CN215294530U - Pilot-operated type high-flow temperature-raising and temperature-lowering dual-purpose steam trap - Google Patents

Abstract

The utility model provides a large-traffic dual-purpose steam trap of intensification of guide's formula cooling, including retaining jar, output tube, input tube, drain pipe, connecting pipe, the input tube links to each other with the retaining jar, the output tube transversely sets up in the side bottom of retaining jar and rather than the intercommunication, the one end of connecting pipe is linked together through ring flange and output tube, and the other end is linked together with the drain pipe, still includes backup pad, bottom tube, piston bush, adaptation piston, thimble, lever and the floater in the piston bush, the backup pad transversely sets up on the ring flange, the piston bush sets up in the backup pad. Steam drainage of the printing and dyeing setting machine enters a water storage tank through an input pipe, a floating ball is driven to float upwards when the water level rises, the floating ball pulls a thimble through a lever, and water pressure in an output pipe enters a bottom pipe through a pinhole; after the internal and external pressures between the input pipe and the bottom pipe are gradually balanced, the water in the output pipe can jack up the piston upwards, and the water enters the bottom pipe through the water inlet hole and the water falling hole and is discharged into the drain pipe through the connecting pipe.

Description

Pilot-operated type high-flow temperature-raising and temperature-lowering dual-purpose steam trap

Technical Field

The utility model relates to a steam trap technical field specifically is a large-traffic dual-purpose steam trap of intensification of guide's formula cooling.

Background

The steam trap (for short, trap) is used for automatically discharging non-condensable gases such as steam condensate and air in heating equipment or steam pipelines and preventing leakage of steam. The steam trap has the functions of blocking steam and draining water, so that the steam heating equipment can supply heat uniformly, latent heat of steam is fully utilized, and water hammer in a steam pipeline is prevented. Steam trap is widely used in setting machine equipment of printing and dyeing mills. When the steam trap of prior art installs on the forming machine, need artifical or solenoid valve switch steam trap to carry out periodic emission, and the steam use amount of printing and dyeing forming machine is big time spent, and the hydrophobic volume of each period of unable accurate judgement leads to needing artifical long-time monitoring, has consumeed a large amount of manpower and materials.

SUMMERY OF THE UTILITY MODEL

Technical problem to be solved

The utility model provides a to prior art not enough, the utility model provides a large-traffic dual-purpose steam trap of cooling up of guide's formula has solved the problem that proposes in the above-mentioned background art.

(II) technical scheme

In order to achieve the above purpose, the utility model discloses a following technical scheme realizes: a guide type large-flow dual-purpose steam trap for warming and cooling comprises a water storage tank, an output pipe, an input pipe, a drain pipe, a connecting pipe, a support plate, a bottom pipe, a piston sleeve, a piston, a thimble, a lever and a floating ball, wherein the input pipe is connected with the water storage tank, the output pipe is transversely arranged at the side bottom of the water storage tank and is communicated with the side bottom of the water storage tank, one end of the connecting pipe is communicated with the output pipe through a flange plate, the other end of the connecting pipe is communicated with the drain pipe through a flange plate, the support plate is transversely arranged on the flange plate, the piston sleeve is arranged on the support plate, the bottom of the support plate is provided with a water inlet hole communicated with the piston sleeve, the bottom pipe is fixed at the bottom of the support plate, one end of the bottom pipe is connected with the connecting pipe, the other end of the bottom pipe is half blocked at the bottom of the water inlet hole, the face of the bottom pipe corresponding to the piston sleeve is provided with a water falling hole, and the piston can cover the water falling hole, the one end of lever articulates on the ring flange, and the floater is connected to the other end, the floater holding is in the accumulator, the movable connection of thimble is at the middle part of lever, the central point of piston puts and has seted up the pinhole, the thimble corresponds with the pinhole is vertical.

Preferably, the top of the piston sleeve is provided with a guide assembly, and the guide assembly is used for guiding the thimble to move vertically.

Preferably, the guide assembly comprises a top cover and a guide sleeve, the top cover is detachably connected to the top of the piston sleeve, the guide sleeve is vertically arranged at the top of the top cover and is communicated with the inside of the piston sleeve, the ejector pin is vertically matched with the guide sleeve in a sliding mode, sliding grooves are vertically formed in two sides of the guide sleeve, hooks matched with the sliding grooves in a sliding mode are arranged on two sides of the ejector pin, and the ejector pin is hung on the lever through the hooks.

Preferably, the top of the piston sleeve is provided with a plurality of vent holes.

Preferably, a plurality of studs are vertically arranged on the supporting plate, and the top cover is sleeved on the studs through guide holes and fixed on the studs through nuts.

Preferably, the bottom pipe semi-blocks the water inlet hole and divides the water inlet hole into three branch water inlet holes.

Preferably, a sealing ring is embedded on the outer ring of the piston.

Preferably, the flange plate is provided with a drain hole, one end of the drain hole is communicated with the bottom pipe, and the other end of the drain hole is communicated with the connecting pipe.

