CN112716421A - Respirator and dish washing machine - Google Patents
Respirator and dish washing machine Download PDFInfo
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- CN112716421A CN112716421A CN202110093000.0A CN202110093000A CN112716421A CN 112716421 A CN112716421 A CN 112716421A CN 202110093000 A CN202110093000 A CN 202110093000A CN 112716421 A CN112716421 A CN 112716421A
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- water inlet
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- respirator
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- 238000004851 dishwashing Methods 0.000 title claims abstract description 11
- XLYOFNOQVPJJNP-UHFFFAOYSA-N water Substances O XLYOFNOQVPJJNP-UHFFFAOYSA-N 0.000 claims abstract description 408
- 238000005406 washing Methods 0.000 claims abstract description 47
- 230000008929 regeneration Effects 0.000 claims abstract description 35
- 238000011069 regeneration method Methods 0.000 claims abstract description 35
- 150000003839 salts Chemical class 0.000 claims abstract description 11
- 230000029058 respiratory gaseous exchange Effects 0.000 claims description 53
- 238000003860 storage Methods 0.000 claims description 50
- 238000004891 communication Methods 0.000 claims description 37
- 239000011347 resin Substances 0.000 claims description 30
- 229920005989 resin Polymers 0.000 claims description 30
- WYTGDNHDOZPMIW-RCBQFDQVSA-N alstonine Natural products C1=CC2=C3C=CC=CC3=NC2=C2N1C[C@H]1[C@H](C)OC=C(C(=O)OC)[C@H]1C2 WYTGDNHDOZPMIW-RCBQFDQVSA-N 0.000 claims 1
- 230000000149 penetrating effect Effects 0.000 claims 1
- 230000009286 beneficial effect Effects 0.000 abstract description 7
- 238000004519 manufacturing process Methods 0.000 abstract description 4
- 238000002360 preparation method Methods 0.000 abstract description 4
- 241000238631 Hexapoda Species 0.000 description 23
- 239000010865 sewage Substances 0.000 description 14
- 241001674044 Blattodea Species 0.000 description 13
- 230000000903 blocking effect Effects 0.000 description 13
- 238000009833 condensation Methods 0.000 description 10
- 230000005494 condensation Effects 0.000 description 10
- 238000000034 method Methods 0.000 description 10
- 238000005265 energy consumption Methods 0.000 description 8
- 230000002829 reductive effect Effects 0.000 description 8
- 238000005452 bending Methods 0.000 description 7
- 230000008569 process Effects 0.000 description 7
- 238000010521 absorption reaction Methods 0.000 description 6
- 239000008234 soft water Substances 0.000 description 6
- 230000000694 effects Effects 0.000 description 4
- 210000003205 muscle Anatomy 0.000 description 4
- 239000000243 solution Substances 0.000 description 4
- 238000010438 heat treatment Methods 0.000 description 3
- 230000002265 prevention Effects 0.000 description 3
- 230000002035 prolonged effect Effects 0.000 description 3
- 238000011084 recovery Methods 0.000 description 3
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- 230000015572 biosynthetic process Effects 0.000 description 2
- 230000003068 static effect Effects 0.000 description 2
- 238000011144 upstream manufacturing Methods 0.000 description 2
- OYPRJOBELJOOCE-UHFFFAOYSA-N Calcium Chemical compound [Ca] OYPRJOBELJOOCE-UHFFFAOYSA-N 0.000 description 1
- JLVVSXFLKOJNIY-UHFFFAOYSA-N Magnesium ion Chemical compound [Mg+2] JLVVSXFLKOJNIY-UHFFFAOYSA-N 0.000 description 1
- 241000607479 Yersinia pestis Species 0.000 description 1
- 230000004888 barrier function Effects 0.000 description 1
- 230000003139 buffering effect Effects 0.000 description 1
- 229910052791 calcium Inorganic materials 0.000 description 1
- 239000011575 calcium Substances 0.000 description 1
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- 230000009193 crawling Effects 0.000 description 1
- 230000007423 decrease Effects 0.000 description 1
- 230000003247 decreasing effect Effects 0.000 description 1
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Images
Classifications
-
- A—HUMAN NECESSITIES
- A47—FURNITURE; DOMESTIC ARTICLES OR APPLIANCES; COFFEE MILLS; SPICE MILLS; SUCTION CLEANERS IN GENERAL
- A47L—DOMESTIC WASHING OR CLEANING; SUCTION CLEANERS IN GENERAL
- A47L15/00—Washing or rinsing machines for crockery or tableware
- A47L15/42—Details
-
- A—HUMAN NECESSITIES
- A47—FURNITURE; DOMESTIC ARTICLES OR APPLIANCES; COFFEE MILLS; SPICE MILLS; SUCTION CLEANERS IN GENERAL
- A47L—DOMESTIC WASHING OR CLEANING; SUCTION CLEANERS IN GENERAL
- A47L15/00—Washing or rinsing machines for crockery or tableware
-
- A—HUMAN NECESSITIES
