CN104609505B - For the brine tank Anti-hardening device of water softening device and include the water softening device of this device - Google Patents

Abstract

The invention discloses a kind of brine tank Anti-hardening device for water softening device and include the water softening device of this device, this device includes at least one contact plate, some water stream channels and the surface that every water stream channel has at least a water inlet to be arranged at described contact plate it is provided with between upper surface and the lower surface of contact plate; The upper surface of contact plate is provided with some capillary channel, and the bottom surface of capillary channel connects with described water stream channel; The lower surface of contact plate is provided with several apopores, and each apopore connects with one of described water stream channel. By a kind of brine tank Anti-hardening device for water softening device provided by the invention, it is possible to reduce after brine tank in use meets water because of salt not sufficiently dissolved, thus causing the phenomenon that hardens; Meanwhile, it is capable to effectively accelerate the dissolution velocity of salt, and the saline rate of outflow after dissolving, a kind of brine tank Anti-hardening device for water softening device of the offer of the present invention can be accelerated.

Description

For the brine tank Anti-hardening device of water softening device and include the water softening device of this device

Technical field

The present invention relates to water purifier technical field, in particular for the salt in water softening device brine tank, water contact device.

Background technology

At present, common water softening device structure is usually and is made up of resin container, cation exchange resin, multifunctional control valve for water management system, brine tank etc. After a certain amount of calcium ions and magnesium ions of Resin Absorbent, being necessary for regenerating, regenerative process needs to rinse resin bed with the saline solution in brine tank, and the hardness ions on resin is being cemented out, outside with regeneration liquid waste drain tank, such resin recovers again softening function of exchange. Some water softening device brine tank is independent setting, and resin container is placed directly within brine tank by some water softening device. Brine tank passes into external water by water intaking valve in use, and water enters in the case depositing salt, becomes saline after making salt fully dissolve, thus resin bed is rinsed, and then better recycling resin.

The effect of brine tank is after the calcium ions and magnesium ions in Resin Absorbent water, by the sodium ion in saline, the calcium ions and magnesium ions of resin bed is exchanged, and improves the efficiency of resin absorption calcium ions and magnesium ions, increases the service life of resin. Therefore, being formed the ion-exchange performance of resin is had of saline directly affects, thus the structure of brine tank influences whether the soft water performance of softened water tank.

If it is known that be directly placed in brine tank by salt, owing to the proportion of salt is more than water, salt is sunken to the bottom, and dissolved efficiency is extremely low. Therefore current, brine tank generally arranges one and deposits salt frame, deposit salt frame and have and deposited salt crystal by what leg was propped. Salt is placed in deposit salt frame deposit on salt crystal, there is certain distance bottom salt and brine tank, saline can flow downward, and dissolved efficiency is greatly improved. Although thus so can improve dissolved efficiency, but can bring another problem, namely depositing after the salt on salt crystal contacts with water, be partly dissolved, namely part produces to harden phenomenon. So need regularly to process depositing salt frame, from affect using continuously of water softening device, reduce the overall service efficiency of water softening device.

Based on above-mentioned situation, one can make salt fully to dissolve, it is prevented that the device hardened is the problem that those skilled in the art expect to solve.

Summary of the invention

It is an object of the invention to provide a kind of brine tank Anti-hardening device for water softening device and include the water softening device of this device, it is possible to making salt and water fully merge, what increase brine tank uses the time continuously, improves the service efficiency of water softening device simultaneously.

Technical scheme provided by the invention is as follows:

A kind of brine tank Anti-hardening device for water softening device, including at least one contact plate, is provided with some water stream channels and the surface that every described water stream channel has at least a water inlet to be arranged at described contact plate between upper surface and the lower surface of described contact plate;

The upper surface of described contact plate is provided with some capillary channel, and the bottom surface of described capillary channel connects with described water stream channel;

The lower surface of described contact plate is provided with several apopores, and each described apopore connects with described water stream channel.

In the technical program, the water in water stream channel is attracted to the upper surface of contact plate by the capillarity of available capillary channel. When the salt deposit laid on the upper surface of contact plate, the water being attracted to capillary channel is fully contacted, and dissolves rapidly. Owing to brine ratio is great in water, the apopore by arranging on contact plate lower surface is flowed out by saline. Simultaneously because apopore connect with water stream channel, forming saline and decline and makeup water stream enters the circulation of contact plate, be effectively improved the speed of salt dissolving, more optimizedly this circulation can effectively prevent salt chance water from hardening in bulk.

