CN209782206U - Jacket type energy-saving steam trap - Google Patents

Abstract

The utility model relates to the technical field of accessories of water-vapor separation equipment, in particular to a jacket type energy-saving steam trap which can keep the temperature inside the equipment stable and improve the water-vapor separation efficiency; condensed water in the equipment can be quickly discharged, and the energy conservation is improved; the water-saving water heater comprises an inner sleeve, an outer sleeve, a left connecting rod, a right connecting rod, a reinforcing rod, a water inlet pipe, a water outlet pipe, a floating ball, a left supporting rod, a right supporting rod, a left limiting plate and a right limiting plate, wherein a first inner cavity is arranged inside the inner sleeve; the temperature sensing device is characterized by further comprising a branch pipe, wherein a fixing hole is formed in the left half area of the bottom end of the inner sleeve, a sealing hole is formed in the left half area of the bottom end of the outer sleeve, and a temperature sensing element is arranged on the branch pipe.

Description

Jacket type energy-saving steam trap

Technical Field

The utility model relates to a technical field of auxiliary device of water-vapor separation equipment, in particular to a jacket type energy-saving steam trap.

Background

As is well known, a steam trap is an auxiliary device used in steam pipe networks and equipment, which can automatically discharge condensed water, air and other non-condensable gases and prevent steam leakage, and is widely used in the field of water-steam separation equipment; the existing steam trap is used for discovering that the temperature change in the equipment is large, so that the flash evaporation in the equipment cannot be always positioned at the upper part of the equipment, and the water-steam separation efficiency is low; when a large amount of condensed water is generated in the equipment, the discharging speed of the condensed water is slow, and the temperature of the heat exchange equipment is slow, so that the energy-saving property of the heat exchange equipment is poor.

SUMMERY OF THE UTILITY MODEL

in order to solve the technical problem, the utility model provides a device which can keep the temperature inside the device stable and improve the water-vapor separation efficiency; the jacket type energy-saving steam trap can quickly discharge condensed water in equipment and improve energy conservation.

The utility model relates to a jacket type energy-saving steam trap, which comprises an inner sleeve, an outer sleeve, a left connecting rod, a right connecting rod, a reinforcing rod, a water inlet pipe, a water drain pipe, a floating ball, a left supporting rod, a right supporting rod, a left limiting plate and a right limiting plate, wherein the inner sleeve is internally provided with a first inner cavity, the outer sleeve is internally provided with a second inner cavity, the inner sleeve is positioned in the second inner cavity, the left end and the right end of the left connecting rod are respectively connected with the lower half area of the left side wall of the outer sleeve and the lower half area of the left side wall of the inner sleeve, the left end and the right end of the right connecting rod are respectively connected with the lower half area of the right side wall of the inner sleeve and the lower half area of the right side wall of the outer sleeve, the top end of the reinforcing rod is connected with the central area of the inner top wall of the outer sleeve, the left side, the water inlet pipe is characterized in that the output end of the water inlet pipe penetrates through a first connecting hole and is in sealed connection with a communicating hole, the outer side wall of the water inlet pipe is in sealed connection with the inner side wall of the first connecting hole, the input end of the water outlet pipe is in sealed connection with a second connecting hole, a water outlet is arranged in the central area of the bottom end of the inner sleeve and is communicated with a first inner cavity, the bottom ends of the left supporting rod and the right supporting rod are respectively connected with the left half area and the right half area of the inner bottom side wall of the inner sleeve, the top ends of the left supporting rod and the right supporting rod are respectively connected with the central areas of the bottom ends of the left limiting plate and the right limiting plate; the temperature sensing device is characterized by further comprising a branch pipe, wherein a fixing hole is formed in the left half area of the bottom end of the inner sleeve, a sealing hole is formed in the left half area of the bottom end of the outer sleeve, the input end of the branch pipe is connected with the fixing hole in a sealing mode, the output end of the branch pipe penetrates through the fixing hole and is connected with the inner side wall of the fixing hole in a sealing mode, and a temperature sensing.

the utility model discloses an energy-conserving steam trap of double-layered shell type still includes left stabilizer bar, right stabilizer bar and spacing ring, left stabilizer bar left end and right stabilizer bar right-hand member respectively with endotheca interior left side wall and interior right side wall first region connection, left stabilizer bar right-hand member and right stabilizer bar left end respectively with spacing ring left side wall and right side wall connection.

The utility model discloses a jacket type energy-saving steam trap, the overcoat lateral wall is provided with the heat preservation asbestos protection pad.

The utility model discloses an energy-conserving steam trap of jacket formula still includes the screen cloth, the screen cloth left end is connected with endotheca left side wall first region, and the screen cloth is located inlet tube output right side.

