CN206802741U - Save automatic water trap and drainage system - Google Patents

Abstract

The utility model provides a kind of energy-conservation automatic water trap, is related to the technical field of drainage equipment, including water inlet, float, starting switch, air ducting system, channel system and sealing block；The water inlet is arranged on one end of fluid reservoir, and the float is arranged in fluid reservoir, one end connection starting switch of the float；The air ducting system and channel system are arranged on the other end of fluid reservoir, and the starting switch is connected with the air ducting system, and the air ducting system is connected by sealing block with channel system.Solve in the prior art, the technical problem of the water trap structure consumption energy.The utility model sets air ducting system and channel system on fluid reservoir, is combined with float, saves the energy.The utility model also provides a kind of drainage system, including pipeline and multiple described energy-conservation automatic water traps；Connected between multiple energy-conservation automatic water traps by pipeline.Solve the problems, such as that drainage system drainage efficiency is low.The effect for improving drainage efficiency is reached.

Description

Save automatic water trap and drainage system

Technical field

The technical field of drainage equipment is the utility model is related to, more particularly, to one kind energy-conservation automatic water trap and draining system System.

Background technology

In fields such as combustion gas, chemical industry, lower, oil water separator, gas tank and various filter bottoms in pipeline are led to Condensed water can be often populated with, if these condensed waters are forgotten by artificial drainage, it will cause condensed water recontamination, especially exist The positions such as eminence, lower or stenosis, these places are not easy to install artificial excretion machine, can more assemble substantial amounts of condensed water, Once cause to condense water pollution, it is necessary to which expending substantial amounts of manpower, fund and equipment could be cleared up, therefore, in upper rheme Condensed water drainer can be installed by putting, and so as to which condensed water elimination is gone out in time, avoided condensed water accumulation from polluting, not only done It is net clean and tidy, it also avoid the phenomenon for condensation water pollution occur.

At present, condensed water drainer used in most of factory mainly has float type drainer and timing electronic type draining Device.The attachment structure of float type drainer is simple, and use is light, and use range is extensive, but between float mechanical part easily Card, easily causes the phenomenon that condensed water can not arranged, so as to cause the recontamination of condensed water, and the slag such as particulate matter once blocking Dregs blocks mechanical part, can also cause condensed water can not arrange, and for a long time using discharge outlet can be caused poorly sealed, causes compression empty Gas is revealed, so as to cause energy loss.The shortcomings that float type drainer can be overcome using electronic type water trap, it is a kind of timing Forced drainage device, after energization, can quickly strong draining, drainage effect is good, and still, electronic type water trap needs to expend Substantial amounts of electric energy, therefore power consumption is big, and drainage channel is smaller, the diameter of drainage channel is generally in 1.5mm or so, easily Drainage channel is blocked, the electronic timer and coil for carrying out timing are easily wound, so as to cause the performance of whole water trap unstable It is fixed.

Utility model content

The purpose of this utility model is to provide a kind of energy-conservation automatic water trap, to solve present in prior art, floated The mechanical part of minor water trap easily blocks, the big technical problem of electronic type water trap energy consumption.

The utility model also provides a kind of drainage system, and to solve present in prior art, drainage system is easily blocked, The low technical problem of drainage efficiency.

A kind of energy-conservation automatic water trap provided by the utility model, including water inlet, float, starting switch, air flue system System, channel system and sealing block；

The water inlet is arranged on one end of fluid reservoir, and the float is arranged in fluid reservoir, and the one of the float End connection starting switch；The air ducting system and channel system are arranged on the other end of fluid reservoir, the starting switch with it is described Air ducting system is connected, and the air ducting system is connected by sealing block with channel system.

Further, the air ducting system includes the first air flue, the second air flue and the 3rd air flue；

One end of first air flue is connected with by sealing block with the channel system, first air flue it is another End is connected by the starting switch with one end of the 3rd air flue；Second air flue is parallel with first air flue to be set Put, one end of second air flue is connected by sealing block with the channel system, and the other end of second air flue passes through The starting switch is connected with one end of the 3rd air flue；One end of 3rd air flue in fluid reservoir with being connected, institute The other end for stating the 3rd air flue is connected with the starting switch.