It is further preferred that water stream channel is extend to opposing sidewalls from described contact plate one sidewall, and bearing of trend is parallel with described capillary channel and/or vertical; And described each water stream channel is parallel to each other.

In the technical program, every water stream channel is through whole contact plate, and such setting is not only convenient for processing, and can make to supplement water and flow simultaneously into from the two side of contact plate, not only improves dissolved efficiency, and is prevented from side blocking and causes whole piece water stream channel. Just in case blocking, also allow for dredging.

It is further preferred that described capillary channel extends to opposite side from the upper surface side of described contact plate, and described each capillary channel is parallel to each other, and the width of described capillary channel is less than or equal to 1.5 millimeters.

In this optimal technical scheme, the setting of capillary channel width not only ensures to produce capillarity, and prevents salt grain from falling into and block capillary channel in capillary channel or fall into contact plate internal blocking water stream channel.

It is further preferred that the width of described capillary channel is 0.3 millimeter��0.8 millimeter.

In this optimal technical scheme, capillary channel width is 0.3 millimeter��0.8 millimeter, and through experiment, this preferable width dissolved efficiency is the highest, anti-compaction, blockage resisting effect are best.

It is further preferred that the cross-sectional diameter of described water stream channel and described apopore diameter are 1.5 millimeters��2 millimeters.

In this optimal technical scheme, water stream channel and apopore diameter are 1.5 millimeters��2 millimeters. Through experiment, this preferred diameter can utilize the circulation of water stream channel and apopore the most fully, and dissolved efficiency is the highest, anti-compaction, blockage resisting effect are best.

It is further preferred that the upper surface of described contact plate is provided with some capillarys props up groove, it is parallel with described capillary channel and/or vertical that described capillary props up groove; Described every capillary is propped up groove and is connected with one of described capillary channel or prop up groove by other capillarys and connect with one of described capillary channel.

In this optimal technical scheme, being provided with capillary and prop up groove, it can expand the contact area of salt and water to greatest extent, improves dissolved efficiency; Simultaneously as it provides more space on contact plate surface, anti-compaction effect is more preferably.

It is further preferred that described capillary props up the width of groove less than or equal to 1.5 millimeters.

In this optimal technical scheme, the setting of capillary channel width can ensure that generation capillarity so that water can fully suck, and accelerates to dissolve and prevent from hardening.

It is further preferred that described contact plate can be integrated setting, it is possible to be formed by connecting by multiple contact plate modules; Each sidewall of described contact plate module is provided with dovetail groove or dovetail protuberance, splices with the dovetail groove of adjacent described contact plate module or dovetail protuberance.

In this optimal technical scheme, contact plate modularized design, can splice mutually, so go for all size, variform salt frame of depositing, and bring great convenience to the production of contact plate, installation.

A kind of water softening device, at least includes a brine tank, is provided with the above-mentioned brine tank Anti-hardening device for water softening device in described brine tank.

Due to the fact that and have employed technique scheme, thus having the advantage that the present invention passes through the contact plate arranged, utilize the capillarity that capillary channel is set on contact plate, can the efficient water in extract water circulation road, the salt on contact plate is promptly made to dissolve, saline quickly flows out from apopore and water stream channel simultaneously, effectively prevents salt from meeting water back plate and forms block. The present invention arranges some capillary channel further, and parallel and/or vertically disposed some capillarys prop up groove, it is possible to expand the contact area of salt and water to greatest extent, improves dissolved efficiency, provides more space simultaneously, and anti-compaction effect is more preferably. It addition, present configuration is simple, easy for installation.

Accompanying drawing explanation

Below in conjunction with the drawings and specific embodiments, the present invention is described in further detail:

Fig. 1 is the present invention three-dimensional structure diagram for a kind of embodiment of the brine tank Anti-hardening device of water softening device;

Fig. 2 is the other direction three-dimensional structure diagram of Fig. 1;

Fig. 3 is the present invention brine tank Anti-hardening device spliced three-dimensional structure diagram of adjacent touch panel for water softening device;

Fig. 4 is the other direction three-dimensional structure diagram of Fig. 3;

The support schematic perspective view that Fig. 5 is the present invention to be deposited for the brine tank Anti-hardening device of water softening device.

