CN213811810U

CN213811810U - Steam heat supply energy-saving equipment

Info

Publication number: CN213811810U
Application number: CN202022875968.2U
Authority: CN
Inventors: 欧阳金禄; 吴钊
Original assignee: Changshu Copper Corp Ltd
Current assignee: Changshu Copper Corp Ltd
Priority date: 2020-12-04
Filing date: 2020-12-04
Publication date: 2021-07-27
Anticipated expiration: 2030-12-04

Abstract

The utility model discloses a steam heat supply energy-saving equipment includes the drum, the baffle has all been welded to the inside both sides of drum, and the baffle is with drum internal partitioning for two heating district and deposit the water district, the heating district at drum both ends is connected with intake pipe and outlet duct respectively, and is located the heat pipe that is equipped with the equidistance and distributes between two baffles, and the both ends of heat pipe weld with the relative one side of two baffles respectively, and the drum is located the top and the bottom of depositing water district department and is connected with inlet tube and outlet pipe respectively, and the fan is installed to the bottom outer wall of drum. The utility model discloses a drum, baffle, heating zone, deposit water district, intake pipe, outlet duct, heat pipe, inlet tube and outlet pipe and realize energy-conservingly, compare in the gaseous direct condensation water of traditional mode and collect, be favorable to preheating the water source that gets into the boiler in advance, reduce the time that the boiler will be boiled up, be favorable to reducing the amount of the boiler energy of consuming, environmental protection and waste heat recovery more.

Description

Steam heat supply energy-saving equipment

Technical Field

The utility model relates to a steam heat supply technical field especially relates to a steam heat supply energy-saving equipment.

Background

The steam is used as a heating medium of a heating system and is very commonly applied. The principle of steam heating is that steam gets into heat-dissipating equipment along the steam pipeline from the heat source, and after the steam condenses and releases the heat, the condensate water returns the heat source and heats again through the steam trap, and steam is as heating medium of heating system, uses very generally. The principle of steam heating is that steam enters heat dissipation equipment from a heat source along a steam pipeline, and after the steam condenses to release heat, condensed water returns to the heat source through a steam trap to be heated again. The traditional steam heating energy-saving method is energy-saving by recovering condensed water, and the method is not energy-saving enough, and the energy-saving method is too single and not intelligent enough.

SUMMERY OF THE UTILITY MODEL

The utility model aims at solving the defects existing in the prior art and providing a steam heat supply energy-saving device.

In order to achieve the above purpose, the utility model adopts the following technical scheme:

the utility model provides a steam heat supply energy-saving equipment, includes the drum, the baffle has all been welded to the inside both sides of drum, and the baffle is for two heating district with deposit water district with drum internal partitioning, the heating district at drum both ends is connected with intake pipe and outlet duct respectively, and is located the heat pipe that is equipped with the equidistance and distributes between two baffles, the both ends of heat pipe weld with the relative one side of two baffles respectively, and the drum is located the top and the bottom of depositing water district department and be connected with inlet tube and outlet pipe respectively, the fan is installed to the bottom outer wall of drum, and the top center department of drum is connected with the blast pipe, deposit the outer wall of water district and drum and all install temperature sensor, and the drum outer wall that is located heating district top installs the controller, temperature sensor all passes through signal line connection director's signal input part.

Preferably, the input and the output of fan are connected with pipeline and blast pipe respectively, and the other end of pipeline extends to the bottom inner wall of drum, and the other end of pipeline is connected with the air stone, pipeline and blast pipe all cup joint the check valve.

Preferably, holes matched with the heat conduction pipes are formed in the two partition plates at the two ends of the heat conduction pipes.

Preferably, the water inlet pipe is provided with an electromagnetic valve, and one end of the air supply pipe is sleeved with the filter screen.

Preferably, the other end of the water inlet pipe is connected with a water source, and the other end of the water outlet pipe is connected with a boiler.

Preferably, the fan and the electromagnetic valve are both connected with the controller through wires, and the controller is connected with the power supply through wires.

