CN221006064U - Gas-liquid separation type heating coil pipe device capable of balancing pressure intensity - Google Patents

Abstract

The utility model discloses a gas-liquid separation type heating coil pipe device capable of balancing pressure intensity, which belongs to the technical field of heating coil pipe devices and comprises a flow conveying component, wherein a liquid inlet pipe is communicated with the right side of the flow conveying component, the right end of the liquid inlet pipe penetrates through a tank body and is communicated with a shell, one side of the shell is communicated with a discharge pipe, a water flow driving structure is arranged in the shell, and two ends of the water flow driving structure are fixedly connected with crankshafts. This can balance gas-liquid separation formula heating coil ware of pressure through setting up jar body, spiral guide vane and discharge pipe, and gas-liquid mixture is introduced to the spiral guide vane through the discharge pipe water conservancy diversion on for gas-liquid mixture carries out spiral flow along the spiral guide vane, and spiral guide vane dispersion gas-liquid mixture makes it thinner moreover, and then makes gas-liquid mixture can separate in the jar body, makes steam come-up follow discharge pipe discharge, avoids the unable even separation of steam and the problem of discharge.

Description

Gas-liquid separation type heating coil pipe device capable of balancing pressure intensity

Technical Field

The utility model belongs to the technical field of heating coil units, and particularly relates to a gas-liquid separation type heating coil unit capable of balancing pressure intensity.

Background

In the structure of the heating coil pipe device, when the heating coil pipe device is heated by adopting steam, after the steam releases heat, a certain amount of condensed water is generated after original steam is saturated, then the condensed water is discharged, and the condensed water is mixed with part of gas, and the gas and the liquid are layered in the discharging process, so that the gas is extruded in the cavity at the upper part of the liquid discharge pipe and cannot be discharged from the outlet at the side part, the effective liquid discharge volume of the liquid discharge pipe is greatly reduced, the liquid discharge efficiency is reduced, and the working efficiency of the whole heating coil pipe device is influenced, therefore, the research on the gas-liquid separation type heating coil pipe device capable of balancing the pressure intensity is of great significance for solving the problems.

Disclosure of utility model

(One) solving the technical problems

In order to overcome the defects in the prior art, the utility model provides the gas-liquid separation type heating coil pipe device capable of balancing pressure, which solves the problems that condensed water is mixed with partial gas, the gas and the liquid are layered in the discharging process, the gas is extruded in a cavity at the upper part of a liquid discharge pipe and cannot be discharged from an outlet at the side part, the effective liquid discharge volume of the liquid discharge pipe is greatly reduced, the liquid discharge efficiency is reduced, and the working efficiency of the whole heating coil pipe device is influenced.

(II) technical scheme

In order to achieve the above purpose, the present utility model provides the following technical solutions: the utility model provides a can balanced pressure's gas-liquid separation formula heating coil ware, includes the defeated flow subassembly, the right side intercommunication of defeated flow subassembly has the feed liquor pipe, the right-hand member of feed liquor pipe wears to establish the jar body and communicates with the casing, one side intercommunication of casing has the discharge pipe, the inside of casing is equipped with rivers drive structure, the equal fixedly connected with bent axle in both ends of rivers drive structure, the bent axle slides in the orifice plate, the below fixedly connected with pressurization structure of two orifice plates, pressurization structure installs in the connector, the top and the jar body intercommunication of connector, the inside fixedly connected with spiral guide vane of the jar body.

As a further aspect of the utility model: the flow conveying assembly comprises two straight pipes, wherein one straight pipe is communicated with the water outlet of the water pump, the two straight pipes are communicated through a plurality of transverse pipes, and the other straight pipe is communicated with the liquid inlet pipe.

As a further aspect of the utility model: the top of the tank body is communicated with a discharge port, and the bottom end of the connector is communicated with a return pipe.