Further, the channel system includes the first water channel and the second water channel；

One end of first water channel with being connected inside fluid reservoir, the other end of first water channel by sealing block with First air flue and the second air flue are connected；One end of second water channel is connected with the outside of fluid reservoir, and described second The other end of water channel is connected by sealing block with first water channel.

Further, the float is connected with driving member；

One end of the driving member is connected with the float, and the other end of the driving member connects with the starting switch Connect.

Further, the heating gate for installing heater is additionally provided with the fluid reservoir.

Further, the water inlet is multiple that multiple water inlets are separately positioned on fluid reservoir.

Further, the sealing block is sealing piston.

Further, the heater is multiple that multiple heaters are sequentially arranged in the fluid reservoir.

Further, the heating gate is multiple that multiple heating gates are separately positioned on fluid reservoir.

The utility model also provides a kind of drainage system, including pipeline and described energy-conservation automatic water trap；

Connected between multiple energy-conservation automatic water traps by pipeline.

Energy-conservation automatic water trap provided by the utility model, the fluid reservoir are provided with water inlet, and the water inlet is used for The entrance of condensed water, the fluid reservoir is interior to be provided with float, and when entering water in the fluid reservoir, the starting switch closes air flue System, the sealing block closes channel system, so that the water inlet can smoothly intake；Condensed water in the fluid reservoir Accumulation to it is a certain amount of when, the float can drive starting switch open air ducting system, air ducting system is beaten by sealing block Channell system, so as to be discharged to the condensed water in fluid reservoir.The utility model uses and float is set in fluid reservoir Mode, using float buoyancy pass through starting switch and sealing block, open air ducting system, so as to open water channel system System, makes the condensed water in fluid reservoir discharge in time, the attachment structure in fluid reservoir is simple, has saved electric energy, and drainage effect is good.

The utility model also provides a kind of drainage system, is connected, is formed using pipeline between multiple automatic water traps One drainage system, makes that the emission effect of whole drainage system is good, and discharge capacity is big, and using the side of float in fluid reservoir Formula, electric energy is saved.

Brief description of the drawings

, below will be right in order to illustrate more clearly of the utility model embodiment or technical scheme of the prior art The required accompanying drawing used is briefly described in embodiment or description of the prior art, it should be apparent that, describe below In accompanying drawing be some embodiments of the present utility model, for those of ordinary skill in the art, do not paying creativeness On the premise of work, other accompanying drawings can also be obtained according to these accompanying drawings.

Fig. 1 is the front view that the utility model embodiment provides；

Fig. 2 is the front sectional view that the utility model embodiment provides；

Fig. 3 is the left view that the utility model embodiment provides；

Fig. 4 is the right view that the utility model embodiment provides；

Fig. 5 is the top view that the utility model embodiment provides；

Fig. 6 is the upward view that the utility model embodiment provides；

Fig. 7 is the rearview that the utility model embodiment provides.

Icon：11- water inlets；12- float；13- starting switches；14- air ducting systems；15- channel systems； 16- sealing blocks；17- heating gates；121- driving members；The air flues of 141- first；The air flues of 142- second；The air flues of 143- the 3rd； The water channels of 151- first；The water channels of 152- second.

Embodiment

The technical solution of the utility model is clearly and completely described below in conjunction with accompanying drawing, it is clear that described Embodiment is the utility model part of the embodiment, rather than whole embodiments.Based on the embodiment in the utility model, sheet The every other embodiment that field those of ordinary skill is obtained under the premise of creative work is not made, belongs to this practicality Novel protected scope.