(III) advantageous effects

The utility model provides a large-traffic dual-purpose steam trap of intensification of guide's formula cooling. The method has the following beneficial effects:

1. according to the pilot-operated high-flow temperature-raising and temperature-lowering dual-purpose steam trap, steam trap of a printing and dyeing setting machine enters a water storage tank through an input pipe, a floating ball is driven to float upwards when the water level rises, the floating ball pulls a thimble through a lever, and water pressure in an output pipe enters a bottom pipe through a pinhole; after the internal and external pressures between the input pipe and the bottom pipe are gradually balanced, the water in the output pipe can jack up the piston upwards, and the water enters the bottom pipe through the water inlet hole and the water falling hole and is discharged into the drain pipe through the connecting pipe.

Drawings

Fig. 1 is an external isometric view of the present invention;

FIG. 2 is a schematic view of the internal structure of the present invention;

FIG. 3 is a schematic view of the water inlet of the present invention;

FIG. 4 is a front sectional view of the present invention;

fig. 5 is an enlarged view of a portion a in fig. 4 according to the present invention.

In the figure: the device comprises a water storage tank 1, an output pipe 2, an input pipe 3, a drain pipe 4, a connecting pipe 5, a flange plate 6, a support plate 7, a bottom pipe 8, a piston sleeve 9, a piston 10, a pinhole 11, a thimble 12, a lever 13, a floating ball 14, a water falling hole 15, a water inlet hole 16, a top cover 17, a guide sleeve 18, a sliding groove 19, a hook 20, an air vent 21, a stud 22 and a drain hole 23.

Detailed Description

The embodiment of the utility model provides a large-traffic dual-purpose steam trap of intensification of guide's formula cooling, as shown in fig. 1-5, including retaining jar 1, output tube 2, input tube 3, drain pipe 4, connecting pipe 5, input tube 3 links to each other with retaining jar 1. The water storage tank 1 is used for storing steam and draining water. The output tube 2 transversely sets up in the side bottom of retaining jar 1 and rather than the intercommunication, and the one end of connecting pipe 5 is linked together through ring flange 6 and output tube 2, and the other end is linked together with drain pipe 4, and the water in the output tube 2 is arranged into in the drain pipe 4 through connecting pipe 5.

As shown in fig. 2-3, the device further comprises a supporting plate 7, a bottom tube 8, a piston sleeve 9, a piston 10 fitted in the piston sleeve 9, a thimble 12, a lever 13 and a floating ball 14, wherein the supporting plate 7 is transversely arranged on the flange 6, the piston sleeve 9 is arranged on the supporting plate 7, and a sealing ring is embedded on the outer ring of the piston 10. The inlet opening 16 that link up with piston cover 9 is seted up to the bottom of backup pad 7, and bottom tube 8 is fixed in the bottom of backup pad 7, and the one end of bottom tube 8 links to each other with connecting pipe 5, and the other end is partly kept off in the bottom of inlet opening 16, and bottom tube 8 is partly kept off inlet opening 16 and is divided into three branch water inlet holes with inlet opening 16.

As shown in fig. 3, the flange 6 is provided with a drain hole 23, one end of the drain hole 23 is communicated with the bottom pipe 8, and the other end is communicated with the connecting pipe 5.

As shown in fig. 3-4, the bottom tube 8 has a water falling hole 15 on the surface corresponding to the piston sleeve 9. The water in the output pipe 2 enters the piston sleeve 9 from the water inlet hole 16 and then enters the bottom pipe 8 from the water falling hole 15.

The piston 10 can cover the water falling hole 15, and when the bottom pipe 8 is communicated with the piston sleeve 9 through the needle hole 11, the water in the output pipe 2 can jack the piston 10 upwards from the water inlet hole 16. One end of a lever 13 is hinged on the flange plate 6, the other end of the lever is connected with a floating ball 14, the floating ball 14 is accommodated in the water storage tank 1, a thimble 12 is movably connected in the middle of the lever 13, a needle hole 11 is formed in the center of the piston 10, and the thimble 12 vertically corresponds to the needle hole 11. When the water level in the water storage tank 1 rises, the floating ball 14 rises along with the water level, and drives the thimble 12 to rise and separate from the pinhole 11.

Steam drainage of the printing and dyeing setting machine enters the water storage tank 1 through the input pipe 3, the floating ball 14 is driven to float upwards when the water level rises, the floating ball 14 pulls the thimble 12 through the lever 13, and the water pressure in the output pipe 2 enters the bottom pipe 8 through the pinhole 11; after the internal and external pressures between the input pipe 3 and the bottom pipe 8 are gradually balanced, water in the output pipe 2 enters the piston sleeve 9 through the water inlet hole 16 to jack up the piston 10 upwards, and then enters the bottom pipe 8 through the water inlet hole 16 and the water falling hole 15 and is discharged into the drain pipe 4 through the connecting pipe 5.

