KR20080024797A - Tram - Google Patents

Abstract

A tram is provided to feed condensed water more effectively by employing an empty space, a condensed water inlet, and a condensed water outlet and covering the tram with a cover. A tram comprise a small water tank(35), a tram outlet(18), a condensed water inlet(16), a condensed water outlet(17), a cover(34), and bolts(14). The tram outlet is formed on the bottom of the small water tank. The condensed water inlet is formed on the lateral wall at the bottom of the small water tank. The condensed water outlet is formed on the lateral wall at the top of the small water tank. The cover is installed to the top of the small water tank. The bolts fastens the cover. The small water tank has an empty space.

Description

Tram {omitted}

Figure 1 is a longitudinal side view showing a conventional steam (steam) boiler operating state and the operating state of the present invention.

Figure 2 is an enlarged longitudinal cross-sectional view of the present invention

Figure 3 is a side longitudinal cross-sectional view showing an operating state of a conventional tram.

※ Explanation of code for main part of drawing ※

1: Normal steam boiler 2: Pressure gauge 3: Safety valve 4: Automatic control box 5: Steam room

6: Water level sensor 7: Heating device 8: Pump 9: Condensate tank 10: Water pipe 11: Ball tower

12, 12A: Condensed water piping 13: Inside tram 14: Bolt 15: Tram 16: Inlet 17: Outlet

18: tram drain 19: condensation outlet cover 20: normal tram 21: steam discharge valve

22, 23: Condensate control valve 24: Bypass valve 25: Normal tram condensation outlet

26: bypass pipe 30: steam film 31: steam supply pipe 32: air conditioner 33: heat radiating pipe

34: tram cover 35: small tank 40: supplement water pipe 45: rotation shaft 50: waterway

The present invention relates to a tram that operates a normal steam boiler and circulates the steam through a tube such as a heating tube or a dryer tube to heat the room or dry the food or food. It generates heat in the pipe and cools it down and converts it into water. In this case, a conventional tram means that water is discharged to condensate by a device and prevents the outflow of steam. The present invention is to more effectively improve the tram as described above to form an empty space inside the tram and to form a condensate inlet and outlet pipes in the lower and upper portion of the condensate water to fill the inside of the tram small tank to the steam outflow It can be prevented. Figure 3 shows the structure of a conventional tram as a condensate outlet (19) forming a condensate outlet (25) like a mountain shape on the lower side of the inside of the tram (20) tank, and installed a cup-shaped condensate cover (19) covering the condensate outlet. The support shaft rotating shaft 45 which can support the cover is installed and the condensate outlet port side is formed by forming a waterway 50. When the conventional steam boiler 1 is operated as described above, steam is produced in the steam chamber 5 and supplied to the radiator 32 through the steam supply pipe 31 to heat the steam membrane 30 to some extent. As time goes by, the steam cools down and the condensate control valve is opened through the condensate pipe 12A. The condensate pipe is collected into the conventional tram 20. After a certain period of time, the water is filled in the tram. At this time, the condensate outlet 25 is opened and the condensate is circulated through the condensate outlet 25 through the condensate outlet 25 by the pressure of the steam in the steam chamber 5. (17) is circulated to the condensate tank (9) through the condensate pipe (12) is recycled by the operation of the pump (8) to the steam boiler chamber, but the mechanical mechanism such as the condensate cover (19), the rotating shaft (45) inside the tram In the operation of There is a risk of failure and shorten the life of the product.

The present invention provides an empty space in the tram as shown in Figure 2 to solve the above problems, the condensate inlet 16 is configured on the lower side of the tram and the condensate outlet 17 is configured on the upper side of the tram radiator engine When the condensate cooled in (33) flows into the tram, the condensate is collected into the tram 15 through the condensate inlet 16 and automatically serves to block the condensate from the tram inlet. The condensate is collected by the pressure of the steam in the steam chamber 5 through the condensate pipe 12 to the condensate tank 9. As an example, as shown in FIG. 3, steam generated in the steam boiler 1 is generally introduced into the heat dissipator 32 and the heat dissipation tube 33 through the steam supply pipe 31 so as to generate steam on the outer surface of the heat dissipation tube 30. As the inside gets hotter, it is used for steam baths or drying products in a drying room. As this process is continuously repeated, water vapor is cooled and converted into water in the heat dissipation pipe 33 or the drying pipe. Water is collected into the tram through the tram inlet 16 through the condensate troughs 12 and 12A to the inside of the tram in the direction of the arrow inside the tram. Due to the buoyancy of the water, the condensate outlet 25 is opened while the condensate outlet 25 is opened while the condensate is condensed by the pressure of the steam generated in the steam boiler. The condensate pipe 12 is circulated through the outlet 17 and flows into the condensate tank 9 so that the low water level alarm is transmitted to the automatic control box 4 by the normal steam boiler water level detection 6 and the pump 8. Is operated to recycle and supply the water collected in the condensate tank 9 to the inside of the boiler. The condensate water is evaporated and the insufficient water is automatically opened by the ball tower 11 through the water pipe 10 and the tap water is opened. As shown in Fig. 3, the inside of the tram is made up of various parts, which causes a problem. As shown in FIG. 2, an empty space is provided inside the tram 15, and the tram inlet 16 is installed at the lower side of the tram 15 so as to be submerged in water, and the tram outlet 17 is installed at the upper side of the tram. It is characterized by making the inside of the tram an empty space.

