KR20210108180A - Vacuum steam circulator and boiler including the circulator - Google Patents

Abstract

In accordance with the present invention, a vacuum steam circulator comprises: a condensate water and residual steam inlet pipe allowing a portion of steam or condensate water of which the temperature drops while passing through a heating load to change the state of steam to flow thereinto; a condensate water and residual steam tank receiving and storing condensate water and steam entering from the condensate water and residual steam inlet pipe; a water level sensor measuring the level of condensate water in the condensate water and residual steam tank; an automatic water supply valve opened by receiving control of a controller when the water level in the condensate water and residual steam tank measured by the water level sensor drops to a reference value or lower to automatically replenish insufficient water; a condensate water drain pipe formed in a lower portion of the condensate water and residual steam tank to collect condensate water to the boiler; a vacuum gauge measuring and displaying a vacuum state in the condensate water and residual steam tank; a vacuum pump driven in accordance with control of the controller after transferring vacuum state information measured by the vacuum gauge to the controller to maintain the vacuum state in the condensate water and residual steam tank at a set value; and a detaching/mounting member formed on the condensate water and residual steam inlet pipe and the condensate water drain pipe to be coupled to the boiler. The vacuum steam circulator can be easily mounted on and detached from the boiler to operate a three-way valve when a problem is caused by a fault to easily switch the flow path of condensate water to be repaired or replaced while continuously performing the function of the boiler.

Description

VACUUM STEAM CIRCULATOR AND BOILER INCLUDING THE CIRCULATOR

The present invention relates to a vacuum steam circulator and a boiler combined with the circulator, and more particularly, it can be easily attached to and detached from any conventional boiler, and can temporarily heat without a vacuum steam circulator by blocking the flow path even in case of failure. It relates to a vacuum steam circulator and a boiler combined with the circulator.

The conventional vacuum steam circulator is mainly provided to be fixed in the boiler system, and when a failure occurs in the vacuum steam circulator, there is a problem in that the entire boiler system must be stopped.

Republic of Korea Patent Registration No. 10-2044482 (2019.11.07)

In order to solve the above problems, the present invention can easily mount and detach the vacuum steam circulator to the boiler using a detachable member, and when a problem occurs due to a malfunction in the vacuum steam circulator, the three-way valve is operated to facilitate the flow of condensate. An object of the present invention is to provide a vacuum steam circulator and a boiler in which the circulator is combined so that the function of the boiler can be continued.

The vacuum steam circulator according to the present invention for achieving the above object includes: a condensed water & residual steam inlet pipe into which a part of condensed water or steam in which the state of steam is changed due to a decrease in temperature while passing through a heating load; a condensed water & residual steam tank for receiving and storing the condensed water and steam introduced from the condensed water & residual steam inlet pipe; a water level sensor for measuring the level of condensed water in the condensed water & residual steam tank; an automatic water supply valve for automatically replenishing insufficient water by opening under the control of a controller when the water level in the condensed water & residual steam tank measured by the water level sensor falls below a reference value; a condensate drain pipe formed at the bottom of the condensed water & residual steam tank to recover condensed water to the boiler; a vacuum gauge for measuring and displaying a vacuum state in the condensed water & residual steam tank; a vacuum pump that transmits the vacuum state information measured by the vacuum gauge to the controller, and is driven under the control of the controller to maintain the vacuum state in the condensate & residual steam tank at a set value; It characterized in that it comprises a; is formed in the condensed water & residual steam inlet pipe and the condensate drain pipe and is coupled to the boiler.

As another embodiment, a boiler coupled with a vacuum steam circulator according to the present invention for achieving the above object includes a steam generating tank for generating steam by receiving thermal energy; a heating load receiving steam from the steam generating tank and heating the installed space; a condensed water discharge pipe for discharging the condensed water generated while passing through the heating load to the condensed water & residual steam inlet pipe of the vacuum steam circulator; a condensed water recovery pipe connected to the condensed water drain pipe of the vacuum steam circulator to recover the condensed water from the condensed water & residual steam tank to the steam generating tank; and an air injection pipe for injecting air into the lower portion of the steam generating tank so as to be dissolved in water. and a condensed water emergency passage directly connecting the condensed water discharge pipe and the condensed water recovery pipe when a problem occurs in the vacuum steam circulator.