, it is necessary to explanation in description of the present utility model, term " " center ", " on ", " under ", it is "left", "right", " perpendicular Directly ", the orientation of the instruction such as " level ", " interior ", " outer " or position relationship are based on orientation shown in the drawings or position relationship, are only Described for the ease of description the utility model and simplifying, rather than instruction or imply signified device or element must have it is specific Orientation, with specific azimuth configuration and operation, therefore it is not intended that to limitation of the present utility model.In addition, term " the One ", " second ", " the 3rd " are only used for describing purpose, and it is not intended that instruction or hint relative importance.

, it is necessary to which explanation, unless otherwise clearly defined and limited, term " are pacified in description of the present utility model Dress ", " connected ", " connection " should be interpreted broadly, for example, it may be fixedly connected or be detachably connected, or integratedly Connection；Can be mechanical connection or electrical connection；Can be joined directly together, can also be indirectly connected by intermediary, It can be the connection of two element internals.For the ordinary skill in the art, above-mentioned art can be understood with concrete condition Concrete meaning of the language in the utility model.

Fig. 1 is the front view that the utility model embodiment provides；Fig. 2 is the main view section view that the utility model embodiment provides Figure；Fig. 3 is the left view that the utility model embodiment provides；Fig. 4 is the right view that the utility model embodiment provides；Fig. 5 is The top view that the utility model embodiment provides；Fig. 6 is the upward view that the utility model embodiment provides；Fig. 7 is that this practicality is new The rearview that type embodiment provides.

As shown in Fig. 1~7, a kind of energy-conservation automatic water trap provided by the utility model, including water inlet 11, float 12nd, starting switch 13, air ducting system 14, channel system 15 and sealing block 16；

The water inlet 11 is arranged on one end of fluid reservoir, and the float 12 is arranged in fluid reservoir, the float 12 one end connection starting switch 13；The air ducting system 14 and channel system 15 are arranged on the other end of fluid reservoir, described to open Dynamic switch 13 is connected with the air ducting system 14, and the air ducting system 14 is connected by sealing block 16 with channel system 15.

As shown in figure 1, the water inlet 11 is arranged on the right upper portion position of fluid reservoir, can also be arranged as required to Other positions, such as it is arranged on the upper end surface of fluid reservoir；The float 12 is described floating using the bigger ball float of diameter The diameter of ball be less than the fluid reservoir internal diameter so that the ball float can in the fluid reservoir with the addition of condensed water and Constantly fluctuate, the float 12 can also use other structures that can be swum on the water surface, such as square Float etc., the left end connection starting switch 13 of the ball float, the starting switch 13 is air valve switch, so that the ball float exists When being fluctuated in fluid reservoir with the addition of condensed water, the ball float can drive the air valve switch to be turned on or off gas Road system 14；The air ducting system 14 and the channel system 15 are separately positioned on the left end of the fluid reservoir, and the air valve is opened Pass be connected with the air ducting system 14 so that the air valve switch can be opened in the presence of ball float air ducting system 14 or Air ducting system 14 is closed, sealing block 16 is connected between the air ducting system 14 and the channel system 15, the sealing block 16 is Sealing piston, the sealing piston can drive sealing piston to open channel system 15 or close under the driving of air ducting system 14 Channel system 15 is closed, so that the condensed water in fluid reservoir is outwards discharged by channel system 15.

Further, the air ducting system 14 includes the first air flue 141, the second air flue 142 and the 3rd air flue 143；

One end of first air flue 141 with by sealing block 16 and the channel system 15, first air flue 141 The other end is connected by the starting switch 13 with one end of the 3rd air flue 143；Second air flue 142 and described the One air flue 141 is be arranged in parallel, and one end of second air flue 142 is connected by sealing block 16 with the channel system 15, institute The other end for stating the second air flue 142 is connected by the starting switch 13 with one end of the 3rd air flue 143；Described 3rd With being connected in fluid reservoir, the other end of the 3rd air flue 143 is connected with the starting switch 13 for one end of air flue 143.