- A47—FURNITURE; DOMESTIC ARTICLES OR APPLIANCES; COFFEE MILLS; SPICE MILLS; SUCTION CLEANERS IN GENERAL
- A47L—DOMESTIC WASHING OR CLEANING; SUCTION CLEANERS IN GENERAL
- A47L15/00—Washing or rinsing machines for crockery or tableware
- A47L15/42—Details
- A47L15/4291—Recovery arrangements, e.g. for the recovery of energy or water
Landscapes
- Washing And Drying Of Tableware (AREA)
Abstract
The invention discloses a respirator and a dish washing machine, wherein the respirator is used for the dish washing machine, the dish washing machine comprises a machine body, a washing cavity is arranged in the machine body, and the respirator comprises: the casing, inject the water inlet passage in the casing, the extension path of water inlet passage with the casing restricts out the regeneration water chamber jointly, the regeneration water chamber is equipped with the regeneration water export, the regeneration water export is used for communicating with the salt chamber of water softener. The technical scheme of the invention can simplify the structure of the respirator and is beneficial to the production and preparation of the respirator.
Description
Technical Field
The invention relates to the technical field of dish washing machines, in particular to a respirator and a dish washing machine.
Background
With the improvement of the living standard of people, the quality requirement of life of people is higher and higher, so that the dish washing machine is gradually recognized and accepted by people.
The dishwasher heats water to better wash dishes in a washing process, the vapor can increase the air pressure in a washing cavity of the dishwasher, and the respirator can be used for balancing the pressure of the washing cavity and the outside atmosphere. In the related art, the structure of the respirator is complex, and the production and preparation are not facilitated.
Disclosure of Invention
The main object of the present invention is to propose a respirator aimed at simplifying the structure of the respirator.
In order to achieve the above object, the respirator provided by the present invention is used for a dishwasher, the dishwasher includes a machine body, a washing cavity is arranged in the machine body, the respirator includes:
the casing, inject the water inlet passage in the casing, the extension path of water inlet passage with the casing restricts out the regeneration water chamber jointly, the regeneration water chamber is equipped with the regeneration water export, the regeneration water export is used for communicating with the salt chamber of water softener.
Optionally, the water inlet channel comprises a water inlet section and a water outlet section, the upper end of the water inlet section is connected with the upper end of the water outlet section, the lower end of the water inlet section is provided with a first water inlet for connecting with raw water, and the lower end of the water outlet section is provided with a first water outlet for communicating with the resin cavity of the water softener; the water inlet section and the water outlet section are at least partially arranged at intervals, and the regeneration water cavity is positioned between the water inlet section and the water outlet section.
Optionally, the first water inlet and the first water outlet are both arranged at the lower end of the shell.
Optionally, the upper end of the water inlet section and the upper end of the water outlet section are both arranged close to the upper end of the shell.
Optionally, the water inlet channel is at least partially arranged in a bending and extending manner.
Optionally, a plurality of portions of the water inlet channel are arranged in a bent extending manner.
Optionally, a drain channel is further defined in the housing, and at least a portion of the water inlet channel shares a channel wall with the drain channel.
Optionally, an air chamber, a drainage channel, and a balanced air pressure channel communicated with the drainage channel are further defined in the housing, the air chamber is provided with a breathing port communicated with the atmosphere and a communication port communicated with the washing chamber, a one-way valve is arranged between the balanced air pressure channel and the air chamber, and the communication direction of the one-way valve is from the air chamber to the balanced air pressure channel;
at least a portion of the water inlet channel shares a channel wall with the equilibrium gas pressure channel.