The top of the piston sleeve 9 is provided with a guide assembly, and the guide assembly is used for guiding the thimble 12 to move vertically. The guide assembly enables the ejector pin 12 to vertically slide, and prevents the ejector pin 12 from deviating.

As shown in fig. 5, the guiding assembly comprises a top cover 17 and a guiding sleeve 18, wherein the top cover 17 is detachably connected to the top of the piston sleeve 9, and the top cover 17 can be opened when the internal components of the piston sleeve 9 need to be repaired. The guide sleeve 18 is vertically arranged at the top of the top cover 17 and is communicated with the interior of the piston sleeve 9, the ejector pin 12 is vertically matched with the guide sleeve 18 in a sliding mode, sliding grooves 19 are vertically formed in two sides of the guide sleeve 18, hooks 20 matched with the sliding grooves 19 in a sliding mode are arranged on two sides of the ejector pin 12, and the ejector pin 12 is hung on the lever 13 through the hooks 20. The top of the piston sleeve 9 is provided with a plurality of vent holes 21. The piston sleeve 9 has its interior pressure equalized with the interior pressure of the delivery pipe 2 through the vent hole 21.

A plurality of studs 22 are vertically arranged on the supporting plate 7, and during assembly, the top cover 17 is sleeved on the studs 22 through guide holes and fixed on the studs 22 through nuts. When the screw cap is screwed out during disassembly, the top cover 17 can be vertically pulled out of the stud 22.

Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.

Claims (8)

1. The utility model provides a large-traffic dual-purpose steam trap of cooling up of guide's formula, includes water storage tank (1), output tube (2), input tube (3), drain pipe (4), connecting pipe (5), input tube (3) link to each other with water storage tank (1), output tube (2) transversely set up at the side bottom of water storage tank (1) and communicate with it, the one end of connecting pipe (5) is linked together through ring flange (6) and output tube (2), and the other end is linked together with drain pipe (4), its characterized in that: the device is characterized by further comprising a supporting plate (7), a bottom pipe (8), a piston sleeve (9), a piston (10) matched in the piston sleeve (9), an ejector pin (12), a lever (13) and a floating ball (14), wherein the supporting plate (7) is transversely arranged on the flange plate (6), the piston sleeve (9) is arranged on the supporting plate (7), a water inlet hole (16) communicated with the piston sleeve (9) is formed in the bottom of the supporting plate (7), the bottom pipe (8) is fixed at the bottom of the supporting plate (7), one end of the bottom pipe (8) is connected with the connecting pipe (5), the other end of the bottom pipe is half blocked at the bottom of the water inlet hole (16), a water falling hole (15) is formed in the surface of the bottom pipe (8) corresponding to the piston sleeve (9), the piston (10) can cover the water falling hole (15), one end of the lever (13) is hinged to the flange plate (6), and the other end of the lever is connected with the floating ball (14), the floating ball (14) is accommodated in the water storage tank (1), the thimble (12) is movably connected to the middle of the lever (13), a pinhole (11) is formed in the center of the piston (10), and the thimble (12) vertically corresponds to the pinhole (11).

2. The pilot-operated high-flow dual-purpose steam trap of claim 1, characterized in that: the top of the piston sleeve (9) is provided with a guide assembly, and the guide assembly is used for guiding the ejector pin (12) to move vertically.

3. The pilot-operated high-flow dual-purpose steam trap of claim 2, characterized in that: the guide assembly comprises a top cover (17) and a guide sleeve (18), the top cover (17) is detachably connected to the top of the piston sleeve (9), the guide sleeve (18) is vertically arranged on the top of the top cover (17) and is communicated with the inside of the piston sleeve (9), the ejector pins (12) are vertically matched with each other in a sliding mode on the guide sleeve (18), sliding grooves (19) are vertically formed in two sides of the guide sleeve (18), hooks (20) matched with the sliding grooves (19) in a sliding mode are arranged on two sides of the ejector pins (12), and the ejector pins (12) are hung on the levers (13) through the hooks (20).

4. The pilot-operated high-flow dual-purpose steam trap of claim 3, characterized in that: the top of the piston sleeve (9) is provided with a plurality of vent holes (21).

5. The pilot-operated high-flow dual-purpose steam trap of claim 3, characterized in that: a plurality of studs (22) are vertically arranged on the supporting plate (7), and the top cover (17) is sleeved on the studs (22) through guide holes and fixed on the studs (22) through nuts.

6. The pilot-operated high-flow dual-purpose steam trap of claim 1, characterized in that: the bottom pipe (8) is half blocked with the inlet hole (16) and divides the inlet hole (16) into three branch water inlet holes.

7. The pilot-operated high-flow dual-purpose steam trap of claim 1, characterized in that: and a sealing ring is embedded on the outer ring of the piston (10).

8. The pilot-operated high-flow dual-purpose steam trap of claim 1, characterized in that: the flange plate (6) is provided with a drain hole (23), one end of the drain hole (23) is communicated with the bottom pipe (8), and the other end of the drain hole is communicated with the connecting pipe (5).

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