The left end of first air flue 141 is connected with the sealing block 16 in fluid reservoir, the right-hand member of first air flue 141 It is flexibly connected with starting switch 13, the starting switch 13 is sealed the right side of the first air flue 141 under the drive of the ball float End, or the right-hand member of first air flue 141 is opened, and the ball float is sealing the same of the right-hand member of first air flue 141 When, the lower end of the 3rd air flue 143 can be opened, the ball float can seal while the right-hand member of first air flue 141 is opened State the lower end of the 3rd air flue 143 in residence；Second air flue 142 be arranged in parallel with first air flue 141, second air flue 142 left end is flexibly connected with the sealing block 16, during so that the sealing block 16 moving upwards, second air flue 142 with The channel system 15 is connected, when the sealing block 16 moves downward, second air flue 142 and the phase of channel system 15 Isolation, the right-hand member of second air flue 142 are flexibly connected with starting switch 13, make the starting switch 13 in the band of the ball float The right-hand member of second air flue 142 is blocked under dynamic, or opens the right-hand member of second air flue 142；3rd air flue 143 Including horizontally disposed horizontal air flue and the vertical air flue being vertically arranged, the left end of the horizontal air flue and the vertical air flue Upper end is connected, and the right-hand member of the horizontal air flue inside fluid reservoir with being connected, the lower end of the vertical air flue and the startup Switch 13 is flexibly connected, and the starting switch 13 is sealed the lower end that the 3rd air flue 143 is stated in residence under the drive of the ball float, Or open the lower end of the 3rd air flue 143.

Further, the channel system 15 includes the first water channel 151 and the second water channel 152；

With being connected inside fluid reservoir, the other end of first water channel 151 passes through close for one end of first water channel 151 Envelope block 16 is connected with the air flue 142 of the first air flue 141 and second；One end of second water channel 152 and fluid reservoir it is outer Portion is connected, and the other end of second water channel 152 is connected by sealing block 16 with first water channel 151.

First water channel 151 includes horizontally disposed horizontal penstock and the vertical water channel being vertically arranged, the horizontal water The right-hand member in road is connected with the fluid reservoir, and the left end of the horizontal penstock is connected with the lower end of the vertical water channel, described The upper end of vertical water channel is flexibly connected with the sealing block 16, during so that the sealing block 16 moving downward, is sealed residence and is stated the One water channel 151, when the sealing block 16 moves upwards, open first water channel 151, at this moment, first water channel 151 and institute The left end for stating the first air flue 141 is connected with the left end of second air flue 142；The right-hand member of second water channel 152 with it is described Sealing block 16 is flexibly connected, and when the sealing block 16 is moved upwards, can make the right-hand member of second water channel 152 and described the The upper end of one water channel 151 is connected, and the left end of second water channel 152 is connected with the fluid reservoir left end, makes described second The left end of water channel 152 is communicated with the outside, so as to which the water in second water channel 152 be emitted.

Further, the float 12 is connected with driving member 121；

One end of the driving member 121 is connected with the float 12, the other end and the startup of the driving member 121 The connection of switch 13.

The driving member 121 can use the structure of kinematic link, the left end of the kinematic link and the air valve switch Connection, the right-hand member of the kinematic link are connected with the ball float, so that the buoyancy of condensed water of the ball float in fluid reservoir is made Under, drive the right-hand member of the kinematic link to rotate, the air valve switch of the kinematic link left end connection is opened or is closed.

Further, the heating gate 17 for installing heater is additionally provided with the fluid reservoir.

In view of some local temperature than relatively low, such as the northern winter of China is colder, and condensed water easily occurs The phenomenon of icing, therefore, heating gate 17 is provided with the lower position of the water inlet 11, heating is installed at the heating gate 17 Device, so that the condensed water in the fluid reservoir is not in the phenomenon of icing, keep normal operation in fluid reservoir.

Further, the water inlet 11 is multiple that multiple water inlets 11 are separately positioned on fluid reservoir.