Preferably, the detachable member of the boiler coupled with the vacuum steam circulator according to the present invention for achieving the above object connects the condensed water discharge pipe, the condensed water & residual steam inlet pipe, and the inlet of the condensed water emergency flow path, and the condensed water The return pipe, the condensate drain pipe, and the outlet of the condensate emergency flow path are connected to each other by a three-way valve.

The vacuum steam circulator and the boiler to which the circulator is combined according to the present invention have the effect of easily attaching and detaching the vacuum steam circulator to the boiler using a detachable member.

In addition, the vacuum steam circulator and the boiler combined with the circulator according to the present invention operate the three-way valve when a problem occurs due to a malfunction in the vacuum steam circulator to easily switch the flow path of condensed water so that the function of the boiler can be continued. , the vacuum steam circulator can be repaired or replaced with a new vacuum steam circulator.

1 is a schematic diagram of a vacuum steam circulator according to the present invention.
Figure 2 is a view showing the structure of a detachable member for attaching and detaching a vacuum steam circulator to the boiler according to the present invention.
3 is a schematic diagram of a boiler coupled with a vacuum steam circulator according to the present invention.
4 is a view showing the structure of a three-way valve, which is a detachable member for attaching and detaching a vacuum steam circulator to a boiler according to the present invention.
5 is a view showing the entire boiler system in which the vacuum steam circulator is coupled to the boiler according to the present invention.

The terms or words used in the present specification and claims should not be construed as being limited to their ordinary or dictionary meanings, and the inventor may properly define the concept of the term in order to best describe his invention. Based on the principle that there is, it should be interpreted as meaning and concept consistent with the technical idea of the present invention.

Accordingly, the embodiments described in the present specification and the configurations shown in the drawings are only the most preferred embodiment of the present invention and do not represent all the technical spirit of the present invention, so they can be substituted at the time of the present application. It should be understood that various equivalents and modifications may be made.

Hereinafter, a vacuum steam circulator and a boiler combined with the circulator according to the present invention will be described with reference to the accompanying drawings.

First, a vacuum steam circulator according to the present invention will be described with reference to FIG. 1 .

1 is a view showing a vacuum steam circulator according to the present invention.

1, the vacuum steam circulator 200 according to the present invention includes a condensed water & residual steam inlet pipe 210, a condensed water & residual steam tank 220, a water level sensor 230, an automatic water supply valve 240, It includes a condensate drain pipe 250 , a vacuum gauge 260 , a vacuum pump 270 , a drain discharge valve 280 , a high water level sensor 290 , and a controller 300 .

The condensed water & residual steam inlet pipe 210 is a path through which the condensed water whose state is changed from steam to condensed water or steam whose state is not changed is introduced as the temperature drops while passing through the heating load.

The condensed water & residual steam tank 220 is a space for receiving and storing the condensed water and steam introduced from the condensed water & residual steam inlet pipe 210 .

The condensed water & residual steam tank 220 has the advantage of stabilizing the condensed water recovered via the heating load and replenishing water to the boiler 100 .

The water level sensor 230 is installed in the condensed water & residual steam tank 220 to measure the condensed water level in the corresponding condensed water & residual steam tank 220 .

More specifically, the water level sensor 230 is formed on the lower bottom surface of the condensed water & residual steam tank 220 to measure the water level in the tank according to the water pressure.

That is, the water level sensor 230 converts and stores water pressure according to the size and height of the tank in accordance with the standard of the tank, and continuously measures the water level value according to the change in water pressure.

The automatic water supply valve 240 is opened under the control of the controller 300 when the water level in the condensed water & residual steam tank 220 measured by the water level sensor 230 falls below a reference value, and automatically removes insufficient water. supplement

Meanwhile, the vacuum steam circulator 200 according to the present invention further includes a water discharge valve 280 in a configuration opposite to that of the automatic water supply valve 240 , and the water discharge valve 280 is configured in the boiler 100 . Foreign substances contained in the incoming condensed water are deposited on the bottom of the condensed water & residual steam tank 220, and is configured to discharge the discharged water containing the condensed water.

