod the upper and lower both ends of screw hole all are equipped with waterproof ring, screw thread valve rod outer wall spraying has waterproof coating, utilizes waterproof ring's effect, increases the leakproofness of screw hole department, and waterproof coating increases the waterproof and anticorrosive effect of screw thread valve rod.

(7) The angle detection device comprises a circular shell body arranged on the outer protection shell, a scale indication strip is arranged in the circular shell body, the top end of the rotating shaft extends to an indication needle arranged in the circular shell body, the rotating shaft is driven by a transmission gear to enable the indication needle to rotate, and whether the indication needle completely returns to the original position or not can be displayed through the scale indication strip.

(8) The pressure sensor and the flow sensor are installed in the valve body respectively, the pressure sensor and the flow sensor are connected with the Internet of things, the pressure sensor and the flow sensor can detect the pressure and the flow condition of fluid respectively under the action of the pressure sensor and the flow sensor, and the pressure and the flow condition can be sent out in real time through the Internet of things.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings needed in the embodiments will be briefly described below, and it is obvious that the drawings in the following description are only some embodiments of the present invention, and it is obvious for those skilled in the art to obtain other drawings without creative efforts.

Fig. 1 is a front view of an intelligent heat telemetering valve according to an embodiment of the present invention;

fig. 2 is a schematic structural diagram of an intelligent heat remote valve according to an embodiment of the invention;

fig. 3 is a flow chart of a remote control system in an intelligent heat remote valve according to an embodiment of the present invention;

fig. 4 is a schematic structural diagram of a connection structure in an intelligent heat remote transmission valve according to an embodiment of the invention;

fig. 5 is a schematic structural diagram of a sealing structure in an intelligent heat remote valve according to an embodiment of the invention;

fig. 6 is a schematic structural diagram of an angle detection device in an intelligent heat remote transmission valve according to an embodiment of the invention.

In the figure:

1. a valve body; 2. sealing the connecting seat; 3. a trapezoidal water flowing port; 4. a remote automatic control device; 5. an outer protective shell; 6. a threaded valve stem; 7. a threaded hole; 8. a trapezoidal sealing plug; 9. a cylindrical gear; 10. a transmission gear; 11. a micro motor; 12. a remote control system; 13. a valve actuator; 14. a valve sensor; 15. a remote control terminal; 16. a transmitting module; 17. the Internet of things; 18. a rotating shaft; 19. an angle detection device; 20. a flange plate; 21. a circular opening; 22. a connecting structure; 23. connecting threads; 24. a limiting block; 25. a sealing structure; 26. a flow channel; 27. a lower fixing ring; 28. a limiting hole; 29. a compression spring; 30. an upper positioning ring; 31. an elastic seal ring; 32. a manual turntable; 33. rotating the handle; 34. installing a positioning hole; 35. a rubber gasket; 36. mounting blocks; 37. a storage battery; 38. a waterproof ring; 39. a circular housing; 40. a scale indication bar; 41. an indicator needle; 42. a pressure sensor; 43. and a flow sensor.

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 that can be derived by one of ordinary skill in the art from the embodiments given herein are intended to be within the scope of the present invention.

The invention is further described with reference to the following drawings and detailed description:

the first embodiment is as follows:

referring to fig. 1 to 6, an intelligent heat remote transmission valve according to an embodiment of the present invention includes a valve body 1, a sealing connection seat 2 is disposed in the valve body 1, a trapezoidal water flow port 3 is disposed at a center of the sealing connection seat 2, a remote automatic control device 4 is mounted on the valve body 1, the remote automatic control device 4 includes an outer protection shell 5, a threaded hole 7 is disposed on the valve body 1, a threaded valve rod 6 penetrating through the threaded hole 7 is movably disposed on the outer protection shell 5, a trapezoidal sealing plug 8 matching with the trapezoidal water flow port 3 is disposed at one end of the threaded valve rod 6 located inside the valve body 1, a cylindrical gear 9 is sleeved at one end of the threaded valve rod 6 located inside the outer protection shell 5, a transmission gear 10 is engaged at one side of the cylindrical gear 9, a bottom end of the transmission gear 10 is connected to a micro motor 11 through a transmission rod, the micro motor 11 is mounted on the valve body 1, one side of the micro motor 11 is controlled and connected to a remote control system 12, the remote control system 12 includes an internet of things 17, the transmission module 16 is connected to the transmission module 16, a remote control terminal 15, a valve actuator 13 and a flange plate 20 connected to a circular opening 20, an opening of the valve body 21 is symmetrically connected to an opening 21, an opening of the ring 21 is connected to an inner wall of the ring 21, an opening of the ring 21, the ring 21 is connected to a circular ring 21, install seal structure 25 between stopper 24, seal structure 25 center department is equipped with runner 26, seal structure 25 is including connecting lower fixing ring 27 between stopper 24, the symmetry is equipped with spacing hole 28 on the lower fixing ring 27, install compression spring 29 on the spacing hole 28, be connected with between compression spring 29's the top and go up holding ring 30, upward be equipped with elastic seal 31 on the holding ring 30.

According to the technical scheme of the invention, a sealing connecting seat 2 is arranged in a valve body 1, a trapezoidal water flow port 3 is arranged at the center of the sealing connecting seat 2, a remote automatic control device 4 is installed on the valve body 1, the remote automatic control device 4 comprises an outer protective shell 5, a threaded hole 7 is formed in the valve body 1, a threaded valve rod 6 penetrating through the threaded hole 7 is movably arranged on the outer protective shell 5, a trapezoidal sealing plug 8 matched with the trapezoidal water flow port 3 is arranged at one end of the threaded valve rod 6 positioned in the valve body 1, a cylindrical gear 9 is sleeved at one end of the threaded valve rod 6 positioned in the outer protective shell 5, a transmission gear 10 is meshed at one side of the cylindrical gear 9, the bottom end of the transmission gear 10 is connected with a micro motor 11 through a transmission rod, the micro motor 11 is installed on the valve body 1, a remote control system 12 is in control connection with one side of the micro motor 11, the remote control system 12 comprises an internet of things 17, the transmission module 16 is connected with the transmission module 16, the transmission module 16 is connected with a remote control terminal 15, the remote control terminal 15 is connected with a valve 13 and a valve sensor 14, a valve actuator 13 is connected with the micro motor 11, a limiting block 21, an opening is connected with a limiting block 20, a limiting block 21 is arranged in a circular opening structure, a limiting block structure is arranged in a circular opening 23 connected between two ends of the inner wall structure, a limiting block 21 is connected with a limiting block 21, the circular opening 23 is connected with a limiting block 20, the circular opening structure, the circular opening 23 is connected with the circular opening, the limiting block 21 is connected with the internal wall structure, the limiting block 21, the center of the sealing structure 25 is provided with a flow passage 26, the sealing structure 25 comprises a lower fixing ring 27 connected between the limiting blocks 24, the lower fixing ring 27 is symmetrically provided with limiting holes 28, a compression spring 29 is installed on the limiting holes 28, an upper positioning ring 30 is connected between the tops of the compression springs 29, and an elastic sealing ring 31 is arranged on the upper positioning ring 30. When the device is used, an external pipeline is firstly connected with the valve body 1, the external pipeline is in threaded connection with a connecting thread 23 on a flange plate 20 through the action of a connecting structure 22, the external pipeline can extrude the elastic sealing ring 31 in the sealing structure 25 to enable the external pipeline to be embedded into the elastic sealing ring 31, meanwhile, the pressure can continuously move forwards to push the upper positioning ring 30, so that the compression spring 29 is compressed into the limiting holes 28, the lower fixing ring 27 is attached to the upper positioning ring 30, the connection and sealing of the external pipeline can be completed, the water leakage condition of the connecting position can be prevented, when the remote control is needed, the remote automatic control device 4 is used, a control signal is received through a remote control module 16, a remote control actuator 15 is matched with a trapezoidal valve body 13, the valve is conveniently opened, the valve rod is conveniently opened, the lifting actuator 13 is driven, and a simple control valve rod driving device is driven by a simple transmission gear 9, so that the plug 8 is driven by a simple lifting transmission mechanism 7 and a simple plug 8, and a simple transmission mechanism is conveniently opened, so that the plug is driven by a simple transmission gear of a simple transmission gear, the transmission mechanism of the internet of the ladder-type automatic control device, and a simple transmission mechanism is started, the ladder-type valve is conveniently opened, and a simple transmission mechanism is started, and a simple transmission mechanism is added, so that the ladder-type valve body 6, the ladder-type transmission mechanism is convenient to be used, meanwhile, remote control can be performed, management of people is facilitated, and the device is not limited by distance.