The water inlet 11 could be arranged to multiple, and multiple water inlets 11 can be separately positioned on the side of fluid reservoir Or tip position, so that the condensed water of the fluid reservoir can enter from multiple directions, convenient water inlet.

Further, the sealing block 16 is sealing piston.

The fluid reservoir is provided with square groove, and the sealing piston does the reciprocating motion of vertical direction in square groove, and The right side of the sealing piston is connected with first air flue 141 and second air flue 142, the lower end of the sealing piston It is connected with first water channel 151, the left side of the sealing piston is connected with second water channel 152, makes the sealing Piston is carried out to the connection between first air flue 141, the second air flue 142, the first water channel 151 and the second water channel 152 simultaneously Control.

Further, the heater is multiple that multiple heaters are sequentially arranged in the fluid reservoir.

The heater could be arranged to multiple, and multiple heaters are separately mounted to subordinate in the fluid reservoir The position at end, the position of the fluid reservoir inner side can also be arranged on, is easy to enable the heater in fluid reservoir Multiple directions heated.

Further, the heating gate 17 is multiple that multiple heating gates 17 are separately positioned on fluid reservoir.

For the heating gate 17 it can also be provided that multiple, multiple heating gates 17 are separately positioned on the fluid reservoir not Same position, to be heated to the condensed water of diverse location, prevent the phenomenon of icing.

In one embodiment of the present utility model, a water inlet 11 is opened, other water inlets 11 are sealed with plug Firmly, condensed water and compressed air are discharged into fluid reservoir from water inlet 11, air valve switch the second air flue 142 of closing, described first Air flue 141 is connected with the 3rd air flue 143, described in the compressed air in fluid reservoir along the 3rd air flue 143 entrance First air flue 141, make first air flue 141 promote sealing piston to move downward, close the first water channel 151；When in fluid reservoir Condensed water accumulation to it is a certain amount of when, the ball float drives the kinematic link, opens air valve under the buoyancy of condensed water Pass is moved rearwards, and the right-hand member of second air flue 142 is opened, and the 3rd air flue 143 is closed, first air flue 141 and institute State the second air flue 142 to be connected, the compressed air in first air flue 141 is discharged into described by second air flue 142 Two water channels 152, the pressure for making hydraulic pressure in first water channel 151 be higher than in first water channel 151, the sealing piston to Upper motion, first water channel 151 are connected with second water channel 152, the condensed water in fluid reservoir is passed through described first Water channel 151 enters second water channel 152, discharges；During condensed water outwards discharges, due in the fluid reservoir Condensed water gradually tail off, the ball float in the fluid reservoir as condensed water is gradually reduced, when the ball float is with described When condensed water in fluid reservoir drops to certain position, the air valve switch is moved to the left, and closes second air flue 142, The 3rd air flue 143 is opened, is allowed compressed air into first air flue 141, promotes sealing piston to close described first Water channel 151, now, start gradual accumulation condensed water again in the fluid reservoir.Because ball float has certain down position, in institute State and retain a small amount of condensed water in fluid reservoir, to prevent compressed air from discharging, the technology not being vented with reaching a draining is imitated Fruit, the purpose for saving the energy is finally realized, the diameter dimension of the drainage pipeline can be 6mm, and discharge capacity is big.

A kind of energy-conservation automatic water trap provided by the utility model, the water inlet are used to make condensed water enter fluid reservoir It is interior, ball float is provided with the fluid reservoir, air valve switch is controlled, and accumulation is to a certain amount of condensed water in the fluid reservoir Afterwards, the condensed water drives the ball float motion, when the ball float moves, the air valve switch can be driven to open air flue system System, the air ducting system are connected by sealing piston with the channel system, to be carried out to the condensed water in the fluid reservoir Discharge.The utility model sets air ducting system and channel system on fluid reservoir, and attachment structure is simple, is made using the buoyancy of ball float With, open or close air valve switch, air ducting system is connected with channel system, make condensed water suitable along the channel system Profit discharge, emission effect is good, and without using electric energy, has saved the energy.