The condensed water drain pipe 250 is formed at the bottom of the condensed water & residual steam tank 220 to recover condensed water to the boiler 100 so that the condensed water circulates through the vacuum steam circulator 200 and the boiler 100 .

Meanwhile, the condensate drain pipe 250 includes a filter 251 , a circulation motor 252 , and an electric valve 253 on a path.

The filter 251 is provided in front of the circulation motor 252 and the electric valve 253, and before the condensed water flows into the circulation motor 252 and the electric valve 253, the condensed water & residual steam tank ( 220) to remove the foreign matter deposited in the

The electric valve 253 is a valve that is opened so that the condensed water in the condensed water & residual steam tank 220 can be recovered to the boiler 100 or closed to stop the recovery, and controls the recovery amount of the condensed water.

The circulation motor 252 is formed at the front or rear end of the electric valve 253 to help smooth condensate circulation between the condensed water & residual steam tank 220 and the boiler 100 .

The automatic water supply valve 240, the electric valve 253, and the drain valve 280 of the vacuum steam circulator 200 are solenoid valves. It may be a solenoid valve (solenoid valve) that automatically closes the valve.

The vacuum gauge 260 measures and displays the vacuum state in the condensed water & residual steam tank 220 .

When the vacuum pump 270 transmits the vacuum state information measured by the vacuum gauge 260 to the controller 300 , the vacuum pump 270 is driven according to the control of the controller 300 , and the condensate & residual steam tank 220 . Make sure that the vacuum condition meets the standard or set value.

The controller 300 is connected to a water level sensor 230, an automatic water supply valve 240, a circulation motor 252, an electric valve 253, a vacuum gauge 260, and a vacuum pump 270, and the water level sensor ( 230) and the automatic water supply valve 240, the circulation motor 252, the electric valve 253, the vacuum gauge 260, and the vacuum pump 270 according to the water level and vacuum state measured by the vacuum gauge 260. Control.

For example, when the water level in the condensed water & residual steam tank 220 measured by the water level sensor 230 is submerged in the condensed water & residual steam inlet pipe 210, the controller 300 may control the water discharge valve (250) or the electric valve 253 is controlled to open.

On the other hand, the high water level sensor 290 is installed on the upper part of the condensed water & residual steam tank 220 separately from the water level sensor 230 to detect a risk of overflow that may occur due to overflow of the condensed water into the vacuum pump 270 . .

When the high level sensor 290 installed on the condensate & residual steam tank 220 detects the high level of condensed water, the controller 300 first controls the vacuum pump 270 according to the detection information of the high level sensor 290. The operation is stopped and the circulation motor 252 is operated for a predetermined time to prevent the condensed water from overflowing by draining the condensed water from the vacuum pump 270 .

As described above, the controller 300 preferentially stops the operation of the vacuum pump 270 when condensed water overflows from the condensed water & residual steam tank 220 to the vacuum pump 270. Failure of the vacuum pump because of the occurrence of

Thereafter, when the detection of the high level condensed water by the high level sensor 290 is released, the controller 300 stops the operation of the circulation motor 252 and restarts the operation of the vacuum pump 270 .

In the vacuum steam circulator 200 according to the present invention having the configuration as described above, the condensed water & residual steam inlet pipe 210 and the condensed water drain pipe 250 are separated by the boiler 100 and the detachable member 400. It is possible.

As shown in FIG. 2 , the attachment and detachment member 400 has an inner circumferential surface formed with a tapered thread while the diameter decreases in the center direction in both directions.

On the other hand, the condensate & residual steam inlet pipe 210 of the vacuum steam circulator 200, the condensate drain pipe 250, and the connection pipe of the boiler 100 connected to the vacuum steam circulator 200 are the detachable member 400 ), it is preferable that a thread is formed on the outer circumferential surface at the same slope to correspond to the inner circumferential surface.

Hereinafter, the boiler 100 coupled to the vacuum steam circulator 200 as described above will be described.

The boiler 100 includes a steam generating tank 110 , a heating load 120 , a condensate discharge pipe 130 , a condensate recovery pipe 140 , an air injection pipe 150 , and a condensate emergency flow path 160 .

The steam generating tank 110 uses electricity, gas, oil, firewood and other energy as a heat source to change water into steam to generate steam.

