CN215335811U - Temperature and pressure reducing device capable of effectively utilizing waste heat - Google Patents

Abstract

The utility model discloses a temperature and pressure reducing device capable of effectively utilizing waste heat, which comprises a main pipe, wherein a section of air injection disc is arranged in the main pipe, and the two sections of air injection discs and the one section of air injection disc respectively comprise an air injection pipe, a connecting rotating rod, an air inlet, a power fan and an air injection hole; an air inlet pipe connected to one end of the main pipe; the connecting pipe is connected to the other end of the main pipe through a connecting disc; a flow meter disposed above the connection pipe; and the throttle valve is connected to the other end of the flow meter. This a temperature and pressure reduction device of effectively utilizing waste heat, the two-stage temperature pressure detector that sets up can carry out effective monitoring to the water and the steam after the row of pressing, and voice alarm can carry out effectual alarm processing when the setting value is unusual, and the wireless network module of setting can carry out wireless remote information transmission, and this mechanism can combine with ground control end and removal cell-phone end to effectively carry out real time monitoring, avoid the artifical condition of patrolling and attending on.

Description

Temperature and pressure reducing device capable of effectively utilizing waste heat

Technical Field

The utility model relates to the technical field of temperature and pressure reduction devices, in particular to a temperature and pressure reduction device capable of effectively utilizing waste heat.

Background

The steam temperature reducing device is a device commonly used in energy-saving engineering, and comprises a temperature reducing water atomizing device and a combined vaporizing unit, wherein an atomizing nozzle is used for carrying out pressure atomization on the temperature reducing water and dispersing the temperature reducing water in high-temperature steam flow, the combined vaporizing unit is used for further forcibly rotating, shearing and crushing the atomized temperature reducing water, and the temperature reducing water is vaporized by absorbing heat on the surface of an internal part of the vaporizing unit, so that the vaporizing process is obviously enhanced, and the temperature reduction of high-temperature steam is achieved. The traditional steam temperature-reducing device has small flow adjustable range and poor quality, and can block a spray head and a pipeline under certain conditions.

The existing temperature and pressure reducing device is generally naturally cooled through a pipeline when in use, the cooling efficiency is not good, a monitoring alarm mechanism is not used for effectively monitoring and alarming the running state of the device, the remote monitoring cannot be carried out through manual patrol when in use, the efficiency is low, manpower is wasted, and therefore the temperature and pressure reducing device effectively utilizing waste heat is provided.

SUMMERY OF THE UTILITY MODEL

The utility model aims to provide the problems that the conventional temperature and pressure reducing device is generally cooled naturally through a pipeline when in use, the cooling efficiency is not good, a monitoring alarm mechanism is not used for effectively monitoring and alarming the running state of the device, the remote monitoring cannot be carried out through manual on-duty patrol when in use, the efficiency is low, and the labor is wasted.

In order to achieve the purpose, the utility model provides the following technical scheme: a temperature and pressure reducing device for effectively utilizing waste heat comprises:

the main pipe is internally provided with a section of air injection disc and a section of air injection disc;

the second section of air injection disc is arranged on one side of the first section of air injection disc; the two sections of air injection disks and the one section of air injection disk comprise air injection pipes, connecting rotating rods, air inlets, power fans and air injection holes;

the gas injection pipe is arranged inside the section of the gas injection disc;

the connecting rotating rod is connected to the inside of the gas ejector pipe;

the power fan is arranged on the outer wall of the connecting rotating rod;

a gas inlet provided at one end of the gas lance;

the gas injection hole is formed in the outer wall of the other end of the gas injection pipe;

a safety pipe installed above the main pipe;

a temperature and pressure detecting meter installed on the outer wall of the safety pipe;

a safety valve installed inside the main pipe;

a steam valve disposed at one end of the safety valve;

an air inlet pipe connected to one end of the main pipe;

the connecting pipe is connected to the other end of the main pipe through a connecting disc;

a flow meter disposed above the connection pipe;

and the throttle valve is connected to the other end of the flow meter.

Preferably, the two sections of air injection disks and the one section of air injection disk are matched with the main pipe in shape and size, and a communicating structure is formed between the flow meter and the connecting pipe.

Preferably, the power fan is sleeved with the power fan, and the air injection pipe forms a rotating structure through connecting the rotating rod with a section of air injection disc.

Preferably, the connecting pipe is further provided with:

a water body filter installed inside the connection pipe;

a two-stage temperature and pressure detector mounted above the outer wall of the connecting pipe;

a controller mounted on top of the two-stage temperature and pressure detector;

a voice alarm installed at one side of the controller;

and the wireless network module is arranged on the other side of the controller.

