KR101303759B1 - Condensate Recovery and Automatic Water Supply System for a Closed Loop Circulating Steam Boiler - Google Patents

Abstract

The present invention relates to a condensate recovery and water supply device of a closed-circuit type steam boiler for heating water by heating. The condensate generated by heat exchange in a heat exchanger is maintained by maintaining a pressure in a condensate recovery vessel lower than a pressure in a steam supply pipe. Is quickly recovered to the condensate recovery container side and at the same time to supply the latent heat of condensate generated during the recovery of the condensate into the boiler to increase the thermal efficiency.
To this end, a condensate recovery vessel 31 is installed at the end of the condensate pipe 5 to recover the condensate, and the condensate recovery vessel and the boiler 1 include a condensate supply pipe 33 having a check valve 32. The condensate 36 in the condensate recovery container 31 is connected to the steam pipe 34 and driven by an oil pump 35 on the condensate supply pipe 33 of the condensate recovery container 31 and the conduit of the steam pipe 34. Alternatively, the pump 37 has a pumping means 38 for selectively supplying the steam 37 to the boiler 1, and at the same time, the electronic valves 39 and 40 are respectively installed in the condensed water supply pipe 33 and the steam pipe 34. As the electronic valves 39 and 40 are selectively opened and closed while the pumping means 38 is driven, the condensed water 36 or steam 37 is supplied to the boiler 1 side, but the pumping means 38 is A housing 41 having a large cylinder 42 and a small cylinder 43, and an interior of the large cylinder 42 and the small cylinder 43. Located in each of the large cylinder 42 and the pitstone 45 and the sophiestone 46 are connected to each other and connected to each other by the rod 44, the first condensate supply pipe 33a and the first steam pipe 34a ) Is connected to the suction valve 47, the large cylinder 42, the discharge valve 48 is connected to the second condensate water supply pipe 33b and the second steam pipe 34b, the small cylinder 43 and The hose 49a, 49b connected between the oil pump 35 and the pressure of the boiler 1 and the pressure in the condensate recovery vessel are detected to be above or below a set value, thereby controlling the driving of the pumping means 38. Characterized in that it consists of a control unit (51).

Description

Condensate Recovery and Automatic Water Supply System for a Closed Loop Circulating Steam Boiler {omitted}

The present invention relates to a closed-loop circulating steam boiler that heats water and heats it, and more specifically, maintains the pressure in the condensate recovery vessel lower than the pressure in the steam supply pipe to recover condensate generated by heat exchange in the heat exchanger. The present invention relates to a condensate recovery and automatic water supply system of a closed-circuit type steam boiler which can recover the condensate recovery vessel quickly and supply the latent heat of condensate generated during the recovery of condensate to the inside of the boiler to increase thermal efficiency. .

In general, high-pressure steam obtained by heating water is widely used in various fields such as indoor heating, laundry, sewing factory, kitchen, and the like, and such steam is usually obtained by a steam boiler.

1 is a longitudinal sectional view showing the main part of Patent No. 613397, which is a conventional apparatus, wherein a steam supply pipe 3 is installed on an upper portion of a boiler 1 and a heat exchanger 4 is connected to an end of the steam supply pipe 3. The other end of the heat exchanger is connected to a condensate pipe (5) for steam to heat exchange in the heat exchanger and to recover the condensate generated in the south, at this time a steam trap (6) is installed on the condensate pipe .

A condensate water recovery tank 8 having a float switch 7 is connected to the end of the condensate water pipe 5 and a condensate water recovery tank 8 connected to one side of the condensate water recovery tank 5 is connected to a water level The float switch 7 detects that the float switch 7 is at the set water level or higher and a condensate water recovery pump 12 for operating the motor 10 to feed the condensed water in the condensate water recovery tank 8 to the water supply auxiliary tank 11 side is provided A check valve 14 is provided on the connection pipe 9 to prevent the backflow of the condensed water 13 in the water supply auxiliary tank 11 to the condensate collection tank 8 side.

In addition, the water supply auxiliary tank 11 for supplying the condensed water 13 recovered through the connecting pipe 9 to the inside of the boiler 1 is provided at one side of the boiler 1 without water head difference on one side of the boiler 1. It is installed side by side and one side of the boiler 1 is provided with an automatic water level sensor 15 for detecting the water level of the condensate 13 located inside the boiler.

Compressed air supply pipe 16 is connected to the upper portion of the water supply auxiliary tank 11 installed on one side of the boiler 1 without water head difference with the boiler 1, and the other end of the compressed air supply pipe 11 to the water supply auxiliary tank 11 Compressor 19 for generating compressed air 18 by driving in accordance with the detection that the automatic pressure control switch 17 installed in the lower than the set pressure is installed.