The heating load 120 is installed in a house, a drying room, a residential space, etc. to receive steam from the steam generating tank 110 to heat the corresponding space.

The condensed water discharge pipe 130 is connected to the condensed water & residual steam inlet pipe 210 of the vacuum steam circulator 200, and the temperature of the steam supplied to the heating load 120 decreases to deliver the converted condensate.

The condensed water recovery pipe 140 is connected to the condensed water drain pipe 250 of the vacuum steam circulator 200 so that the condensed water of the condensed water & residual steam tank 220 is recovered to the steam generating tank 110 .

The air injection pipe 150 is a pipe through which air is injected into the steam generating tank 110 so that the steam is smoothly generated in the steam generating tank 110 , and air flows into the lower part of the steam generating tank 110 . Dissolve the air in the water so that it can be injected.

Conventionally, the air injection pipe 150 has a structure in which air is injected into the upper part of the steam generating tank 110, but in this case, the generated steam is condensed due to the inflowing air, and consequently, there is a problem that the efficiency is lowered. As shown, air is injected into the lower part with water.

On the other hand, when a problem occurs in the vacuum steam circulator 200 in the condensed water emergency flow path 160 as described below, the condensed water delivered to the vacuum steam circulator 200 is blocked by the operation of the detachable member 400 . In this case, the condensed water is directly connected to the condensed water recovery pipe 140 .

The demounting member 400 connects the condensed water & residual steam inlet pipe 210 and the condensed water drain pipe 250 to the condensed water discharge pipe 130 and the condensed water recovery pipe 140, respectively, as a result, the vacuum steam circulator 200 ) and a member connecting the boiler 100 .

In particular, the detachable member 400 connects the inlet of the condensed water & residual steam inlet pipe 210, the condensed water discharge pipe 130, and the condensed water emergency flow path 160 into one, and the condensed water drain pipe 250 and the condensed water recovery It is preferable that it is a three-way valve connecting the pipe 140 and the outlet of the condensate emergency flow path 160 into one, and operates under the control of the controller 300 to change the flow path.

The detachable member 400 usually has an open flow path from the condensed water & residual steam inlet pipe 210 to the condensed water discharge pipe 130, and the condensate drain pipe 250 and the condensed water recovery pipe 140 have a flow path open. have.

However, when a problem occurs in the vacuum steam circulator 200, for example, the condensate water level in the condensed water & residual steam tank 220 is too high so that the condensed water & residual steam inlet pipe 210 is flooded by the condensed water. In this case, under the control of the controller 300, the detachable member 400 converts the flow path formed from the condensed water & residual steam inlet pipe 210 to the condensed water discharge pipe 130 to the inlet of the condensed water emergency flow path 160. .

The problem occurring in the vacuum steam circulator 200 is not limited to the above-described problem, and a failure of the vacuum pump 270 , a failure of various valves, or a failure of the circulation motor 252 may correspond to the problem.

In addition, the detachable member 400 converts the flow path formed from the condensed water drain pipe 250 to the condensed water recovery pipe 140 from the outlet of the condensed water emergency flow path 160 to the condensed water recovery pipe 140 .

As shown in FIG. 4 , the attaching and detaching member 400 has a tapered thread formed on the inner circumferential surface as the diameter decreases from three directions to the center direction.

On the other hand, the condensed water & residual steam inlet pipe 210 and the condensed water drain pipe 250 of the vacuum steam circulator 200 coupled to the demounting member 400, the condensed water discharge pipe 130 of the boiler 100 and the condensed water recovery pipe ( 140), and it is preferable that the condensed water emergency flow path 160 is formed with a thread corresponding to the outer circumferential surface at the same slope as the inner circumferential surface of the mounting and detaching member 400 .

A schematic diagram of the entire boiler system in which the vacuum steam circulator having the above-described configuration and the boiler are coupled by a detachable member is shown in FIG. 5 .

In the above description, preferred embodiments of the present invention have been presented and described, but the present invention is not necessarily limited thereto, and those of ordinary skill in the art to which the present invention pertains within the scope not departing from the technical spirit of the present invention. It will be readily apparent that many substitutions, modifications, and alterations are possible.

