CN110171861B - Steam-water separator - Google Patents

Abstract

The invention relates to a steam-water separator which is formed by sequentially connecting an upper shell (1), a flow distribution net (2), a middle shell (3) and a lower shell (4). The steam-water separator can simultaneously meet the requirements of drinking water devices with different water temperatures and flow rates of (0.2-2) L/min, ensures obvious steam-water separation effect, ensures stable water flow of effluent water, and avoids potential safety hazards caused by splashing of the effluent water.

Description

Steam-water separator

[ field of technology ]

The invention belongs to the technical field of water purifiers. More particularly, the present invention relates to a steam-water separator.

[ background Art ]

With the popularization of household water purifiers, cold and hot water integrated machines are popular, meanwhile, due to different functions, cold and hot water flows are stable, the flow is large, meanwhile, the water outlet form is good, therefore, the requirements on the water outlet are very high, the requirements on normal-temperature high-flow water outlet, the stability of quick-heating low-flow water outlet and the steam-water separation during quick-heating water outlet are met, the clean drink products in the water purification industry can only be separately realized at present, meanwhile, the problems of poor water outlet shape, splashing of water outlet, intermittent water outlet and the like are also accompanied, and therefore, the user experience is poor, and potential safety hazards or material waste exist when hot water is taken. In order to solve the technical problems, the inventor provides a multifunctional integrated steam-water separator which can meet the conditions and save the cost.

[ invention ]

The invention aims to provide a steam-water separator.

The invention is realized by the following technical scheme.

The invention relates to a steam-water separator, which comprises a water inlet 11, wherein the steam-water separator is formed by sequentially connecting an upper shell 1, a split-flow net 2, a middle shell 3 and a lower shell 4;

the upper shell 1 is a barrel structure with one group of opposite side walls being parallel planes and the other group of opposite side walls being semicircular surfaces, and the barrel opening facing downwards; a water inlet 11 is arranged in the middle of one plane, and a water blocking table top 12 is arranged at the upper end of the other parallel plane;

the middle shell 3 is of a disc-shaped structure, two steam guide columns 31 perpendicular to the disc bottom are arranged in parallel in the disc, a water outlet 32 perpendicular to the disc bottom is arranged outside the disc bottom, and the steam guide columns 31 are communicated with the outer circle of the water outlet 32; a fan-shaped diversion groove 34 is arranged in the inner cavity of the water outlet 32, and a fixing piece 35 is arranged at the edge of the tray;

the upper part of the lower shell 4 is in matched connection with the disk of the middle shell 3 to form a steam diversion channel 5, and a steam outlet 41 is vertically arranged at the lower part of the lower shell 4; a diversion net 2 is horizontally arranged between the water inlet 11 and the water outlet 32 and is vertically and tightly matched and fixed with the steam diversion column 31;

the upper shell 1, the middle shell 3 and the lower shell 4 are fixedly connected into a whole.

According to a preferred embodiment of the invention, the water outlet 32 is coaxial with the steam outlet 41.

According to another preferred embodiment of the present invention, the upper case 1, the middle case 3 and the lower case 4 are connected by welding, bonding or screws.

According to another preferred embodiment of the present invention, the upper mouth end of the steam guiding column 31 is higher than the water level of the water blocking table top 12 and higher than the upper mouth end of the water inlet 11.

According to another preferred embodiment of the present invention, the distribution network 2 is a network of uniformly distributed small holes and two large holes through which the steam guide posts 31 pass.

According to another preferred embodiment of the invention, a fan-shaped diversion channel 34 is arranged in the water outlet 32, and a water outlet small hole 33 is formed at the top end of each fan-shaped diversion channel in a tangent manner.

The present invention will be described in more detail below.

The steam-water separator of the invention is characterized in that the water-water separator is characterized in that the water inlet 11 is used for allowing the water and the hot water to enter the shell of the steam-water separator, the water is blocked by the water blocking table top 12 and flows downwards, the water and the steam are separated through the water dividing net 2, and the water flows out along the meshes to the water outlet 32 at the lower end; the steam moves upwards, enters the steam guide column 31, flows out of the steam outlet 41 along the steam guide channel 5, and the specific process is shown in fig. 15-16.

The invention relates to a steam-water separator, which comprises a water inlet 11, and is formed by sequentially connecting an upper shell 1, a split-flow net 2, a middle shell 3 and a lower shell 4. The specific structure of the steam-water separator is shown in figures 1-2.

The respective portions will be described in detail below.

The specific structure of the upper case 1 is shown in fig. 3 to 4. The upper shell 1 is a barrel structure with one group of opposite side walls being parallel planes and the other group of opposite side walls being semicircular surfaces, and the barrel opening facing downwards; a water inlet 11 is provided in the middle of one of the planes, and a water blocking table 12 is provided at the upper end of the other parallel plane.