The utility model has the advantages that:

1. the steam from the boiler enters the indoor heater through the pipeline for heat dissipation through the cylinder, the partition plate, the heating area, the water storage area, the air inlet pipe, the air outlet pipe, the heat conduction pipe, the water inlet pipe and the water outlet pipe, the gas containing heat continuously enters the cylinder through the pipeline, the water source in the cylinder is heated, then the steam enters the condensed water collecting position through the pipeline and returns to the boiler again, the gas enters the cylinder, enters the water storage area through the partition plates and the heat conduction pipes, is divided into multiple paths, passes through the water storage area and transfers heat to a water source, and then is discharged from the gas outlet pipe and enters the condensed water area, so that compared with the traditional mode that the gas is directly condensed into water to be collected, the gas is favorable for preheating the water source entering the boiler in advance, the time for boiling the water by the boiler is reduced, the energy consumption of the boiler is favorably reduced, and the environment is protected and the waste heat is recovered;

2. through temperature sensor, a controller, the solenoid valve, the air pocket stone, blast pipe and check valve realize, ambient temperature near the boiler is higher than the temperature of water source itself, utilize this temperature difference to rush into gas through fan and check valve and deposit the water district, heat the water source, inside and outside temperature sensor realizes stopping to depositing the inside steam of carrying in water district under the condition that both temperatures are not big, the air pocket stone says that gas becomes a lot of small bubbles, can fully say during inside temperature diffusion to the water source, the filter screen in the blast pipe filters the granule wu of big point, blast pipe and check valve are convenient for get rid of gas and deposit the water district, compare in traditional mode, be favorable to utilizing the difference in temperature of environment and water source to heat up the water source, more energy-conservation.

Drawings

Fig. 1 is a schematic view of a main sectional structure of a steam heating energy-saving device provided by the present invention;

fig. 2 is a schematic view of the installation position structure of the steam heating energy-saving device provided by the present invention.

In the figure: the air conditioner comprises a cylinder 1, a partition plate 2, a heating area 3, a water storage area 4, an air inlet pipe 5, an air outlet pipe 6, a heat conduction pipe 7, a water inlet pipe 8, a water outlet pipe 9, a fan 10, an air outlet pipe 11, a temperature sensor 12, a controller 13, an electromagnetic valve 14, a bubbled stone 15, an air inlet pipe 16 and a check valve 17.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments.

Referring to fig. 1-2, a steam heat supply energy-saving device comprises a cylinder 1, wherein partition plates 2 are welded on two sides of the interior of the cylinder 1, the partition plates 2 divide the interior of the cylinder 1 into two heating areas 3 and a water storage area 4, the heating areas 3 at two ends of the cylinder 1 are respectively connected with an air inlet pipe 5 and an air outlet pipe 6, heat conduction pipes 7 distributed at equal intervals are arranged between the two partition plates 2, holes matched with the heat conduction pipes 7 are formed in two ends of the two partition plates 2, two ends of each heat conduction pipe 7 are respectively welded with the opposite surfaces of the two partition plates 2, the top and the bottom of the cylinder 1 at the water storage area 4 are respectively connected with an inlet pipe 8 and an outlet pipe 9, the other end of the inlet pipe 8 is connected with a water source, the other end of the outlet pipe 9 is connected with a boiler, a fan 10 is installed on the outer wall of the bottom of the cylinder 1, and an exhaust pipe 11 is connected with the center of the top of the cylinder 1, deposit water area 4 and drum 1's outer wall and all install temperature sensor 12, and be located the 1 outer wall of drum at 3 tops in heating area and install controller 13, fan 10 and solenoid valve 14 are all through wire connection director 13, and controller 13 passes through wire connection source, temperature sensor 12 is the signal input part of signal line connection director 13 all, the input and the output of fan 10 are connected with pipeline and blast pipe 16 respectively, and the other end of pipeline extends to the bottom inner wall of drum 1, install solenoid valve 14 in the inlet tube 8, and the one end of blast pipe 16 has cup jointed the filter screen, the other end of pipeline is connected with air pocket stone 15, pipeline and blast pipe 11 have all cup jointed check valve 17, through drum 1, baffle 2, heating area 3, deposit water area 4, intake pipe 5, outlet duct 6, heat pipe 7, inlet tube 8 and outlet pipe 9 realize that the steam that starts from the boiler gets into indoor heating ware through the pipeline and scatters in getting into the heating ware The heat, the gas that still contains the heat continues to enter the cylinder 1 through the pipeline, heat the water source in the cylinder 1, later steam can enter the condensed water collection department through the pipeline, later get back to the boiler again, wherein the gas enters the cylinder 1 and says that the gas divides into the multipath to pass from the water storage area and transfer the heat to the water source through the baffle 2 and the heat pipe 7, later discharge from the outlet duct 6 and enter the condensed water area, compared with the traditional way gas directly condenses into water and collects, help to preheat the water source entering the boiler in advance, reduce the time that the boiler boils water, help to reduce the amount of energy consumed by the boiler, environmental protection and waste heat recovery more, realize through temperature sensor 12, controller 13, solenoid valve 14, air pocket stone 15, air feed pipe 16 and check valve 17, the ambient temperature near the boiler is higher than the temperature of the water source itself, utilize this temperature difference to flush the gas into the water storage area 4 through the fan 10 and the check valve 17, heat the water source, inside and outside temperature sensor 12 realize stopping to deposit the inside steam of carrying in water district 4 under the condition that both temperatures are not big, gas becomes a plurality of little bubbles are said to gas stone 15, can fully say during inside temperature diffusion reaches the water source, the filter screen in the blast pipe 16 filters the granule wu of main aspects, blast pipe 11 and check valve 17 are convenient for get rid of gas and deposit water district 4, compare in traditional mode, be favorable to utilizing the difference in temperature of environment and water source to heat up the water source, more energy-conservation.