As a further aspect of the utility model: the pressurizing structure comprises a piston, the piston is arranged in the connector, a connecting rod is fixedly connected to the upper surface of the piston, the top end of the connecting rod is fixedly connected with a support, and two ends of the support are fixedly connected with two pore plates.

As a further aspect of the utility model: the piston is provided with two one-way valves, the connecting rod is sleeved in the guide sleeve, and two ends of the guide sleeve are fixedly connected in the connector.

As a further aspect of the utility model: the water flow driving structure comprises a rotating shaft, two ends of the rotating shaft are fixedly connected with two crankshafts, the rotating shaft is rotationally connected in the shell through two bearings, water leaves are fixedly connected to the outside of the rotating shaft, and the water leaves are located in the shell.

(III) beneficial effects

Compared with the prior art, the utility model has the beneficial effects that:

1. This can balance gas-liquid separation formula heating coil ware of pressure through setting up jar body, spiral guide vane and discharge pipe, and gas-liquid mixture is introduced to the spiral guide vane through the discharge pipe water conservancy diversion on for gas-liquid mixture carries out spiral flow along the spiral guide vane, and spiral guide vane dispersion gas-liquid mixture makes it thinner moreover, and then makes gas-liquid mixture can separate in the jar body, makes steam come-up follow discharge pipe discharge, avoids the unable even separation of steam and the problem of discharge.

2. This can balanced pressure's gas-liquid separation formula heating coil ware through setting up pressurization structure, drives the bent axle through the pivot through rivers drive water leaf and controls orifice plate up-and-down motion for orifice plate drives support and connecting rod up-and-down motion, when the piston upward movement, makes the check valve open for liquid input connector, and when the piston downward movement, makes the piston to liquid pressurization, and then accelerates flowing back efficiency, improves work efficiency, can effectively balance pressure's problem moreover.

3. This can balance vapour and liquid separation formula heating coil ware of pressure through setting up defeated flow subassembly, and the pump extraction gas-liquid mixture gets into the straight tube for horizontal pipe reposition of redundant personnel is inputed another straight tube with gas-liquid mixture, can play the effect of drainage to gas-liquid mixture with this, keeps the transportation of gas-liquid mixture.

Drawings

FIG. 1 is a schematic view of a three-dimensional structure of the present utility model;

FIG. 2 is a schematic view of a three-dimensional cross-sectional structure of a can body according to the present utility model;

FIG. 3 is a schematic view of a pressurizing structure according to the present utility model;

FIG. 4 is a schematic view of a three-dimensional cross-sectional structure of a housing according to the present utility model;

In the figure: 1. a tank body; 2. a return pipe; 3. a flow delivery assembly; 31. a water pump; 32. a straight pipe; 33. a transverse tube; 4. a discharge port; 5. a liquid inlet pipe; 6. a pressurizing structure; 61. a connecting rod; 62. a guide sleeve; 63. a piston; 64. a one-way valve; 65. a bracket; 7. a connector; 8. a water flow driving structure; 81. a water leaf; 82. a rotating shaft; 9. spiral guide vanes; 10. a housing; 11. a discharge pipe; 12. an orifice plate; 13. and (3) a crankshaft.

Detailed Description

The technical scheme of the patent is further described in detail below with reference to the specific embodiments.

As shown in fig. 1-4, the present utility model provides a technical solution: the utility model provides a can balance gas-liquid separation formula heating coil ware of pressure, including defeated flow subassembly 3, defeated flow subassembly 3 includes two straight tubes 32, one of them straight tube 32 and the delivery port intercommunication of water pump 31, communicate through a plurality of transverse pipes 33 between two straight tubes 32, another straight tube 32 and feed liquor pipe 5 intercommunication, the right side intercommunication of defeated flow subassembly 3 has feed liquor pipe 5, the straight tube 32 is got into to water pump 31 extraction gas-liquid mixture, make transverse pipe 33 reposition of redundant personnel with gas-liquid mixture input another straight tube 32, with this can play the effect of drainage to gas-liquid mixture, keep the transportation of gas-liquid mixture.