The utility model discloses an energy-conserving steam trap of double-layered shell type still includes first flange and second flange, first flange mounting is at the inlet tube input, the second flange mounting is at the drain pipe output.

Compared with the prior art, the beneficial effects of the utility model are that: high-temperature water vapor enters the first inner cavity from the water inlet pipe, condensed water is deposited at the bottom of the first inner cavity due to gravity after entering water vapor separation, when the liquid level is lower than the top end of the floating ball, the floating ball seals the water outlet, the condensed water forms a liquid seal protective layer at the bottom of the first inner cavity and blocks the steam from being discharged from the water outlet, when the liquid level of the condensed water is higher than the top end of the floating ball, the floating ball is lifted, the condensed water enters the second inner cavity from the water outlet, when the condensed water accumulates in the inner cavity to a certain amount, the condensed water is discharged from the water discharge pipe and enters a system water return pipeline to be discharged to a condensed water recovery device, and the condensed water plays a certain temperature balancing role in the second inner cavity for the first inner cavity, so that flash steam in the first inner cavity is always positioned at the upper part of the first inner cavity; built-in temperature-sensing element for in time discharge when a large amount of condensate water of control produces, when a large amount of condensate water enters into first inner chamber in the middle of, temperature-sensing element is automatic to be opened, and the branch pipe is in open state, and the condensate water discharges fast, and when the condensate water discharge back, temperature-sensing element closes, and the branch pipe is closed thereupon, and remaining condensate water is discharged by the drain pipe, thereby has realized the rapid heating up of equipment, has reduced the energy consumption, improves energy-conservation nature.

Drawings

Fig. 1 is a schematic structural diagram of the present invention;

FIG. 2 is an enlarged view of a portion of FIG. 1;

FIG. 3 is a schematic top view of the connection of the left stabilizer bar, the right stabilizer bar and the retainer ring;

In the drawings, the reference numbers: 1. an inner sleeve; 2. a jacket; 3. a left connecting rod; 4. a right connecting rod; 5. a reinforcing rod; 6. a water inlet pipe; 7. a drain pipe; 8. a floating ball; 9. a left support bar; 10. a right support bar; 11. a left limit plate; 12. a right limit plate; 13. a branch pipe; 14. a temperature sensing element; 15. a left stabilizer bar; 16. a right stabilizer bar; 17. a limiting ring; 18. a heat-insulating asbestos protection pad; 19. screening a screen; 20. a first flange; 21. a second flange.

Detailed Description

The following detailed description of the embodiments of the present invention is provided with reference to the accompanying drawings and examples. The following examples are intended to illustrate the invention, but are not intended to limit the scope of the invention.

As shown in figures 1 to 3, the jacket type energy-saving steam trap of the present invention comprises an inner jacket 1, an outer jacket 2, a left connecting rod 3, a right connecting rod 4, a reinforcing rod 5, a water inlet pipe 6, a water outlet pipe 7, a floating ball 8, a left supporting rod 9, a right supporting rod 10, a left limiting plate 11 and a right limiting plate 12, wherein a first inner cavity is arranged inside the inner jacket 1, a second inner cavity is arranged inside the outer jacket 2, the inner jacket 1 is positioned in the second inner cavity, the left end and the right end of the left connecting rod 3 are respectively connected with the lower half area of the left side wall inside the outer jacket 2 and the lower half area of the left side wall inside the inner jacket 1, the left end and the right end of the right connecting rod 4 are respectively connected with the lower half area of the right side wall inside the inner jacket 1 and the lower half area of the right side wall inside the outer jacket 2, the top end of the reinforcing rod 5 is connected with the central area of the top end of the inner jacket 1, the upper half area of the left side wall of the inner sleeve 1 is provided with a communication hole, the output end of a water inlet pipe 6 penetrates through a first connecting hole and is in sealed connection with the communication hole, the outer side wall of the water inlet pipe 6 is in sealed connection with the inner side wall of the first connecting hole, the input end of a drain pipe 7 is in sealed connection with a second connecting hole, the central area of the bottom end of the inner sleeve 1 is provided with a water outlet which is communicated with a first inner cavity, the bottom ends of a left supporting rod 9 and a right supporting rod 10 are respectively connected with the left half area and the right half area of the inner bottom side wall of the inner sleeve 1, the top ends of the left supporting rod 9 and the right supporting rod 10 are respectively connected with the central areas of the bottom ends of a left limiting plate 11 and a right limiting; the temperature sensing device also comprises a branch pipe 13, wherein a fixed hole is formed in the left half area of the bottom end of the inner sleeve 1, a sealing hole is formed in the left half area of the bottom end of the outer sleeve 2, the input end of the branch pipe 13 is connected with the fixed hole in a sealing mode, the output end of the branch pipe 13 penetrates through the fixed hole and is connected with the inner side wall of the fixed hole in a sealing mode, and a temperature sensing element 14 is arranged; high-temperature water vapor enters the first inner cavity from the water inlet pipe, condensed water is deposited at the bottom of the first inner cavity due to gravity after entering water vapor separation, when the liquid level is lower than the top end of the floating ball, the floating ball seals the water outlet, the condensed water forms a liquid seal protective layer at the bottom of the first inner cavity and blocks the steam from being discharged from the water outlet, when the liquid level of the condensed water is higher than the top end of the floating ball, the floating ball is lifted, the condensed water enters the second inner cavity from the water outlet, when the condensed water accumulates in the inner cavity to a certain amount, the condensed water is discharged from the water discharge pipe and enters a system water return pipeline to be discharged to a condensed water recovery device, and the condensed water plays a certain temperature balancing role in the second inner cavity for the first inner cavity, so that flash steam in the first inner cavity is always positioned at the upper part of the first inner cavity; built-in temperature-sensing element for in time discharge when a large amount of condensate water of control produces, when a large amount of condensate water enters into first inner chamber in the middle of, temperature-sensing element is automatic to be opened, and the branch pipe is in open state, and the condensate water discharges fast, and when the condensate water discharge back, temperature-sensing element closes, and the branch pipe is closed thereupon, and remaining condensate water is discharged by the drain pipe, thereby has realized the rapid heating up of equipment, has reduced the energy consumption, improves energy-conservation nature.