Accordingly, the pressure of the steam does not act inside the condensate steam separation tank 11 as in the conventional steam boiler in which the equalization pipe is installed between the boiler 1 and the water supply auxiliary tank 11.

Further, the condensed water in the water supply auxiliary tank 11 is supplied to another boiler (not shown) on the condensed water supply pipe 20 that supplies the condensed water 13 in the water supply auxiliary tank 11 to the inside of the boiler 1. It is further provided with a preliminary valve 21 for branching.

Therefore, when steam (2) is generated by the operation of the boiler (1), the generated steam 22 is supplied to the heat exchanger (4) along the steam supply pipe (3) to perform heating, and some steam is separate steam. It is supplied through a pipe.

In this process, when the steam is converted into the condensate 13 by heat exchange, wet steam is removed from the steam trap 6 in the process of being recovered to the condensate recovery tank 8 through the condensate pipe 5.

When the condensate water 13 is filled in the condensate water recovery tank 8 and the float switch 7 detects that the float switch 7 is at the set water level or higher, the power is automatically applied to the motor 10 to operate the condensate water recovery pump 12, The condensed water 13 is recovered to the side of the water supply auxiliary tank 11 through the connection pipe 9.

In this way, after the condensate 13 is recovered to the water supply auxiliary tank 11, the high pressure compressed air (higher than the steam pressure in the boiler) generated by driving the compressor 19 is located in the upper portion of the water supply auxiliary tank 11. The pressure of the pressure in the water supply auxiliary tank 11 is detected by the automatic pressure control switch 17 installed at the upper part of the water supply auxiliary tank 11, and the compressor 19 is operated through the supply pipe 16. When higher than the steam pressure in the), the operation of the compressor 19 is temporarily stopped. When the pressure in the water supply auxiliary tank 11 becomes lower than the steam pressure in the boiler 1 by supplying condensed water, the automatic pressure control switch 17 supplies water. Since the compressor 19 is restarted until it detects that the pressure in the auxiliary tank 11 is higher than the steam pressure in the boiler 1, the pressure in the water supply auxiliary tank 11 is always higher than the steam pressure in the boiler 1. To maintain state do.

In this state, when the automatic water level sensor 15 detects that the water level of the condensate water 13 in the boiler is lower than the set water level due to the continuous operation of the boiler 1, the solenoid valve 23 installed on the condensate water supply pipe 20 is Since it is open, the condensed water in the water supply auxiliary tank 11 is filled into the inside of the boiler 1, at this time, even if the water level of the water supply auxiliary tank 11 is lower than the water level of the boiler 1 located on one side. Since the pressure of the compressed air higher than the steam pressure in the boiler 1 is applied to the upper portion of the auxiliary tank 11, the condensed water in the water supply auxiliary tank 11 is filled in the boiler 1 through the condensed water supply pipe 20.

However, such a conventional device has a number of problems as follows.

First, a motor 10 and a pump 12 for pumping condensed water recovered to the condensate recovery tank 11 to the water supply auxiliary tank 11 while requiring a condensate recovery tank 8 and a float switch 7 for recovering condensed water, And the like, the structure is complicated, which not only raises the production cost but also causes frequent failures.

Second, in order to quickly supply the condensed water 13 to the boiler when the boiler 1 is temporarily stopped, the expensive compressor 19 and the compressed air supply pipe 20 are necessary. Of course, at one end of the water supply auxiliary tank 11, a connecting pipe 9 for recovering the condensed water 13, and at the other end, a condensed water supply pipe 20 for supplying the condensed water 13 to the boiler 1 separately. An operational problem has arisen that must be fixed by welding.

Third, since the configuration is complicated and the number of parts is large, the area occupied by the installation of the apparatus becomes large.

The present invention has been made to solve such a conventional problem, by improving its structure and supplying the waste heat of high temperature generated by the recovery of condensate from the condensate recovery vessel to the boiler side when the water supply is not made to the boiler side When the water level in the boiler falls below the set value, the purpose is to automatically supply the condensate in the condensate return vessel to the boiler.

According to an aspect of the present invention for achieving the above object, the condensate recovery vessel and the condensate recovery vessel is installed at the end of the condensate pipe, the condensate recovery vessel and the boiler is connected to the condensate supply pipe and steam pipe having a check valve Pumping means for supplying condensate or steam in the condensate recovery vessel selectively to the boiler by the oil pump on the condensate supply pipe and the steam pipe of the condensate supply pipe and at the same time by installing an electronic valve in the condensate supply pipe and the steam pipe, respectively Condensed water or steam is supplied to the boiler side as the electronic valve is selectively opened and closed in the process of driving the means, wherein the pumping means is located in the housing having a large cylinder and a small cylinder, and the large cylinder and the small cylinder, respectively. And interconnected and interlocked by rods An intake valve installed on the Sophie cylinder, the first cylinder connected to the first condensed water supply pipe and the first steam pipe, a discharge valve installed on the large cylinder and connected to the second condensed water supply pipe and the second steam pipe, the small cylinder and Condensed water in a closed circuit circulating steam boiler comprising a hose connected between an oil pump and a control unit for controlling the driving of the pumping means in response to detecting that the water level of the boiler and the pressure in the condensate recovery container are above or below a set value. Recovery and water supply is provided.