The utility model also provides a kind of drainage system, including pipeline and multiple described energy-conservation automatic water traps；

Connected between multiple energy-conservation automatic water traps by pipeline.

A kind of drainage system provided by the utility model, it is multiple it is described energy-conservation automatic water traps between pass sequentially through pipeline Water inlet is connected with delivery port, is carried out simultaneously with the condensed water to multiple positions, and emission effect is good.

Finally it should be noted that：Various embodiments above is only to illustrate the technical solution of the utility model, rather than it is limited System；Although the utility model is described in detail with reference to foregoing embodiments, one of ordinary skill in the art should Understand：It can still modify to the technical scheme described in foregoing embodiments, either to which part or whole Technical characteristic carries out equivalent substitution；And these modifications or replacement, the essence of appropriate technical solution is departed from this practicality newly The scope of each embodiment technical scheme of type.

Claims (10)

1. one kind energy-conservation automatic water trap, it is characterised in that including water inlet (11), float (12), starting switch (13), gas Road system (14), channel system (15) and sealing block (16)；

The water inlet (11) is arranged on one end of fluid reservoir, and the float (12) is arranged in fluid reservoir, the float (12) one end connection starting switch (13)；The air ducting system (14) and channel system (15) are arranged on the another of fluid reservoir End, the starting switch (13) are connected with the air ducting system (14), and the air ducting system (14) passes through sealing block (16) and water Road system (15) connects.

2. energy-conservation automatic water trap according to claim 1, it is characterised in that the air ducting system (14) includes the first gas Road (141), the second air flue (142) and the 3rd air flue (143)；

One end of first air flue (141) is connected with by sealing block (16) with the channel system (15), and described first The other end of air flue (141) is connected by the starting switch (13) with one end of the 3rd air flue (143)；Described second Air flue (142) be arranged in parallel with first air flue (141), one end of second air flue (142) by sealing block (16) with The channel system (15) is connected, and the other end of second air flue (142) passes through the starting switch (13) and described the One end of three air flues (143) is connected；One end of 3rd air flue (143) in fluid reservoir with being connected, the 3rd air flue (143) the other end is connected with the starting switch (13).

3. energy-conservation automatic water trap according to claim 2, it is characterised in that the channel system (15) includes the first water Road (151) and the second water channel (152)；

With being connected inside fluid reservoir, the other end of first water channel (151) passes through close for one end of first water channel (151) Envelope block (16) is connected with first air flue (141) and the second air flue (142)；One end of second water channel (152) and storage The outside of flow container is connected, and the other end of second water channel (152) passes through sealing block (16) and the first water channel (151) phase Connection.

4. energy-conservation automatic water trap according to claim 1, it is characterised in that the float (12) is connected with driving member (121)；

One end of the driving member (121) is connected with the float (12), and the other end of the driving member (121) opens with described Dynamic switch (13) connection.

5. energy-conservation automatic water trap according to claim 1, it is characterised in that be additionally provided with the fluid reservoir for installing The heating gate (17) of heater.

6. energy-conservation automatic water trap according to claim 1, it is characterised in that the water inlet (11) is multiple to be multiple The water inlet (11) is separately positioned on fluid reservoir.

7. energy-conservation automatic water trap according to claim 1, it is characterised in that the sealing block (16) is sealing piston.

8. energy-conservation automatic water trap according to claim 5, it is characterised in that the heater is multiple described to be multiple Heater is sequentially arranged in the fluid reservoir.

9. energy-conservation automatic water trap according to claim 5, it is characterised in that the heating gate (17) is multiple to be multiple The heating gate (17) is separately positioned on fluid reservoir.

10. a kind of drainage system, it is characterised in that including pipeline and multiple energy-conservations as claimed in any one of claims 1-9 wherein Automatic water trap；

Connected between multiple energy-conservation automatic water traps by pipeline.