The utility model also comprises a left stabilizer bar 15, a right stabilizer bar 16 and a limit ring 17, wherein the left end of the left stabilizer bar 15 and the right end of the right stabilizer bar 16 are respectively connected with the upper half area of the inner left side wall and the inner right side wall of the inner sleeve 1, and the right end of the left stabilizer bar 15 and the left end of the right stabilizer bar 16 are respectively connected with the left side wall and the right side wall of the limit ring 17; the limit block can limit the rising maximum height of the floating ball, and the use reliability is improved.

the outer side wall of the jacket 2 of the jacket type energy-saving steam trap of the utility model is provided with a heat preservation asbestos protection pad 18; the heat preservation asbestos protection pad can play the heat preservation thermal-insulated to equipment, prevents the effect of scald, improves the safety in utilization.

The jacket type energy-saving steam trap of the utility model also comprises a screen 19, the left end of the screen 19 is connected with the upper half area of the left side wall of the inner sleeve 1, and the screen 19 is positioned at the right side of the output end of the water inlet pipe 6; the screen can filter the impurity in the liquid, improves the stability in use.

The jacket type energy-saving steam trap of the utility model also comprises a first flange 20 and a second flange 21, wherein the first flange 20 is arranged at the input end of the water inlet pipe 6, and the second flange 21 is arranged at the output end of the water outlet pipe 7; first flange and second flange can be convenient for install equipment, improve the convenience of use.

The jacket type energy-saving steam trap of the utility model, when in operation, high-temperature water vapor enters the first inner cavity through the water inlet pipe, after the water-vapor separation, the condensed water is deposited at the bottom of the first inner cavity due to gravity, when the liquid level is lower than the top end of the floating ball, the floating ball seals the water outlet, the condensed water forms a liquid seal protective layer at the bottom of the first inner cavity to block the steam from being discharged from the water outlet, when the level of the condensed water is higher than the top end of the floating ball, the floating ball is lifted, the condensed water enters the second inner cavity from the water outlet, when the condensed water is accumulated to a certain amount in the internal cavity of the die, the condensed water is discharged from the water discharge pipe, enters the water return pipeline of the system and is discharged to the condensed water recovery device, and the condensed water plays a certain temperature balancing role on the first internal cavity in the second internal cavity, so that the flash steam in the first internal cavity is always positioned at the upper part of the first internal cavity, and the water-vapor separation effect is efficiently realized; the built-in temperature sensing element is used for controlling timely discharge of a large amount of condensed water, when the large amount of condensed water enters the first inner cavity, the temperature sensing element is automatically opened, the branch pipe is in an open state, the condensed water is quickly discharged, after the condensed water is discharged, the temperature sensing element is closed, the branch pipe is closed, and the residual condensed water is discharged from the drain pipe, so that the quick temperature rise of equipment is realized, the energy consumption is reduced, and the energy conservation is improved; the maximum height of the floating ball can be limited by the limiting block, so that the use reliability is improved; the heat-preservation asbestos protection pad can play a role in heat preservation and insulation of equipment and prevention of scalding, and improves the use safety; the screen can filter out impurities in the liquid, so that the use stability is improved; first flange and second flange can be convenient for install equipment, improve the convenience of use.