The right end of the liquid inlet pipe 5 penetrates through the tank body 1 and is communicated with the shell 10, the top of the tank body 1 is communicated with the discharge port 4, the bottom end of the connector 7 is communicated with the return pipe 2, the return pipe 2 can prolong the return length of liquid, meanwhile, the return pipe 2 can be connected with the liquid discharge pipe to perform liquid discharge operation, one side of the shell 10 is communicated with the discharge pipe 11, the discharge pipe 11 can guide the gas-liquid mixture so that the gas-liquid mixture is smoothly led into the spiral guide vane 9, the inside of the shell 10 is provided with the water flow driving structure 8, the water flow driving structure 8 comprises a rotating shaft 82, two ends of the rotating shaft 82 are fixedly connected with two crankshafts 13, the rotating shaft 82 is rotationally connected in the shell 10 through two bearings, the water leaf 81 is fixedly connected with the outside of the rotating shaft 82 and is positioned in the shell 10, the water flow enters the shell 10 to drive the water leaf 81 to rotate, so that the water leaf 81 keeps rotating, the driving effect can be realized by means of water flow, the cost is saved, the two ends of the water flow driving structure 8 are fixedly connected with the crankshafts 13, the crankshafts 13 slide in the pore plates 12, the openings of the pore plates 12 can provide a movable space for the crankshafts 13, so that the crankshafts 13 can smoothly move circularly and can drive the pore plates 12 to move up and down, the pressurizing structures 6 are fixedly connected below the two pore plates 12, each pressurizing structure 6 comprises a piston 63, each piston 63 is arranged in the corresponding connector 7, a connecting rod 61 is fixedly connected above each piston 63, the top ends of the connecting rods 61 are fixedly connected with the corresponding support 65, the two ends of the corresponding support 65 are fixedly connected with the two pore plates 12, the corresponding pistons 63 are provided with two one-way valves 64, the one-way valves 64 can keep one-way liquid feeding, liquid backflow is avoided, the connecting rods 61 are sleeved in the guide sleeves 62, the two ends of the guide sleeves 62 are provided with bulges, and the bulges are connected with the connectors 7, so that the space can be reserved, the problem that liquid cannot enter the connector 7 is avoided, two ends of the guide sleeve 62 are fixedly connected in the connector 7, the water leaf 81 is driven by water flow, the crankshaft 13 is driven by the rotating shaft 82 to control the orifice plate 12 to move up and down, the orifice plate 12 drives the support 65 and the connecting rod 61 to move up and down, the one-way valve 64 is opened when the piston 63 moves up, the liquid is input into the connector 7, and the piston 63 can pressurize the liquid when the piston 63 moves down, so that the liquid discharge efficiency is accelerated, the working efficiency is improved, and the pressure can be effectively balanced;

The pressurization structure 6 is installed in the connector 7, the top and the jar body 1 intercommunication of connector 7, the inside fixedly connected with spiral guide vane 9 of jar body 1, gas-liquid mixture is introduced to spiral guide vane 9 through discharge pipe 11 water conservancy diversion for gas-liquid mixture carries out spiral flow along spiral guide vane 9, and spiral guide vane 9 disperses gas-liquid mixture moreover, makes it thinner, and then makes gas-liquid mixture can separate in jar body 1, makes steam come-up follow discharge pipe 11 discharge, avoids the unable even separation of steam and the exhaust problem.