The present invention has the following advantages over the conventional device.

First, since only the condensate recovery container that maintains a lower pressure than the steam supply pipe to recover the condensate, the condensate recovery container also serves as a conventional water supply auxiliary tank, so the configuration of the float switch, water supply auxiliary tank, motor, pump, etc. It is possible to omit, and thus the structure is greatly simplified to reduce the production cost as well as to reduce the failure.

Second, since the latent heat generated by the recovery of the condensate is recovered to the boiler side, the thermal efficiency is improved, thereby reducing the cost of steam production.

Third, since the configuration is simple, the number of parts is reduced, thereby minimizing the area according to the installation, and thus the device can be installed even in a narrow place.

Furthermore, in the case where the pumping means is of the vertical type, compacting is possible, so that the installation area can be further reduced.

Fig. 1 is a longitudinal sectional view showing a main portion of a conventional apparatus, Patent No. 613397
Figure 2 is a longitudinal cross-sectional view of the condensate recovery and water supply device of the closed-circulation circulation steam boiler to which the present invention is applied.
3 is an enlarged longitudinal sectional view showing main parts of another embodiment of the present invention;

Hereinafter, with reference to Figures 2 and 3 showing the present invention as an embodiment in more detail as follows.

Figure 2 is a longitudinal cross-sectional view of the condensed water recovery and water supply device of the closed-circuit circulation steam boiler to which the present invention is applied, the same configuration as the conventional steam boiler of the present invention will be omitted the description and given the same reference numerals. do.

According to the present invention, a condensate recovery container 31 collecting condensate at an end of the condensate pipe 5 is installed, and the condensate recovery container 31 and the boiler 1 have a check valve 32. And a steam pipe 34.

In addition, the condensate supply pipe 33 and the steam pipe 34 are driven by an oil pump 35 to supply condensate 36 or steam 37 in the condensate recovery container 31 to the boiler 1 selectively. It is provided with a pumping means 38 and the condensate supply pipe 33 and the steam pipe 34 is provided with an electronic valve 39, 40, respectively, the electromagnetic valve 39 in the process of driving the pumping means 38 As the 40 is selectively opened and closed, the condensed water 36 or steam 37 is configured to be supplied to the boiler 1 side.

The pumping means 38 are located in the housing 41 having a large cylinder 42 and a small cylinder 43, and inside the large cylinder 42 and the small cylinder 43, respectively, by means of a rod 44. An intake valve 47 installed in the large cylinder 42 and the first piston 45 and the sophie stone 46 connected to each other and connected to each other and connected to the first condensate water supply pipe 33a and the first steam pipe 34a. And a discharge valve 48 installed at the large cylinder 42 and connected to the second condensate water supply pipe 33b and the second steam pipe 34b, and connected between the small cylinder 43 and the oil pump 35. The hoses 49a and 49b, the solenoid valve 50 for switching the oil flow path during the operation of the oil pump 35, and the water level of the boiler 1 and the pressure in the condensate recovery container are higher than the set value. Or it is composed of a control unit 51 for controlling the driving of the pumping means 38 in accordance with the detection.

The condensate water supply pipe 33 and the steam pipe 34 are divided into first and second condensate water supply pipes 33a and 33b and first and second steam pipes 34a and 34b to form a first condensate water supply pipe 33a and a first agent. The first steam pipe 34a is connected to the intake valve 47 of the large cylinder 42, which is the condensate recovery container 31 and the pumping means 38, and has a second condensate water supply pipe 33b and a second steam pipe 34b. Is connected to the discharge valve 48 of the boiler 1 and the large cylinder 42.

The pumping means 38 is shown as a horizontal type in FIG. 2, which is an embodiment of the present invention. However, since the vertical type can be reduced as shown in FIG. It is understandable that it can be applied more usefully.

Reference numeral 52 denotes a condensate pressure switch, 53 a water gauge, and 54 a check valve installed on the condensate pipe.

Hereinafter, the operation of the present invention will be described.

First, when the steam 37 is generated by the operation of the boiler 1, the generated steam 37 is supplied to the heat exchanger 4 along the steam supply pipe 3 to perform heating and a part of the steam is separated. It is fed through a steam pipe, the operation of which is the same as in a conventional closed circuit steam boiler.