Preferably, a communicating structure is formed between the two-section temperature and pressure detector and the connecting pipe, and the voice alarm, the two-section temperature and pressure detector and the wireless network module are all electrically connected with the controller.

Preferably, the main pipe is further provided with:

heat radiation plates installed at both upper and lower sides of the main pipe;

and the metal copper core heat dissipation rod is arranged inside the heat dissipation plate.

Preferably, the heating panel is the symmetric distribution about the horizontal center line of being responsible for, and the heating panel is provided with two, metal copper core cooling rod is equidistance evenly distributed about the inside of heating panel, metal copper core cooling rod and heating panel threaded connection.

Compared with the prior art, the temperature and pressure reducing device effectively utilizing the waste heat has the following beneficial effects.

1. The rotary jet pipe can rotate to effectively jet air through the jet hole, so that the air-jet pressure relief effect of the jet pipe is improved, the rotary jet pipe can rotate steam to jet the steam in a full angle, the contact surface of the steam and the pipe wall is improved, the heat dissipation is improved, two-stage injection can be performed through the two-stage jet disc and the one-stage jet disc, the pressure and the temperature of the steam are reduced in a stepped manner, the efficiency is improved, the safety is improved, the set throttle valve can guide in water, and the water pressure is effectively reduced by guiding in a pipeline with a larger cross section;

2. the water body filter arranged in the connecting pipe can effectively filter water to avoid the condition of excessive scale caused by long-term use, the service life is prolonged, the arranged two-stage temperature and pressure detector can effectively monitor the water and steam after pressure discharge, and the arranged voice alarm can effectively alarm when a set value is abnormal, so that the safety is improved;

3. the contact area of being responsible for with the air can be improved through the inside metal copper core heat dissipation pole that sets up of heating panel to improve the cooling effect, threaded connection's metal copper core heat dissipation pole can make things convenient for the ann of metal copper core heat dissipation pole to tear open, thereby be convenient for the maintenance and the change of metal copper core heat dissipation pole.

Drawings

FIG. 1 is a schematic view of the overall structure of the present invention;

FIG. 2 is a schematic view of the internal structure of the present invention;

FIG. 3 is a schematic view of the internal structure of a segment of a jet plate according to the present invention;

FIG. 4 is a schematic perspective view of a segment of the jet plate of the present invention.

In the figure: 1. an air inlet pipe; 2. a steam valve; 3. a main pipe; 4. a section of air injection disc; 5. a gas ejector tube; 6. connecting the rotating rod; 7. an air inlet; 8. a powered fan; 9. a gas injection hole; 10. a heat dissipation plate; 11. a metal copper core heat dissipation rod; 12. a second segment of air injection disc; 13. a safety tube; 14. a first temperature and pressure detection meter; 15. a safety valve; 16. a connecting disc; 17. a connecting pipe; 18. a flow meter; 19. a throttle valve; 20. a water body filter; 21. a two-stage temperature and pressure detector; 22. a controller; 23. a voice alarm; 24. and a wireless network module.

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.