Example two:

as shown in fig. 2, a sealing connection seat 2 is arranged in a valve body 1, a trapezoidal water flow port 3 is arranged at the center of the sealing connection seat 2, a remote automatic control device 4 is installed on the valve body 1, the remote automatic control device 4 comprises an outer protection shell 5, a threaded hole 7 is arranged on the valve body 1, a threaded valve rod 6 penetrating through the threaded hole 7 is movably arranged on the outer protection shell 5, a trapezoidal sealing plug 8 matched with the trapezoidal water flow port 3 is arranged at one end of the threaded valve rod 6 positioned in the valve body 1, a cylindrical gear 9 is sleeved at one end of the threaded valve rod 6 positioned in the outer protection shell 5, a transmission gear 10 is meshed at one side of the cylindrical gear 9, the bottom end of the transmission gear 10 is connected with a micro motor 11 through a transmission rod, and the micro motor 11 is installed on the valve body 1, one side of the micro motor 11 is in control connection with a remote control system 12, the remote control system 12 comprises an internet of things 17, the internet of things 17 is connected with a transmitting module 16, the transmitting module 16 is connected with a remote control terminal 15, the remote control terminal 15 is connected with a valve actuator 13 and a valve sensor 14, the valve actuator 13 is in control connection with the micro motor 11, the top end of the transmission gear 10 is connected with an angle detection device 19 through a rotating shaft 18, two ends of the valve body 1 are connected with flanges 20, circular openings 21 are arranged in the flanges 20, connecting structures 22 are arranged in the circular openings 21, the connecting structures 22 comprise connecting threads 23 which are positioned on the inner walls of the circular openings 21, limit blocks 24 are symmetrically arranged at one ends, far away from the connecting threads 23, of the inner walls of the circular openings 21, and sealing structures 25 are arranged between the limit blocks 24, a flow channel 26 is arranged at the center of the sealing structure 25, the sealing structure 25 comprises a lower fixing ring 27 connected between the limiting blocks 24, limiting holes 28 are symmetrically formed in the lower fixing ring 27, a compression spring 29 is mounted on each limiting hole 28, an upper positioning ring 30 is connected between the tops of the compression springs 29, an elastic sealing ring 31 is arranged on each upper positioning ring 30, four mounting and positioning holes 34 are formed in the flange plate 20, a rubber sealing gasket 35 is arranged on the outer wall of the flange plate 20, and the rubber sealing gasket 35 is matched under the action of the mounting and positioning holes 34, so that the connecting accuracy and the sealing effect are improved;

example three:

as shown in fig. 2, a sealing connection seat 2 is arranged in a valve body 1, a trapezoidal water flow port 3 is arranged at the center of the sealing connection seat 2, a remote automatic control device 4 is installed on the valve body 1, the remote automatic control device 4 comprises an outer protection shell 5, a threaded hole 7 is arranged on the valve body 1, a threaded valve rod 6 penetrating through the threaded hole 7 is movably arranged on the outer protection shell 5, a trapezoidal sealing plug 8 matched with the trapezoidal water flow port 3 is arranged at one end of the threaded valve rod 6 positioned in the valve body 1, a cylindrical gear 9 is sleeved at one end of the threaded valve rod 6 positioned in the outer protection shell 5, a transmission gear 10 is meshed at one side of the cylindrical gear 9, the bottom end of the transmission gear 10 is connected with a micro motor 11 through a transmission rod, and the micro motor 11 is installed on the valve body 1, one side of the micro motor 11 is in control connection with a remote control system 12, the remote control system 12 comprises an internet of things 17, the internet of things 17 is connected with a transmitting module 16, the transmitting module 16 is connected with a remote control terminal 15, the remote control terminal 15 is connected with a valve actuator 13 and a valve sensor 14, the valve actuator 13 is in control connection with the micro motor 11, the top end of the transmission gear 10 is connected with an angle detection device 19 through a rotating shaft 18, two ends of the valve body 1 are connected with flanges 20, circular openings 21 are arranged in the flanges 20, connecting structures 22 are arranged in the circular openings 21, the connecting structures 22 comprise connecting threads 23 which are positioned on the inner walls of the circular openings 21, limit blocks 24 are symmetrically arranged at one ends, far away from the connecting threads 23, of the inner walls of the circular openings 21, and sealing structures 25 are arranged between the limit blocks 24, a flow passage 26 is arranged at the center of the sealing structure 25, the sealing structure 25 comprises a lower fixing ring 27 connected between the limiting blocks 24, limiting holes 28 are symmetrically arranged on the lower fixing ring 27, a compression spring 29 is mounted on the limiting holes 28, an upper positioning ring 30 is connected between the tops of the compression springs 29, an elastic sealing ring 31 is arranged on the upper positioning ring 30, waterproof rings 38 are arranged at the upper end and the lower end of the threaded hole 7 on the threaded valve rod 6, a waterproof coating is sprayed on the outer wall of the threaded valve rod 6, the sealing performance of the threaded hole 7 is improved by the aid of the waterproof rings 38, and the waterproof coating improves waterproof and anticorrosion functions of the threaded valve rod 6;

example four:

as shown in fig. 6, a sealing connection seat 2 is arranged in a valve body 1, a trapezoidal water flow port 3 is arranged at the center of the sealing connection seat 2, a remote automatic control device 4 is installed on the valve body 1, the remote automatic control device 4 comprises an outer protection shell 5, a threaded hole 7 is arranged on the valve body 1, a threaded valve rod 6 penetrating through the threaded hole 7 is movably arranged on the outer protection shell 5, a trapezoidal sealing plug 8 matched with the trapezoidal water flow port 3 is arranged at one end of the threaded valve rod 6 positioned in the valve body 1, a cylindrical gear 9 is sleeved at one end of the threaded valve rod 6 positioned in the outer protection shell 5, a transmission gear 10 is meshed at one side of the cylindrical gear 9, the bottom end of the transmission gear 10 is connected with a micro motor 11 through a transmission rod, and the micro motor 11 is installed on the valve body 1, one side of the micro motor 11 is in control connection with a remote control system 12, the remote control system 12 comprises an internet of things 17, the internet of things 17 is connected with a transmitting module 16, the transmitting module 16 is connected with a remote control terminal 15, the remote control terminal 15 is connected with a valve actuator 13 and a valve sensor 14, the valve actuator 13 is in control connection with the micro motor 11, the top end of the transmission gear 10 is connected with an angle detection device 19 through a rotating shaft 18, two ends of the valve body 1 are connected with flanges 20, circular openings 21 are arranged in the flanges 20, connecting structures 22 are arranged in the circular openings 21, the connecting structures 22 comprise connecting threads 23 which are positioned on the inner walls of the circular openings 21, limit blocks 24 are symmetrically arranged at one ends, far away from the connecting threads 23, of the inner walls of the circular openings 21, and sealing structures 25 are arranged between the limit blocks 24, a flow passage 26 is arranged at the center of the sealing structure 25, the sealing structure 25 comprises a lower fixing ring 27 connected between the limiting blocks 24, limiting holes 28 are symmetrically arranged on the lower fixing ring 27, a compression spring 29 is mounted on the limiting holes 28, an upper positioning ring 30 is connected between the tops of the compression springs 29, an elastic sealing ring 31 is arranged on the upper positioning ring 30, the angle detection device 19 comprises a circular shell 39 mounted on the outer protective shell 5, a scale indication strip 40 is arranged in the circular shell 39, the top end of the rotating shaft 18 extends to the circular shell 39 and is provided with an indication needle 41, the transmission gear 10 is used for driving the rotating shaft 18 so as to enable the indication needle 41 to rotate, and whether the indication needle is completely aligned can be displayed through the scale indication strip 40;