The working principle of the utility model is as follows:

when gas-liquid separation is carried out, the gas-liquid mixture is pumped by the water pump 31 to enter the straight pipe 32, the transverse pipe 33 is led to split and guide the gas-liquid mixture into the other straight pipe 32 and is led into the liquid inlet pipe 5 to enter the shell 10, the water flow drives the water vane 81 to rotate, the gas-liquid mixture is led to the spiral guide vane 9 through the discharge pipe 11, the gas-liquid mixture is dispersed to be thinner and flows on the spiral guide vane 9, so that steam can be separated from liquid, the steam is discharged upwards through the discharge port 4, the liquid is converged at the bottom of the tank 1, the water flow drives the water vane 81 to drive the rotating shaft 82 and the crankshaft 13 to rotate, the crankshaft 13 drives the orifice plate 12 and the bracket 65 to move up and down, the bracket 65 drives the connecting rod 61 and the piston 63 to move up and down, the one-way valve 64 is opened when the piston 63 moves upwards, the liquid enters the connecting head 7, the one-way valve 64 is closed, and the liquid is discharged in a pressurized manner by the piston 63.

In the description of the present utility model, it should be noted that, unless explicitly specified and limited otherwise, the terms "mounted," "connected," and "connected" are to be construed broadly, and may be either fixedly connected, detachably connected, or integrally connected, for example; can be mechanically or electrically connected; can be directly connected or indirectly connected through an intermediate medium, and can be communication between two elements. The specific meaning of the above terms in the present utility model can be understood by those of ordinary skill in the art in a specific case.

While the preferred embodiments of the present patent have been described in detail, the present patent is not limited to the above embodiments, and various changes may be made without departing from the spirit of the present patent within the knowledge of one of ordinary skill in the art.

Claims (6)

1. A gas-liquid separation type heating coil pipe device capable of balancing pressure, comprising a flow transmission assembly (3), and being characterized in that: the right side intercommunication of defeated class subassembly (3) has feed liquor pipe (5), tank (1) and with casing (10) intercommunication are worn to establish in the right-hand member of feed liquor pipe (5), one side intercommunication of casing (10) has discharge pipe (11), the inside of casing (10) is equipped with rivers drive structure (8), the equal fixedly connected with bent axle (13) in both ends of rivers drive structure (8), bent axle (13) slip in orifice plate (12), the below fixedly connected with pressurization structure (6) of two orifice plates (12), pressurization structure (6) are installed in connector (7), the top and the tank (1) intercommunication of connector (7), the inside fixedly connected with spiral guide vane (9) of tank (1).

2. A pressure-equalizing gas-liquid separation heating coil apparatus as in claim 1, wherein: the flow conveying assembly (3) comprises two straight pipes (32), wherein one straight pipe (32) is communicated with a water outlet of the water pump (31), the two straight pipes (32) are communicated through a plurality of transverse pipes (33), and the other straight pipe (32) is communicated with the liquid inlet pipe (5).

3. A pressure-equalizing gas-liquid separation heating coil apparatus as in claim 1, wherein: the top of the tank body (1) is communicated with a discharge outlet (4), and the bottom end of the connector (7) is communicated with the return pipe (2).

4. A pressure-equalizing gas-liquid separation heating coil apparatus as in claim 1, wherein: the pressurizing structure (6) comprises a piston (63), the piston (63) is arranged in the connector (7), a connecting rod (61) is fixedly connected to the upper surface of the piston (63), the top end of the connecting rod (61) is fixedly connected with a support (65), and two ends of the support (65) are fixedly connected with two pore plates (12).

5. A pressure-equalizing gas-liquid separation heating coil apparatus as recited in claim 4, wherein: the piston (63) is provided with two one-way valves (64), the connecting rod (61) is sleeved in the guide sleeve (62), and two ends of the guide sleeve (62) are fixedly connected in the connector (7).

6. A pressure-equalizing gas-liquid separation heating coil apparatus as in claim 1, wherein: the water flow driving structure (8) comprises a rotating shaft (82), two ends of the rotating shaft (82) are fixedly connected with two crankshafts (13), the rotating shaft (82) is rotatably connected in the shell (10) through two bearings, water leaves (81) are fixedly connected to the outside of the rotating shaft (82), and the water leaves (81) are located in the shell (10).