As shown in fig. 2 to 4, a temperature and pressure reducing apparatus for effectively utilizing residual heat includes: the main pipe 3, the inside of the main pipe 3 is provided with a first section of air injection disc 4 and a second section of air injection disc 12; the second-section air injection disc 12 is arranged on one side of the first-section air injection disc 4; the second section of air injection disk 12 and the first section of air injection disk 4 both comprise an air injection pipe 5, a connecting rotating rod 6, an air inlet 7, a power fan 8 and an air injection hole 9; an air nozzle 5 installed inside a segment of the air nozzle plate 4; a connecting rotary rod 6 connected to the inside of the gas ejector 5; a power fan 8 installed on an outer wall of the connecting rotary rod 6; a gas inlet 7 provided at one end of the gas lance 5; the gas injection hole 9 is formed in the outer wall of the other end of the gas injection pipe 5; a safety pipe 13 installed above the main pipe 3; a temperature and pressure detecting gauge 14 installed on an outer wall of the safety pipe 13; a safety valve 15 installed inside the main pipe 3; a steam valve 2 provided at one end of the safety valve 15; an intake pipe 1 connected to one end of a main pipe 3; a connection pipe 17 connected to the other end of the main pipe 3 via a connection plate 16; a flow meter 18 provided above the connection pipe 17; the throttle valve 19 is connected to the other end of the flow meter 18, the two sections of the air injection disks 12 and the one section of the air injection disk 4 are matched with the appearance size of the main pipe 3, a communicating structure is formed between the flow meter 18 and the connecting pipe 17, the power fan 8 is sleeved with the power fan 8, and the air injection pipe 5 and the one section of the air injection disk 4 form a rotating structure through the connecting rotating rod 6; the rotary jet pipe 5 can rotate to effectively jet air through the jet hole 9, so that the air-jet pressure relief effect of the jet pipe 5 is improved, the rotary jet pipe 5 can rotate to jet steam in a full angle, the contact surface of the steam and the pipe wall is improved, the heat dissipation is improved, two-stage injection can be performed through the two-stage jet disc 12 and the one-stage jet disc 4, the pressure and the temperature of the steam are reduced in a stepped manner, the safety can be improved while the efficiency is improved, the throttle valve 19 can guide water in, and the water pressure is effectively reduced by guiding the pipeline with a larger cross section, the water body filter 20 is installed inside the connecting pipe 17; a two-stage temperature/pressure detector 21 mounted above the outer wall of the connection pipe 17; a controller 22 installed on top of the two-stage temperature and pressure detector 21; a voice alarm 23 installed at one side of the controller 22; the wireless network module 24 is installed on the other side of the controller 22, a communication structure is formed between the two-section temperature and pressure detector 21 and the connecting pipe 17, and the voice alarm 23, the two-section temperature and pressure detector 21 and the wireless network module 24 are electrically connected with the controller 22; water filter 20 through the inside water filter that sets up of connecting pipe 17 can carry out effective filtration to water and avoid long-term use to cause the too much condition of incrustation scale, increase of service life, the two-stage temperature and pressure detector 21 of setting can carry out effective monitoring to the water and steam after the row of pressing, voice alarm 23 through setting up when the setting value is unusual can carry out effectual alarm processing, thereby improve the security, wireless network module 24 of setting can carry out wireless remote information transmission, this mechanism can combine with ground control end and mobile phone end, thereby effectively carry out real time monitoring, avoid artifical patrol and guard's the condition, this voice alarm 23 can also carry out the condition that personnel touched to around warning avoid personnel's touching by voice broadcast, thereby avoid the condition of scalding.

As shown in fig. 1, a temperature and pressure reducing apparatus for effectively utilizing residual heat includes: heat radiation plates 10 mounted on both upper and lower sides of the main pipe 3; the metal copper core radiating rods 11 are arranged inside the radiating plate 10, the radiating plate 10 is symmetrically distributed about the horizontal center line of the main pipe 3, the number of the radiating plates 10 is two, the metal copper core radiating rods 11 are uniformly distributed at equal intervals about the inside of the radiating plate 10, and the metal copper core radiating rods 11 are in threaded connection with the radiating plate 10; the contact area of the main pipe 3 and the air can be increased through the metal copper core heat dissipation rod 11 arranged inside the heat dissipation plate 10, so that the cooling effect is improved, the metal copper core heat dissipation rod 11 connected through threads can be conveniently mounted and dismounted on the metal copper core heat dissipation rod 11, and the metal copper core heat dissipation rod 11 can be conveniently maintained and replaced.

The working principle is as follows: when the temperature and pressure reducing device capable of effectively utilizing waste heat is used, firstly, a steam valve 2 is opened, high-temperature steam enters through an air inlet pipe 1, a main pipe 3 is communicated with the air inlet pipe 1, the steam enters into the main pipe 3, a section of temperature and pressure detection meter 14 is arranged to effectively monitor the pressure and the temperature of the entering steam, a section of air injection disc 4 is arranged inside the main pipe 3, the steam enters into an air injection pipe 5 inside a section of air injection disc 4 through an air inlet 7, a power fan 8 is contacted with the steam and generates acting force for the power fan 8, a connecting rotating rod 6 is sleeved with the power fan 8, the connecting rotating rod 6 generates acting force, the air injection pipe 5 is movably connected with a section of air injection disc 4 through a connecting rotating rod 6, the air injection pipe 5 rotates under the action of the acting force, therefore, the steam is selectively injected inside the main pipe 3 through an air injection hole 9 formed in the air injection pipe 5, and the high temperature generated by the steam is transmitted to the main pipe 3, the heat dissipation plate 10 is connected with the main pipe 3 through a metal connecting piece, heat is transmitted to the heat dissipation plate 10, the metal copper core heat dissipation rod 11 is in threaded connection with the heat dissipation plate 10, the heat is transmitted to the metal copper core heat dissipation rod 11, the two-stage jet disc 12 sprays steam in the same way, the connecting pipe 17 is connected with the main pipe 3 through the connecting disc 16, the steam enters the connecting pipe 17, the arranged two-stage temperature and pressure detector 21 effectively monitors the steam inlet temperature and pressure inside the connecting pipe 17, when the temperature or the pressure does not reach the standard, the two-stage temperature and pressure detector 21 can generate a signal which is transmitted to the controller 22 through a lead, the controller 22 gives an instruction to the electrically connected voice alarm 23 to start the electrically connected voice alarm 23, voice reminding is carried out, remote alarm is carried out through the electrically connected wireless network module 24, when the pressure of water needs to be reduced, the throttle valve 19 is opened, inside water flowed into connecting pipe 17 through the pipeline, the water filter 20 of setting filtered water, and the flow meter 18 that sets up this moment carries out effective monitoring to the flow, when meetting safe risk pipeline internal pressure too big, opens safety valve 15, lets highly compressed steam discharge through the safety pipe 13 with being responsible for 3 intercommunications, and this is exactly this kind of the theory of operation who effectively utilizes the temperature and pressure reduction device of waste heat.

Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the utility model, the scope of which is defined in the appended claims and their equivalents.

Claims (7)

1. A temperature and pressure reducing device capable of effectively utilizing waste heat is characterized by comprising:

the air distribution device comprises a main pipe (3), wherein a first section of air injection disc (4) and a second section of air injection disc (12) are arranged in the main pipe (3);

the second-section air injection disc (12) is arranged on one side of the first-section air injection disc (4); the two sections of air injection discs (12) and the one section of air injection disc (4) both comprise air injection pipes (5), connecting rotating rods (6), air inlets (7), power fans (8) and air injection holes (9);

an air injection pipe (5) which is arranged inside the section of the air injection disc (4);

a connecting rotating rod (6) connected to the inside of the gas ejector pipe (5);

a power fan (8) which is arranged on the outer wall of the connecting rotating rod (6);

a gas inlet (7) arranged at one end of the gas lance (5);

the gas injection hole (9) is formed in the outer wall of the other end of the gas injection pipe (5);

a safety pipe (13) mounted above the main pipe (3);

a temperature and pressure detecting meter (14) installed on the outer wall of the safety pipe (13);

a safety valve (15) mounted inside the main pipe (3);

a steam valve (2) disposed at one end of the safety valve (15);

an intake pipe (1) connected to one end of the main pipe (3);

a connection pipe (17) connected to the other end of the main pipe (3) via a connection plate (16);

a flow meter (18) disposed above the connection pipe (17);

and a throttle valve (19) connected to the other end of the flow meter (18).

2. A temperature and pressure reducing device for effectively utilizing waste heat according to claim 1, wherein the two-section jet disk (12) and the one-section jet disk (4) are matched with the main pipe (3) in external dimensions, and a communication structure is formed between the flow meter (18) and the connecting pipe (17).

3. The temperature and pressure reduction device capable of effectively utilizing waste heat according to claim 1, wherein the power fan (8) is sleeved with the power fan (8), and the air injection pipe (5) is connected with the rotating rod (6) and the section of air injection disc (4) to form a rotating structure.

4. A temperature and pressure reducing apparatus using waste heat effectively as claimed in claim 1 wherein said connecting pipe (17) is further provided with:

a water body filter (20) installed inside the connection pipe (17);

a two-stage temperature and pressure detector (21) mounted above the outer wall of the connection pipe (17);

a controller (22) mounted on top of the two-stage temperature and pressure detector (21);

a voice alarm (23) installed at one side of the controller (22);

a wireless network module (24) installed at the other side of the controller (22).

5. A temperature and pressure reduction device capable of effectively utilizing waste heat according to claim 4, wherein a communication structure is formed between the two-stage temperature and pressure detector (21) and the connecting pipe (17), and the voice alarm (23), the two-stage temperature and pressure detector (21) and the wireless network module (24) are electrically connected with the controller (22).

6. A temperature and pressure reducing device using waste heat effectively as claimed in claim 1 wherein the main pipe (3) is further provided with:

heat dissipation plates (10) attached to both the upper and lower sides of the main pipe (3);

and the metal copper core heat dissipation rod (11) is installed inside the heat dissipation plate (10).

7. A temperature and pressure reduction device for effectively utilizing waste heat according to claim 6, wherein the heat dissipation plates (10) are symmetrically distributed about the horizontal center line of the main pipe (3), two heat dissipation plates (10) are provided, the metal copper core heat dissipation rods (11) are uniformly distributed at equal intervals about the inside of the heat dissipation plates (10), and the metal copper core heat dissipation rods (11) are in threaded connection with the heat dissipation plates (10).

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