1 to 2 are shown as a configuration of the present invention as shown in the accompanying drawings as shown in the steam chamber (5) (water level sensing 16) pressure presser (2) safety valve (3) automatic control box ( 4) The conventional steam (steam) boiler (1) equipped with a heating device (7) is seated, and the steam supply pipe (31) above the steam chamber (5) above the heat radiator (32) installed in the steam film (30) A small water tank and a tram cover 34 and a bolt fixed to the cover are formed on the outside of the steam room 30, and an inlet pipe 16 is disposed below the discharge pipe 17 on the upper part of the small tank 35. Install the trams of the present invention each made up and connect the tram discharge pipe and the upper part of the condensate tank (9) with the condensate pipe (12), install the water pipe (10) on the side of the condensate tank, the ball tower is installed at the end and steam Connect the bottom of boiler (1) and the bottom of condensate tank (9) with pump (8) and make-up water pipe (40). When the switch attached to the automatic control box 4 is operated to start a normal steam boiler, the heating device 7 starts to operate. When a certain time has elapsed, it is set by the boiler pressure gauge 2. As the pressure is applied, the heating device 7 stops operating. At this time, when the steam release valve 2 is opened, the heat dissipating device 32 installed in the steam film 30 is circulated through the steam supply pipe 31. As time elapses, the steam in the heat dissipation pipe 33 cools and is converted into water, and the cooled water is transferred to the inside of the tram 15 by the high pressure of the steam in the steam boiler 1. At this time, the inlet valve 16 is opened and the outlet valve 23 is locked. When water reaches the inner and outer boundary lines of the steam room, the outlet valve 23 is opened in the heat dissipation pipe 33 by a cooled amount. For example, to the outside 30A which is not described by the steam room 30 It is not necessary to send steam to the tramway 15. Only the hot water cooled in the steam chamber is sent to the condensate pipe 12A. For example, when 50 cc of water flows out per second in the radiator, only 50 cc of water is discharged per second. If the valve 23 is opened to adjust so that the condensate pipe is connected to the outside of the steam for a long time will be able to save as much energy. The inlet valve can be opened without adjustment. The present invention can be produced at low price if it can be used semi-researched because there is no fear of failure because the structure is simple if there is no space inside the tram. It is. If the water inside the tram is full, the water blocks the drain pipe, so the steam is blocked and only the hot water is recovered into the condensate tank (9). The steam boiler (1) is running below the set level by the water level sensor (6). When it falls down, the pump (8) is operated by automatic control in the automatic control box (4) to send the recovered water in the condensate tank (9) into the steam boiler (1). (9) When the water in the shortage of the ball tower (11) is operated and the water valve is opened automatically to supply the Figure 2 is an enlarged view of the tram of the present invention as described above condensate inlet 16 on the lower side of the tram small tank Since the tram operation is made in the state that the water is blocked by the inlet 16, the high temperature can be blocked by more than about 180 degrees Celsius, and only 70 degrees to 80 degrees Celsius water can be sent into the condensate tank (9). FIG. 3 is a conventional tram which blocks the condensate outlet 25 inside the tram 20 with a cup-shaped condensate outlet cover 19 and consists of three rotary shafts, and a channel is formed in the direction of the arrow of the condensate inlet 16. When the normal steam boiler is operated, the water and steam cooled in the heat dissipating pipe 33 circulate through the condensate pipe 12A and collect in the direction of the arrow inside the tram 20 through the tram 20 inlet 16. As time passes, the water is collected into the tram, and the condensation outlet cover 19 floats up like the rotating shaft 45 by the buoyancy of the water, and the condensate outlet 25 is opened. It is circulated to the outlet 17 and is collected in the condensate tank 9 and recycled to the boiler by the operation of the pump 8. Thus, since the inside of a tram is made up of several parts, it malfunctions. Concerns not occupy the entire interior is large tram is only part of the water Garage rest will have wasted a lot of energy because the steam is introduced. As shown in FIG. 2, the present invention does not require a bypass valve 24 like a conventional tram because there is no breakdown in the interior of the tram. When the conventional tram fails, the tram valve 22 is locked. The bypass valve 24 is operated manually by opening the bypass valve 24. However, since the tram of the present invention has a simple and simple structure, there is no failure rate and there is no need to supply steam to unnecessary parts. It is characterized by obtaining the effect of.

As described above, the present invention is advantageous in that the structure can be mass-produced with a simple and simple structure, and the maintenance cost can be reduced due to frequent breakdowns of the product. It is an invention.

Claims (2)

A small water tank is installed, and the lower end forms a tram drain, the condensate inlet is attached to the lower side of the tram, the condensate outlet is formed on the upper side of the tram, the tram cover is attached to the upper side of the tram, and the tram cover is fixed with bolts. Tram with special name consisting of empty space inside tram The tram according to claim 1, wherein the small water tank tram is installed and the inside of the tram has an empty space. The condensate inlet is installed on the lower side of the tram, and the condensate outlet is installed on the upper side of the tram.

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