The working principle is as follows: the steam from a boiler enters an indoor heater through a pipeline to dissipate heat through a cylinder 1, a partition plate 2, a heating area 3, a water storage area 4, an air inlet pipe 5, an air outlet pipe 6, a heat pipe 7, a water inlet pipe 8 and an air outlet pipe 9, the gas containing heat continuously enters the cylinder 1 through the pipeline to heat a water source in the cylinder 1, then the steam enters a condensate water collecting place through the pipeline and then returns to the boiler again, wherein the gas enters the cylinder 1 and passes through the water storage area in multiple paths through the partition plate 2 and the heat pipe 7 and transfers the heat to the water source, then the gas is discharged from the air outlet pipe 6 to enter a condensate water area, compared with the traditional method that the gas is directly condensed into water to be collected, the temperature is realized through a temperature sensor 12, a controller 13, an electromagnetic valve 14, a bubble stone 15, an air feed pipe 16 and a one-way valve 17, the ambient temperature near the boiler is higher than the temperature of the water source, utilize this temperature difference to rush into the water storage area 4 through fan 10 and check valve 17 with gas in, heat the water source, inside and outside temperature sensor 12 realizes stopping to the inside transport steam of water storage area 4 under the condition that both temperatures are not big apart, and the air pocket stone 15 says that gas becomes a lot of small bubbles, can fully say that inside temperature spreads to the water source in, and the filter screen in the blast pipe 16 filters the granule wu of major point, and blast pipe 11 and check valve 17 are convenient for get rid of gas water storage area 4.

The above, only be the concrete implementation of the preferred embodiment of the present invention, but the protection scope of the present invention is not limited thereto, and any person skilled in the art is in the technical scope of the present invention, according to the technical solution of the present invention and the utility model, the concept of which is equivalent to replace or change, should be covered within the protection scope of the present invention.

Claims

1. The steam heating energy-saving equipment comprises a cylinder (1) and is characterized in that partition plates (2) are welded on two sides of the interior of the cylinder (1), the partition plates (2) divide the interior of the cylinder (1) into two heating areas (3) and a water storage area (4), the heating areas (3) at two ends of the cylinder (1) are respectively connected with an air inlet pipe (5) and an air outlet pipe (6), heat conduction pipes (7) distributed equidistantly are arranged between the two partition plates (2), two ends of each heat conduction pipe (7) are respectively welded with the opposite surfaces of the two partition plates (2), the top and the bottom of the cylinder (1) at the water storage area (4) are respectively connected with an inlet pipe (8) and an outlet pipe (9), a fan (10) is installed on the outer wall of the bottom of the cylinder (1), an exhaust pipe (11) is connected at the center of the top of the cylinder (1), and temperature sensors (12) are installed on the outer walls of the water storage area (4) and the cylinder (1), and the outer wall of the cylinder (1) positioned at the top of the heating area (3) is provided with a controller (13), and the temperature sensors (12) are connected with the signal input end of the controller (13) through signal lines.

2. A steam heating energy-saving device according to claim 1, characterized in that the input end and the output end of the fan (10) are respectively connected with a pipeline and an air feed pipe (16), the other end of the pipeline extends to the inner wall of the bottom of the cylinder (1), the other end of the pipeline is connected with a bubbled stone (15), and the pipeline and the exhaust pipe (11) are sleeved with a one-way valve (17).

3. A steam heating energy-saving device according to claim 1, characterized in that the two ends of the heat conducting pipe (7) in the two separating plates (2) are provided with holes matching with the heat conducting pipe (7).

4. A steam heating energy-saving device according to claim 1, characterized in that the electromagnetic valve (14) is installed in the water inlet pipe (8), and one end of the air feed pipe (16) is sleeved with a filter screen.

5. A steam heating energy-saving device according to claim 1, characterized in that the other end of the water inlet pipe (8) is connected with a water source, and the other end of the water outlet pipe (9) is connected with a boiler.

6. A steam heating energy-saving device according to claim 1, characterized in that the fan (10) and the electromagnetic valve (14) are connected with the controller (13) through wires, and the controller (13) is connected with the power supply through wires.