In order to prevent the hot water entering the steam-water separator of the present invention from flowing out of the steam guide column 31, a water blocking table top 12 is designed on a plane opposite to the water inlet of the steam-water separator, and the upper opening end of the steam guide column 31 is higher than the horizontal plane of the water blocking table top 12 and is higher than the upper opening end of the water inlet 11. The water blocking table 12 is provided to prevent hot water from being impacted to a plane opposite to the water inlet 11 when the inflow rate of the hot water is too rapid, so that the hot water is caused to flow to the steam guide column 31 along the inner side of the upper casing, thereby preventing the smooth discharge of steam, and referring to fig. 12-14.

The specific structure of the middle housing 3 is shown in fig. 7-8. The middle shell 3 is of a disc-shaped structure, two steam guide columns 31 perpendicular to the disc bottom are arranged in parallel in the disc, a water outlet 32 perpendicular to the disc bottom is arranged outside the disc bottom, and the steam guide columns 31 are communicated with the outer circle of the water outlet 32; a fan-shaped diversion channel 34 is arranged in the inner cavity of the water outlet 32, and a fixing piece 35 is arranged at the edge of the tray.

The specific structure of the lower housing 4 is shown in fig. 9. The upper part of the lower shell 4 is in matched connection with the disk of the middle shell 3 to form a steam diversion channel 5, and a steam outlet 41 is vertically arranged at the lower part of the lower shell 4; a diversion net 2 is horizontally arranged between the water inlet 11 and the water outlet 32 and is vertically and tightly matched and fixed with the steam diversion column 31.

The flow dividing net 2 is a net with uniformly arranged small holes and two large holes for the steam guide columns 31 to pass through. The specific structure of the shunt network 2 is shown in fig. 5-6.

In order to enable water to be uniformly distributed in the upper shell 1 and ensure steam and water separation in hot water, a diversion net 2 is arranged between the water inlet 11 and the water outlet 32, is horizontally arranged, and is vertically and tightly matched and fixed with the steam diversion column 31, and particularly, the water diversion net is shown in fig. 10.

The current household instant heating water purifying and drinking machine has low flow rate of hot water which is controlled to be (350-450) ml/min due to the limitation of national standard power; meanwhile, the water outlet structure of the water purifying and drinking machine adopts a crosspiece blocking method to realize the steam and water separation in hot water, namely a transverse baffle plate is arranged right in front of a water inlet in the steam-water separator, and when the hot water enters the steam-water separator, the hot water can impact the opposite baffle plate to disperse the hot water, so that the water vapor and the water are separated. The existing structural design must lengthen the length of the steam-water separator, thereby increasing the space volume during structural installation and layout and increasing the material consumption, and simultaneously, the cavity volume is enlarged due to the transverse structural design, thereby increasing the storage capacity of water, leading to the fact that the water outlet can not stop water immediately after water is taken out, and affecting the user experience. In addition, if the water outlet flow rate which meets the national standard of the water purifying and drinking machine is more than or equal to 800ml/min, the existing fixed through hole steam-water separator cannot be used for simultaneously supplying the stable and safe hot water and the stable and safe warm water on one water purifying and drinking machine. Of course, the diameter of the through hole can be increased to realize the stable and safe water outlet of normal temperature water, but the potential safety hazard of skew, rotation and splashing of the small-flow hot water outlet of the rapid heating system is brought. At present, the mode of reducing the water yield of the normal-temperature water is adopted to realize the simultaneous supply of hot water and normal-temperature water, namely, the water flow rate of the normal-temperature water is reduced from 800ml/min which is the lowest standard of the national standard to (350-450) ml/min, so that the user experience is sacrificed and the national standard of the clean drinking machine cannot be reached.