example five:

as shown in fig. 2, a sealing connection seat 2 is arranged in a valve body 1, a trapezoidal water flow port 3 is arranged at the center of the sealing connection seat 2, a remote automatic control device 4 is installed on the valve body 1, the remote automatic control device 4 comprises an outer protection shell 5, a threaded hole 7 is arranged on the valve body 1, a threaded valve rod 6 penetrating through the threaded hole 7 is movably arranged on the outer protection shell 5, a trapezoidal sealing plug 8 matched with the trapezoidal water flow port 3 is arranged at one end of the threaded valve rod 6 positioned in the valve body 1, a cylindrical gear 9 is sleeved at one end of the threaded valve rod 6 positioned in the outer protection shell 5, a transmission gear 10 is meshed at one side of the cylindrical gear 9, the bottom end of the transmission gear 10 is connected with a micro motor 11 through a transmission rod, and the micro motor 11 is installed on the valve body 1, one side of the micro motor 11 is in control connection with a remote control system 12, the remote control system 12 comprises an internet of things 17, the internet of things 17 is connected with a transmitting module 16, the transmitting module 16 is connected with a remote control terminal 15, the remote control terminal 15 is connected with a valve actuator 13 and a valve sensor 14, the valve actuator 13 is in control connection with the micro motor 11, the top end of the transmission gear 10 is connected with an angle detection device 19 through a rotating shaft 18, two ends of the valve body 1 are connected with flanges 20, circular openings 21 are arranged in the flanges 20, connecting structures 22 are arranged in the circular openings 21, the connecting structures 22 comprise connecting threads 23 which are positioned on the inner walls of the circular openings 21, limit blocks 24 are symmetrically arranged at one ends, far away from the connecting threads 23, of the inner walls of the circular openings 21, and sealing structures 25 are arranged between the limit blocks 24, seal structure 25 center department is equipped with runner 26, seal structure 25 is including connecting lower fixing ring 27 between stopper 24, lower fixing ring 27 goes up the symmetry and is equipped with spacing hole 28, install compression spring 29 on the spacing hole 28, be connected with holding ring 30 between compression spring 29's the top, upward be equipped with elastic seal 31 on the holding ring 30, install pressure sensor 42 and flow sensor 43 in the valve body 1 respectively, pressure sensor 42 with flow sensor 43 with thing networking 17 is connected, utilizes pressure sensor 42 and flow sensor 43's effect, can detect fluidic pressure and flow situation respectively to send away in real time through thing networking 17.

In practical application, firstly, the external pipe is connected with the valve body 1, the external pipe is in threaded connection with the connecting thread 23 on the flange plate 20 through the action of the connecting structure 22, during threaded connection, the external pipe can extrude the elastic sealing ring 31 in the sealing structure 25, so that the external pipe is embedded into the elastic sealing ring 31, meanwhile, the pressure can continue to move forward, the upper positioning ring 30 is pushed, the compression spring 29 is compressed into the limiting hole 28, the lower fixing ring 27 is attached to the upper positioning ring 30, connection and sealing of the external pipe can be completed, and the situation of water leakage at the connection position is prevented.

The above description is only for the purpose of illustrating the preferred embodiments of the present invention and should not be taken as limiting the scope of the present invention, which is intended to cover any modifications, equivalents, improvements, etc. within the spirit and scope of the present invention.