As such, when the condensate 36 generated by heat exchange in the heat exchanger 4 is recovered to the condensate recovery vessel 31 through the condensate pipe 5, the pressure in the condensate recovery vessel 31 is increased by the latent heat of the condensate. Is raised.

As such, when the pressure in the condensate recovery container 31 rises and the control unit 51 detects a pressure (100 to 400 Hg) or more above a set value, the oil pump 35, which is the pumping means 38, is driven to pump the oil. Since 49a) flows through the “a” port of the small cylinder 43, the sophiestone 46 is moved to the right side in the drawing as shown in FIG. 2. In this case, the electromagnetic valve 40 installed on the first steam pipe 34a is provided. ) Is opened, and the solenoid valve 39 installed on the first condensate supply pipe 33a is closed so that only the hot steam 37 in the condensate recovery container 31 is connected to the large cylinder 42 through the intake valve 47. Is sucked into the interior.

After the high temperature steam 37 having latent heat in the condensate recovery container 31 is introduced into the large cylinder 42 by the operation as described above, the flow path is switched by the solenoid valve 50, and the " a " Is closed and the "b" port is opened, so that the oil compressed by the driving of the oil pump 35 flows into the "b" port through the hose 49b, thereby allowing the sophiestone 46 to move to the left in the drawing. do.

As described above, when the sophiestone 46 moves to the left side in the drawing, the sophiestone 46 is connected to the evacuation stone 45 by the rod 44 so that the high temperature steam in the large cylinder 42 Compressed to supply the inside of the boiler (1) through the second steam pipe (34b) to maximize the efficiency of the boiler.

As described above, the operation of forcibly feeding high-temperature steam 37 in the condensate recovery container 31 to the boiler 1 to increase thermal efficiency continues until the control unit 51 senses a pressure below the set value. Will be made.

However, as described above, the control unit 51 indicates that the water level in the boiler 1 is low in the process of supplying the steam 37 in the condensate recovery container 31 to the boiler 1 side by driving the pumping means 38. When detected, the electromagnetic valve 40 installed in the first steam pipe 34a is closed and the electronic valve 39 installed on the first condensate water supply pipe 33a is automatically opened. Thus, the condensate recovery container 31 is formed as described above. The condensed water 36 in the inside is supplied to the inside of the boiler 1 through the 1st condensed water supply pipe 33a-large cylinder 42-2nd condensed water supply pipe 33b until it becomes high water level.

On the other hand, when the pressure in the condensate recovery container 31 is below the set value, and the water level in the boiler 1 maintains the set water level (between the high water level and the low water level), it is understood that the pumping means 38 stops driving and is in the standby state. It is possible.

It is to be noted that the technical spirit of the present invention has been specifically described according to the above-described preferred embodiments, but it should be noted that the above-described embodiments are intended to be illustrative and not restrictive.

It will be understood by those skilled in the art that various changes and modifications may be made without departing from the scope of the present invention.

1: boiler 4: heat exchanger
31 condensate recovery container 33: condensate supply pipe
34: steam pipe 35: oil pump
38: pumping means 39, 40: electronic valve
41 housing 42: large cylinder
43: cylinder 43: rod
45: evacuation stone 46: Sophie Stone
47: intake valve 48: discharge valve
50: solenoid valve 51: control unit

Claims (3)

delete delete At the end of the condensate pipe 5, a condensate recovery container 31 for recovering condensate is installed, and the condensate recovery container and the boiler 1 are provided with a condensate supply pipe 33 and a steam pipe having a check valve 32. 34 is connected to the condensate supply pipe 33 of the condensate recovery container 31 and the conduit of the steam pipe 34 by the oil pump 35 to drive the condensate 36 or steam in the condensate recovery container 31 ( In addition to the pumping means 38 for selectively supplying the 37 to the boiler 1, the condensate supply pipe 33 and the steam pipe 34 are provided with an electromagnetic valve 39, 40 respectively to the pumping means ( As the electronic valves 39 and 40 are selectively opened and closed in the process of driving 38, the condensate 36 or steam 37 is supplied to the boiler 1 side, but the pumping means 38 is a large cylinder. A housing 41 having a 42 and a small cylinder 43, and inside the large cylinder 42 and the small cylinder 43, respectively. And are connected to and interlocked with each other by the rod 44, and are installed in the large cylinder 42 and the first condensate water supply pipe 33a and the first steam pipe 34a. A discharge valve 48 connected to the suction valve 47 connected to the large cylinder 42 and to which the second condensate supply pipe 33b and the second steam pipe 34b are connected, the small cylinder 43 and the oil pump Control unit for controlling the driving of the pumping means 38 in response to the hose (49a) (49b) connected between the 35 and the water level of the boiler (1) and the pressure in the condensate recovery container is above or below the set value Condensate recovery and water supply device of the closed-circuit circulation steam boiler, characterized in that consisting of (51).

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