Drawing reference numeral illustrates:

Contact plate 100;

The upper surface 110 of contact plate; Capillary channel 111; Parallel capillary props up groove 112; Vertical hair ramuscule groove 113;

The lower surface 120 of contact plate; Apopore 121;

Water stream channel 130;

Dovetail protuberance 140; Dovetail groove 141;

Deposit salt frame 200;

Water inlet pipe 210; Deposit salt dish 220.

Detailed description of the invention

In order to be illustrated more clearly that the embodiment of the present invention or technical scheme of the prior art, the accompanying drawing used required in embodiment or description of the prior art will be briefly described below, apparently, accompanying drawing in the following describes is only some embodiments of the present invention, for those of ordinary skill in the art, under the premise not paying creative work, it is also possible to obtain other accompanying drawing according to these accompanying drawings.

For knowing explanation, the upper surface of the contact plate 100 of accompanying drawing of the present invention is defined as the upper surface in Fig. 1, and this is also the contact plate 100 of the present invention orientation when actually used, and subsequent drawings continues to use this definition.

In one embodiment of the invention, referring to Fig. 1, Fig. 2, a kind of brine tank Anti-hardening device for water softening device, including at least one contact plate 100, some (particular number does rational setting according to the size of contact plate 100) water stream channels 130 and the surface that every water stream channel 130 has at least a water inlet to be arranged at contact plate 100 it is provided with between upper surface 110 and the lower surface 120 of contact plate of contact plate.Can be intercommunication between each bar water stream channel 130, it is also possible to be not intercommunication. And its any bearing of trend in contact plate 100. In Fig. 1, Fig. 2, water stream channel 130 is arranged to extend to opposing sidewalls from contact plate 100 1 sidewall, and parallel to each other between each water stream channel 130; Each water stream channel 130 whole contact plate 100 of traverse. This kind of set-up mode is not only easy to process, and supplementary water can be made to flow simultaneously into from the two side of contact plate 100, improves dissolved efficiency further; Can effectively prevent blocking simultaneously, can dredge from opposite side after the blocking of side. This kind of set-up mode is not unique set-up mode of water stream channel 130 of the present invention, as long as water stream channel 130 has a water inlet on any surface of contact plate 100, can flow into water, can realize function of the present invention, belong to the scope of the invention. Water stream channel 130 water inlet is arranged on the sidewall of contact plate 100 for preferred structure. The sidewall of contact plate 100 refers to other outer surfaces in each surface of contact plate 100 except the upper surface 110 of the contact plate lower surface 120 with contact plate.

The upper surface 110 of contact plate is provided with some capillary channel 111. The direction of capillary channel 111 is arbitrary, and shape is also arbitrary. In Fig. 1, Fig. 2, capillary channel 111 is arranged to extend to opposing sidewalls from contact plate 100 1 sidewall, and parallel to each other between each capillary channel 111. This kind of set-up mode purpose is easy to process and absorbs water rapidly, is not unique set-up mode of capillary channel 111 of the present invention. As long as capillary channel 111 has capillarity, it is possible to water is sucked wherein, the object of the invention can be realized, belong to the scope of the invention. The bottom surface of capillary channel 111 connects with water stream channel 130, and in the present invention, the needs of every capillary channel 111 connect with any one water stream channel 130. Lower surface 120 at contact plate is provided with several apopores 121, and each apopore 121 connects with one of water stream channel 130.

After water is flowed into by water stream channel 130, capillary channel 111 utilizes capillarity (being the liquid surface captivation to the surface of solids) that the water in water stream channel 130 is attracted to the upper surface 110 of contact plate. Owing to salt is to be laid on the upper surface 110 of contact plate in advance, the water in capillary channel 111 and salt are fully contacted, and make salt melt rapidly. The width of capillary channel 111 is preferably provided to less than or equal to 1.5 millimeters so that it is realize capillary effect preferably, is possible to prevent salt grain to fall into simultaneously and blocks capillary channel 111 in capillary channel 111 or fall into contact plate 100 internal blocking water stream channel 130. It is furthermore preferred that the width of capillary channel 111 is arranged between 0.3 millimeter��0.8 millimeter. Capillary channel 111 width value is arranged on this scope can not only realize capillarity, and is prevented from salt grain and falls into and form blocking in contact plate 100. The experiment proved that this width dissolved efficiency is the highest, anti-compaction, blockage resisting effect are best.