Claims (8)

1. The intelligent heat remote transmission valve comprises a valve body (1), and is characterized in that a sealing connecting seat (2) is arranged in the valve body (1), a trapezoidal water flow port (3) is formed in the center of the sealing connecting seat (2), a remote automatic control device (4) is installed on the valve body (1), the remote automatic control device (4) comprises an outer protective shell (5), a threaded hole (7) is formed in the valve body (1), a threaded valve rod (6) penetrating through the threaded hole (7) is movably arranged on the outer protective shell (5), one end, located inside the valve body (1), of the threaded valve rod (6) is provided with a trapezoidal sealing plug (8) matched with the trapezoidal water flow port (3), one end, located inside the outer protective shell (5), of the threaded valve rod (6) is sleeved with a cylindrical gear (9), one side of the cylindrical gear (9) is meshed with a transmission gear (10), the bottom end of the transmission gear (10) is connected with a micro motor (11) through a transmission rod, the micro motor (11) is installed on the valve body (1), one side of the micro motor (11) is connected with a remote control system (12), and the remote control system (12) comprises an internet of things emission module (17), the transmission module (16) is connected with a remote control terminal (15), the remote control terminal (15) is connected with a valve actuator (13) and a valve sensor (14), the valve actuator (13) is in control connection with the micro motor (11), the top end of the transmission gear (10) is connected with an angle detection device (19) through a rotating shaft (18), two ends of the valve body (1) are connected with flange plates (20), circular openings (21) are formed in the flange plates (20), connecting structures (22) are arranged in the circular openings (21), the connecting structures (22) comprise connecting threads (23) which are located on the inner walls of the circular openings (21), limiting blocks (24) are symmetrically arranged at one ends, far away from the connecting threads (23), of the inner walls of the circular openings (21), sealing structures (25) are installed between the limiting blocks (24), a flow passage (26) is formed in the center of the sealing structures (25), the sealing structures (25) comprise lower fixing rings (27) which are connected between the limiting blocks (24), limiting holes (28) are symmetrically formed in the lower fixing rings (27), compression springs (29), and positioning rings (30) are installed on the limiting holes (28), and an elastic sealing ring (31) is arranged on the upper positioning ring (30).

2. An intelligent heat remote transmission valve according to claim 1, wherein a manual rotating disc (32) is arranged on the top of the threaded valve rod (6), and a rotating handle (33) is arranged on the manual rotating disc (32).

3. The intelligent heat remote transmission valve according to claim 2, wherein the flange (20) is provided with four mounting positioning holes (34), and a rubber gasket (35) is arranged on the outer wall of the flange (20).

4. The intelligent heat remote transmission valve according to claim 3, wherein mounting blocks (36) are fixedly arranged on two sides of the outer protective shell (5), and the outer protective shell (5) is fixed on the outer wall of the valve body (1) through mounting nails by the mounting blocks (36).

5. The intelligent heat remote valve according to claim 4, wherein a storage battery (37) is installed in the outer protective shell (5), and the storage battery (37) is electrically connected with the remote control system (12) and the micro motor (11) through cables.

6. The intelligent heat remote transmission valve according to claim 5, wherein waterproof rings (38) are arranged on the upper end and the lower end of the threaded hole (7) of the threaded valve rod (6), and waterproof coatings are sprayed on the outer wall of the threaded valve rod (6).

7. The intelligent heat remote valve according to claim 6, wherein the angle detection device (19) comprises a circular housing (39) mounted on the outer protective housing (5), a scale indication strip (40) is arranged in the circular housing (39), and an indication needle (41) is arranged in the circular housing (39) and extends from the top end of the rotating shaft (18).

8. The intelligent heat remote transmission valve according to claim 7, wherein a pressure sensor (42) and a flow sensor (43) are respectively installed in the valve body (1), and the pressure sensor (42) and the flow sensor (43) are connected with the Internet of things (17).

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