According to the steam-water separator, the steam-water separation is realized by adopting a mesh downflow mode by utilizing the longitudinal space structure layout, the size of the structure during installation layout is reduced, meanwhile, due to the design of the longitudinal water outlet structure, water cannot stay in the cavity, and the problem that a water outlet cannot stop water immediately after the water is taken out by the conventional steam-water separator is effectively avoided. In order to meet the requirements of keeping stable water flow and solving the problem of safe use after the high-flow and the low-flow of the hot water pass through the same channel, the fan-shaped diversion grooves 34 are arranged in the water outlet 32, and the water outlet small holes 33 are formed tangentially at the top end of each fan-shaped groove, so that the water outlet can be ensured to be very stable under various flows. When the hot water flows through the position with small flow, the through holes are large, the flow speed is reduced, and the resistance is generated by the surrounding fan-shaped structure, so that a water film is formed at the upper part of the fan-shaped body, and the water is converged into the central water outlet small hole 33 to flow out due to the water film formed at the upper part of the fan-shaped channel, so that the water outlet stability is ensured, and the use safety problem caused by unstable splashing is avoided; when the water flows into the channel at normal temperature and at a large flow rate, the central water outlet aperture 33 cannot meet the requirement of the large flow rate due to the large flow rate, so that water can be discharged from the fan-shaped diversion channel 34 and the central water outlet aperture 33 at the same time, thereby ensuring the uniform distribution of the water flow and the stability of the discharged water, and referring to fig. 13. The steam-water separator can effectively separate water vapor from hot water by utilizing the longitudinal space structure layout, reduces the waste of materials, saves the production cost, solves the problem of water cut-off lag, and simultaneously avoids potential safety hazards caused by water discharge in the use process.

When the upper part of the lower shell 4 is matched and connected with the disk of the middle shell 3, a steam diversion channel 5 is formed, the steam diversion column 31 is communicated with the steam outlet 41 through the steam diversion channel 5 to form a passage, so that separated steam flows out, and the steam diversion channel is shown in fig. 14.

According to the invention, the water outlet 32 is coaxial with the steam outlet 41, see fig. 13 for a specific construction. The steam outlet 41 is used for discharging steam, and the steam outlet 41 can be used as a water channel when the normal temperature water outlet flow is particularly large and the water outlet 32 cannot meet the normal temperature water outlet flow. When the flow rate of the water discharged at normal temperature is extremely high, the water can directly enter the steam guide channel 5 through the steam guide column 31 and simultaneously flow out of the steam outlet 41 and the water outlet 32, so that the requirement of the water discharged at normal temperature and extremely high flow rate is met, and the stability of the water flow of the water discharged is ensured because the steam outlet 41 and the water outlet 32 are coaxial.

The upper shell 1, the middle shell 3 and the lower shell 4 are fixedly connected into a whole. According to the present invention, the upper case 1, the middle case 3 and the lower case 4 are connected by welding, bonding or screws. The upper shell 1, the middle shell 3 and the lower shell 4 are fixedly connected, see fig. 11.

In the present invention, the welding is understood to be carried out by means of ultrasonic welding, see in particular the document "principle of ultrasonic welding".

The bonding is understood to be bonding with AB glue, ABS glue or other glue, see in particular the literature "principles of Plastic bonding".

The materials used by each component of the steam-water separator of the invention can meet the current drinking water requirement and structural requirement, and the invention is particularly referred to the sanitary safety evaluation Specification of domestic drinking water delivery and distribution equipment and protective materials.

[ advantageous effects ]

The beneficial effects of the invention are as follows: the water outlet flow of the water purifying machine using the steam-water separator as the water outlet can meet the technical requirements specified by the national standard, meanwhile, the water purifying machine can meet different water temperatures and can be used in a drinking water device with the flow of (0.2-2) L/min, the obvious steam-water separation effect is ensured, the water outlet flow is stable, and the potential safety hazard caused by water outlet splashing is avoided. The steam-water separator provided by the invention has the advantages that the longitudinal space structural layout design is utilized, so that the steam and the hot water can be effectively separated, the waste of materials is avoided, the production cost is reduced, and the user experience is improved.

[ description of the drawings ]

FIG. 1 is a block diagram of a steam-water separator of the present invention;

FIG. 2 is a longitudinal cross-sectional view of the steam-water separator of the present invention;

fig. 3 is a structural view of the upper case 1;

fig. 4 is a structural view of the upper case 1;

fig. 5 is a block diagram of the shunt network 2;

fig. 6 is a block diagram of the shunt network 2;

fig. 7 is a top view of the middle housing 3;

fig. 8 is a structural view of the middle housing 3;

fig. 9 is a structural view of the lower case 4;

fig. 10 is a configuration diagram of the diversion net 2, the water outlet 32 and the steam diversion column 31;

FIG. 11 is a diagram showing the connection relationship between the upper case 1, the middle case 3 and the lower case 4;

FIG. 12 is a block diagram of the water blocking counter top 12;

fig. 13 is a top view of the fan-shaped splitter box 34;

fig. 14 is a schematic structural view of the steam diversion channel 5;

FIG. 15 is a schematic side view of the water and steam flow of the steam-water separator of the present invention;

FIG. 16 is a schematic view of the water and steam flow front of the steam-water separator of the present invention;

in the figure:

1-upper shell, 11-water inlet, 12-water-blocking table top, 2-diversion net, 3-middle shell, 31-steam diversion column, 32-water outlet, 33-water outlet small hole, 34-fan diversion groove, 35-fixing piece, 4-lower shell, 41-steam outlet and 5-steam diversion channel.