The salt of water and laying that capillary channel 111 is attracted to the upper surface 110 of contact plate forms saline after merging. Owing to brine ratio is great in water, the apopore 121 by arranging on contact plate 100 lower surface is flowed out by saline. Simultaneously because apopore 121 connects with water stream channel 130, forming saline and decline and makeup water stream enters the circulation of contact plate 100, be effectively improved the speed that salt dissolves, more optimizedly this circulation can effectively prevent salt chance water from hardening in bulk.

In one embodiment of the invention, referring to Fig. 1, Fig. 2, water stream channel 130 and capillary channel about 111 are correspondingly arranged, every capillary channel 111 be arranged below a water stream channel 130;And every capillary channel 111 is all through with corresponding water stream channel 130 on the whole length direction of self. Capillary channel 111 is also configured to the upper surface side from contact plate 100 and extends to opposite side, and each capillary channel 111 is parallel to each other. The present invention is not limited by this kind of set-up mode, but has the advantage that the water-taking efficiency facilitating processing and capillary channel 111 is high. Those of ordinary skill in the art can learn, vertical between capillary channel 111 with water stream channel 130, parallel or some is vertical, and some is parallel, only need to be capable of water stream channel 130 and connect with capillary channel 111 and can realize function of the present invention. For reaching preferably effect, so will

In one embodiment of the invention, referring to Fig. 1, Fig. 2, due to capillarity, capillary channel 111 need to from water stream channel 130 extract water. Being provided that the water source of abundance for meeting capillary channel 111 water stream channel 130 when attracting, the diameter of water stream channel 130 is set to 1.5 millimeters��2 millimeters. Through experiment, this diameter can fully ensure that the water-taking efficiency of capillary channel 111. It is further preferred that the diameter of apopore 121 is also disposed between 1.5 millimeters��2 millimeters, it is ensured that the speed that saline flows out from apopore 121. The circulation that can utilize water stream channel 130 and apopore 121 the most fully is so set, makes the dissolved efficiency height of salt, anti-compaction, blockage resisting effect good. Certainly, this is preferably provided with not restriction to water stream channel in the present invention 130 and the diameter of apopore 121, as long as water can be circulated, all can realize function of the present invention, belong to the scope of the invention.

In one embodiment of the invention, referring again to Fig. 1, when practice, owing to salt is laid on whole contact plate 100, for expanding the contact area of salt and water, on the upper surface 110 of contact plate, arrange some further prop up groove 112,113 with the capillary connected in capillary channel 111. Capillary is propped up the capillarity of groove 112,113 and is allowed the water to abundant suction, it is possible to expand the contact area of salt and water, improves dissolved efficiency; Meanwhile, it provides more space on contact plate 100 surface further, and anti-compaction effect is more preferably. The width that capillary props up groove 112,113 it should be understood that as making capillary prop up groove generation capillarity, so can be set to identical with capillary channel 111.

In Fig. 1, capillary is propped up groove and is divided into the parallel capillary parallel with capillary channel 111 to prop up groove 112 and or vertical hair ramuscule groove 113 vertical with capillary channel 111, is jointly covered with fenestral fabric at the upper surface 110 of contact plate. This kind of mode not only convenient processing, and the contact area of salt and water can be expanded to greatest extent, improving dissolved efficiency, provide more space on contact plate 100 surface simultaneously, anti-compaction effect is more preferably. It should be understood that in the present invention that each capillary props up groove 112,113 can be any amount, direction or curve shape, as long as connecting with capillary channel 111, all can play and expanding the effect that salt is long-pending with water engaging surface, belonging to the scope of the invention.