100: boiler
110: steam generating tank 120: heating load
130: condensate discharge pipe 140: condensate recovery pipe
150: air injection pipe 160: condensate emergency flow path (160)
200: vacuum steam circulator
210: condensate & residual steam inlet pipe 220: condensate & residual steam tank
230: water level sensor 240: automatic water supply valve
250: condensate drain pipe 251: filter
252: circulation motor 253: electric valve
260: vacuum gauge 270: vacuum pump
280: water discharge valve 290: high water level sensor
300 : controller
400: detachable member

Claims (9)

Condensate & residual steam inlet pipe into which a part of condensate or steam in which the state of steam is changed due to a decrease in temperature while passing through a heating load;
a condensed water & residual steam tank for receiving and storing the condensed water and steam introduced from the condensed water & residual steam inlet pipe;
a water level sensor for measuring the level of condensed water in the condensed water & residual steam tank;
an automatic water supply valve for automatically replenishing insufficient water by opening under the control of a controller when the water level in the condensed water & residual steam tank measured by the water level sensor falls below a reference value;
a condensate drain pipe formed at the bottom of the condensed water & residual steam tank to recover condensed water to the boiler;
a vacuum gauge for measuring and displaying a vacuum state in the condensed water & residual steam tank;
a vacuum pump that transmits the vacuum state information measured by the vacuum gauge to the controller, and is driven under the control of the controller to maintain the vacuum state in the condensate & residual steam tank at a set value;
A vacuum steam circulator comprising a; a detachable member formed in the condensed water & residual steam inlet pipe and the condensed water drain pipe and coupled to the boiler.
The method of claim 1,
The vacuum steam circulator further comprising; a high level sensor installed on the condensate & residual steam tank to detect a risk of overflow that may occur due to overflow of the condensed water into the vacuum pump.
3. The method of claim 2,
The vacuum steam circulator, characterized in that the inner circumferential surface of the detachable member is tapered while decreasing in diameter in the center direction in both directions.
4. The method of claim 3,
The condensate drain pipe
an electric valve for controlling the recovery amount of condensed water by being opened so that the condensed water in the condensed water & residual steam tank can be recovered to the boiler, or closed to stop recovery;
a circulation motor formed at the front or rear end of the electric valve to help circulate condensed water between the condensed water & residual steam tank and the boiler; and
and a filter provided at the front end of the circulation motor and the electric valve to remove foreign substances from the condensed water.
[Claim 5] In the boiler coupled to the vacuum steam circulator of any one of claims 1 to 4,
a steam generating tank for generating steam by receiving thermal energy;
a heating load receiving steam from the steam generating tank and heating the installed space;
a condensed water discharge pipe for discharging the condensed water generated while passing through the heating load to the condensed water & residual steam inlet pipe of the vacuum steam circulator;
a condensed water recovery pipe connected to the condensate drain pipe of the vacuum steam circulator to recover the condensed water from the condensed water & residual steam tank to the steam generating tank; and
Boiler coupled with a vacuum steam circulator, comprising a; an air injection pipe for injecting air into the lower portion of the steam generating tank so as to be dissolved in water.
6. The method of claim 5,
When a problem occurs in the vacuum steam circulator, a condensed water emergency flow path directly connecting the condensed water discharge pipe and the condensed water recovery pipe; and a vacuum steam circulator coupled boiler.
7. The method of claim 6,
The condensed water discharge pipe, the condensed water & residual steam inlet pipe, and the inlet of the condensed water emergency flow path are connected, and the condensed water recovery pipe, the condensed water drain pipe, and the outlet of the condensed water emergency flow path are connected by a detachable member. The detachable member is a three-way valve A boiler combined with a vacuum steam circulator, characterized in that
8. The method of claim 7,
The three-way valve is
A boiler combined with a vacuum steam circulator, characterized in that the inner circumferential surface is tapered while the diameter decreases from three directions to the center.
9. The method of claim 8,
The condensed water discharge pipe, the condensed water & residual steam inlet pipe, the inlet of the condensed water emergency flow path, the condensed water recovery pipe, the condensed water drain pipe, and the outlet of the condensed water emergency flow path have a thread corresponding to the same slope as the inner circumferential surface of the detachable member on the outer circumferential surface. A boiler combined with a vacuum steam circulator, characterized in that it is formed.

Images