The temperature sensing element used by the jacket type energy-saving steam trap of the utility model is purchased from the market, and only needs to be installed and used according to the specification.

The utility model discloses an energy-conserving steam trap of jacketed type, above the mounting means, the connected mode or the mode that sets up of all parts are common mechanical system to the concrete structure, model and the coefficient index of all its parts are its from taking the technique, as long as can reach all can implementing of its beneficial effect, so do not add at many and give unnecessary details.

In the case that the reverse explanation is not provided, the directional words included in the terms "upper, lower, left, right, front, rear, inner, outer, vertical and horizontal" and the like only represent the direction of the term in the normal use state, or be a trivial term understood by those skilled in the art, and should not be considered as limiting the term, at the same time, the numerical terms "first," "second," and "third," etc. do not denote any particular quantity or order, but rather are used to distinguish one from another, furthermore, the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements does not include only those elements, but also includes other elements not expressly listed or inherent to such process, method, article, or apparatus.

The foregoing is only a preferred embodiment of the present invention, and it should be noted that, for those skilled in the art, a plurality of modifications and variations can be made without departing from the technical principle of the present invention, and these modifications and variations should also be regarded as the protection scope of the present invention.

Claims (5)

1. A jacket type energy-saving steam trap is characterized by comprising an inner jacket (1), an outer jacket (2), a left connecting rod (3), a right connecting rod (4), a reinforcing rod (5), a water inlet pipe (6), a water outlet pipe (7), a floating ball (8), a left supporting rod (9), a right supporting rod (10), a left limiting plate (11) and a right limiting plate (12), wherein a first inner cavity is arranged inside the inner jacket (1), a second inner cavity is arranged inside the outer jacket (2), the inner jacket (1) is positioned in the second inner cavity, the left end and the right end of the left connecting rod (3) are respectively connected with the lower half area of the left side wall in the outer jacket (2) and the lower half area of the left side wall of the inner jacket (1), the left end and the right end of the right connecting rod (4) are respectively connected with the lower half area of the right side wall of the inner jacket (1) and the lower half area of the right side wall in the outer jacket (2), the top end of the reinforcing rod, the bottom end of the reinforcing rod (5) is connected with the central area of the top end of the inner sleeve (1), the upper half areas of the left side wall and the right side wall of the outer sleeve (2) are respectively provided with a first connecting hole and a second connecting hole, the upper half area of the left side wall of the inner sleeve (1) is provided with a communicating hole, the output end of the water inlet pipe (6) passes through the first connecting hole and is hermetically connected with the communicating hole, the outer side wall of the water inlet pipe (6) is hermetically connected with the inner side wall of the first connecting hole, the input end of the water outlet pipe (7) is hermetically connected with the second connecting hole, the central area of the bottom end of the inner sleeve (1) is provided with a water outlet, the water outlet is communicated with a first inner cavity, the bottom ends of the left supporting rod (9) and the right supporting rod (10) are respectively connected with the left half area and the right half area of the, the left limiting plate (11) and the right limiting plate (12) are both arc-shaped structures, the top side walls of the left limiting plate (11) and the right limiting plate (12) are both contacted with the outer side wall of the floating ball (8), and the floating ball (8) just seals the water outlet; still include branch pipe (13), endotheca (1) bottom left half district is provided with the fixed orifices, and overcoat (2) bottom left half district is provided with sealed hole, branch pipe (13) input and fixed orifices sealing connection, branch pipe (13) output pass the fixed orifices and with fixed orifices inside wall sealing connection, be provided with temperature sensing element (14) on branch pipe (13).

2. The jacketed energy-saving steam trap as defined in claim 1 further comprising a left stabilizer bar (15), a right stabilizer bar (16) and a limiting ring (17), wherein the left end of the left stabilizer bar (15) and the right end of the right stabilizer bar (16) are respectively connected with the upper half areas of the inner left side wall and the inner right side wall of the inner sleeve (1), and the right end of the left stabilizer bar (15) and the left end of the right stabilizer bar (16) are respectively connected with the left side wall and the right side wall of the limiting ring (17).

3. A jacketed energy-saving steam trap as claimed in claim 2, characterized in that the outer side wall of the jacket (2) is provided with a heat-insulating asbestos protection mat (18).

4. The jacketed energy-saving steam trap as claimed in claim 3, further comprising a screen (19), wherein the left end of the screen (19) is connected to the upper half area of the left side wall of the inner jacket (1), and the screen (19) is located at the right side of the output end of the water inlet pipe (6).

5. The jacketed energy-saving steam trap of claim 4 further comprising a first flange (20) and a second flange (21), the first flange (20) being mounted at the inlet end of the inlet pipe (6) and the second flange (21) being mounted at the outlet end of the outlet pipe (7).