Contact plate 100 can be integrated setting in use, it is possible to is spliced by multiple contact plate 100 modules. In one embodiment of the invention, with reference to Fig. 1, Fig. 3, Fig. 4, the mode of contact plate 100 module splicing is disclosed: be provided with dovetail groove 141 or dovetail protuberance 140 in contact plate 100 sidewalls, for being spliced by adjacent touch panel 100. Spliced effect is such as shown in Fig. 3, Fig. 4, and the effect of splicing can do multiple combination according to needs of production.In figure, dovetail protuberance 140 is an inverted trapezoidal, and dovetail groove 141 is the corresponding dead slot having an inverted trapezoidal then, so ensures that multiple contact plate 100 modules not easily splice mistake and difficult drop-off after splicing when connecting. Should be understood that dovetail protuberance 140 or dovetail groove 141 are alternatively other shapes, as long as mutual splicing can be realized, the object of the invention can be realized, belong to the scope of the invention.

In one embodiment of the invention, with reference to Fig. 1, Fig. 3, Fig. 5, for improving service efficiency and the scope of application of water softening device further, the brine tank of water softening device can arrange one and deposit salt frame 200, wherein, deposit salt frame 200 by water inlet pipe 210 and to deposit salt dish 220 and constitute, and then only contact plate 100 need to be placed in and deposit on salt dish 220. Referring further in Fig. 5 indicate water (flow) direction, when current from water inlet pipe 210 enter after, current enter contact plate 100 water stream channel 130 in, thus realize salt can by rapid solution, and dissolve after saline quickly flow out from each apopore 121 directly down. So can effectively ensure that salt can be sufficiently solubilized, improve service efficiency, contact plate 100 goes for all size, variform salt frame 200 of depositing simultaneously, and brings great convenience to the production of contact plate 100, installation.

It should be noted that, above-described embodiment all can the adjustment of independent assortment and shape and structure as required.

The above is only the preferred embodiment of the present invention; it should be pointed out that, for those skilled in the art, under the premise without departing from the principles of the invention; can also making some improvements and modifications, these improvements and modifications also should be regarded as protection scope of the present invention.

Claims (9)

1. for a brine tank Anti-hardening device for water softening device, including at least one contact plate,

It is characterized in that:

Some water stream channels and the surface that every described water stream channel has at least a water inlet to be arranged at described contact plate it is provided with between upper surface and the lower surface of described contact plate;

The upper surface of described contact plate is provided with some capillary channel, and the bottom surface of described capillary channel connects with described water stream channel;

The lower surface of described contact plate is provided with several apopores, and each described apopore connects with one of described water stream channel.

2. the brine tank Anti-hardening device for water softening device according to claim 1, it is characterised in that:

Described water stream channel is extend to opposing sidewalls from described contact plate one sidewall, and bearing of trend is parallel with described capillary channel and/or vertical; And described each water stream channel is parallel to each other.

3. the brine tank Anti-hardening device for water softening device according to claim 1, it is characterised in that:

Described capillary channel extends to opposite side from the upper surface side of described contact plate, and described each capillary channel is parallel to each other, and the width of described capillary channel is less than or equal to 1.5 millimeters.

4. the brine tank Anti-hardening device for water softening device according to claim 3, it is characterised in that:

The width of described capillary channel is 0.3 millimeter��0.8 millimeter.

5. the brine tank Anti-hardening device for water softening device according to claim 1, it is characterised in that:

Cross-sectional diameter and the described apopore diameter of described water stream channel are 1.5 millimeters��2 millimeters.

6. the brine tank Anti-hardening device for water softening device according to claim 1, it is characterised in that:

The upper surface of described contact plate is provided with some capillarys and props up groove, and it is parallel with described capillary channel and/or vertical that described capillary props up groove;Described every capillary is propped up groove and is connected with one of described capillary channel or prop up groove by other capillarys and connect with one of described capillary channel.

7. the brine tank Anti-hardening device for water softening device according to claim 6, it is characterised in that:

Described capillary props up the width of groove less than or equal to 1.5 millimeters.

8. the brine tank Anti-hardening device for water softening device according to claim 1-7 any one, it is characterised in that:

Described contact plate can be integrated setting, it is possible to is formed by connecting by multiple contact plate modules; Each sidewall of described contact plate module is provided with dovetail groove or dovetail protuberance, splices with the dovetail protuberance of adjacent described contact plate module or dovetail groove.

9. a water softening device, at least includes a brine tank, it is characterised in that:

The brine tank Anti-hardening device for water softening device being provided with in claim 1-8 in described brine tank described in any one.