[ detailed description ] of the invention

The technical solution of the present invention is explained without limitation by the following examples.

Example 1: the steam-water separator of the invention

The implementation of this example is as follows:

the steam-water separator comprises a water inlet 11, and is formed by sequentially connecting an upper shell 1, a flow dividing net 2, a middle shell 3 and a lower shell 4;

the upper shell 1 is a barrel structure with one group of opposite side walls being parallel planes and the other group of opposite side walls being semicircular surfaces, and the barrel opening facing downwards; a water inlet 11 is arranged in the middle of one plane, and a water blocking table top 12 is arranged at the upper end of the other parallel plane;

the middle shell 3 is of a disc-shaped structure, two steam guide columns 31 perpendicular to the disc bottom are arranged in parallel in the disc, a water outlet 32 perpendicular to the disc bottom is arranged outside the disc bottom, and the steam guide columns 31 are communicated with the outer circle of the water outlet 32; a fan-shaped diversion groove 34 is arranged in the inner cavity of the water outlet 32, and a fixing piece 35 is arranged at the edge of the tray; the upper mouth end of the steam guide column 31 is higher than the horizontal plane of the water blocking table top 12 and is higher than the upper mouth end of the water inlet 11.

The upper part of the lower shell 4 is in matched connection with the disk of the middle shell 3 to form a steam diversion channel 5, and a steam outlet 41 is vertically arranged at the lower part of the lower shell 4; a diversion net 2 is horizontally arranged between the water inlet 11 and the water outlet 32, and the diversion net 2 is a net with uniformly arranged small holes and two large holes for the steam diversion column 31 to pass through. The water outlet 32 is coaxial with the steam outlet 41 and is vertically and tightly matched and fixed with the steam guide column 31; the inside of the water outlet 32 is provided with a fan-shaped diversion groove 34, and a water outlet small hole 33 is formed at the top end of each fan-shaped diversion groove in a tangent way.

The upper shell 1, the middle shell 3 and the lower shell 4 are connected by adopting ultrasonic waves in a welding mode.

Example 2: the steam-water separator of the invention

The embodiment of this example is the same as that of example 1 except that the upper case 1, the middle case 3 and the lower case 4 are bonded using AB glue or ABs glue or other glue.

Claims (6)

1. The steam-water separator comprises a water inlet (11) and is characterized in that the steam-water separator is formed by sequentially connecting an upper shell (1), a split-flow net (2), a middle shell (3) and a lower shell (4);

the upper shell (1) is a barrel structure with one group of opposite side walls being parallel planes and the other group of opposite side walls being semicircular surfaces, and the barrel opening is downward; a water inlet (11) is arranged in the middle of one plane, and a water blocking table top (12) is arranged at the upper end of the other parallel plane;

the middle shell (3) is provided with a disc-shaped structure, two steam guide columns (31) perpendicular to the disc bottom are arranged in parallel in the disc, a water outlet (32) perpendicular to the disc bottom is arranged outside the disc bottom, and the steam guide columns (31) are communicated with the outer circle of the water outlet (32); a fan-shaped diversion groove (34) is arranged in the inner cavity of the water outlet (32), and a fixing piece (35) is arranged at the edge of the disk;

the upper part of the lower shell (4) is connected with the disk of the middle shell (3) in a matching way to form a steam diversion channel (5), and a steam outlet (41) is vertically arranged at the lower part of the lower shell (4); a diversion net (2) is horizontally arranged between the water inlet (11) and the water outlet (32) and is vertically and tightly matched and fixed with the steam diversion column (31);

the upper shell (1), the middle shell (3) and the lower shell (4) are fixedly connected into a whole.

2. The steam-water separator according to claim 1, characterized in that the water outlet (32) is coaxial with the steam outlet (41).

3. The steam-water separator according to claim 1, characterized in that the upper housing (1), the middle housing (3) and the lower housing (4) are welded, glued or screwed.

4. The steam-water separator according to claim 1, characterized in that the upper mouth end of the steam guiding column (31) is higher than the water level of the water-blocking table top (12) and higher than the upper mouth end of the water inlet (11).

5. The steam-water separator according to claim 1, characterized in that the flow dividing net (2) is a net of uniformly arranged small holes and two large holes for passing the steam guide column (31).

6. The steam-water separator according to claim 5, characterized in that a fan-shaped diversion groove (34) is arranged in the water outlet (32), and a water outlet small hole (33) is formed at the top end of each fan-shaped diversion groove in a tangent manner.