Optionally, a water storage cavity is further defined in the shell and is provided with a second water inlet communicated with a water softener resin cavity and a second water outlet communicated with the washing cavity, and water flowing out of the first water outlet flows into the water storage cavity from the second water inlet through the water softener resin cavity; a water passing channel for communicating the water storage cavity with the regeneration water cavity is further defined in the shell;
the drainage channel and the water storage cavity are respectively arranged on two opposite sides of the water inlet channel.
Optionally, an air chamber is further defined in the housing, and the air chamber is provided with a breathing port for communicating with the atmosphere, a communication port for communicating with the washing chamber, and a steam passage for communicating the communication port with the upper part of the air chamber;
the water inlet channel at least partially shares a channel wall with the steam channel.
Optionally, an air chamber and a water storage chamber are further defined in the shell, the air chamber is provided with a breathing port communicated with the atmosphere and a communication port communicated with the washing chamber, the water storage chamber is provided with a second water inlet communicated with a water softener resin chamber and a second water outlet communicated with the washing chamber, and water flowing out of the first water outlet flows into the water storage chamber from the second water inlet through the water softener resin chamber; a water passing channel for communicating the water storage cavity with the regeneration water cavity is further defined in the shell;
the air chamber with the water storage chamber is located inhalant canal's opposite both sides.
Optionally, the water inlet channel comprises a water inlet section and a water outlet section, the upper end of the water inlet section is connected with the upper end of the water outlet section, the lower end of the water inlet section is provided with a first water inlet for connecting with raw water, and the lower end of the water outlet section is provided with a first water outlet for communicating with the water softener resin cavity;
the water inlet section and the water outlet section are at least partially close to each other and extend in parallel, and the water inlet section and the water outlet section which are close to each other and parallel to each other are at least partially arranged towards the air cavity in a protruding mode.
Optionally, an upper portion of the air chamber communicates with an upper end of the water storage chamber.
Optionally, the water inlet channel comprises a percentage of the volume within the housing of greater than or equal to 3%.
The invention also provides a dish washing machine, which comprises a machine body, wherein a washing cavity is arranged in the machine body, a through hole is arranged on the wall of the machine body, and the through hole is communicated with the washing cavity; and
in the above-mentioned respirator, the respirator is mounted on the machine body, and the communication port is communicated with the washing chamber through the through hole.
According to the technical scheme, the water inlet channel and the shell can limit the regeneration water cavity together, so that a special wall body structure is not required to be arranged in the shell to form the regeneration water cavity, namely, the water inlet channel is reused as a wall body of the regeneration water cavity, and the structure of the respirator can be simplified, and the production and preparation of the respirator are facilitated; in addition, the regenerated water in the regenerated water cavity can absorb heat emitted by the machine body of the dishwasher in operation, so that the heat is recycled, and the power consumption of the dishwasher is reduced.
Drawings
In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below, it is obvious that the drawings in the following description are only some embodiments of the present invention, and for those skilled in the art, other drawings can be obtained according to the structures shown in the drawings without creative efforts.
FIG. 1 is a schematic structural view of an embodiment of a dishwasher of the present invention;
FIG. 2 is a schematic view of the respirator of the dishwasher of FIG. 1;
FIG. 3 is an enlarged view of a portion of FIG. 2 at A;
fig. 4 is a partially enlarged view of fig. 2 at B.
The reference numbers illustrate:
the implementation, functional features and advantages of the objects of the present invention will be further explained with reference to the accompanying drawings.
Detailed Description
The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.
It should be noted that if directional indications (such as up, down, left, right, front, and back … …) are involved in the embodiment of the present invention, the directional indications are only used to explain the relative positional relationship between the components, the movement situation, and the like in a specific posture, and if the specific posture is changed, the directional indications are changed accordingly.
In addition, if there is a description of "first", "second", etc. in an embodiment of the present invention, the description of "first", "second", etc. is for descriptive purposes only and is not to be construed as indicating or implying relative importance or implicitly indicating the number of technical features indicated. Thus, a feature defined as "first" or "second" may explicitly or implicitly include at least one such feature. In addition, if the meaning of "and/or" and/or "appears throughout, the meaning includes three parallel schemes, for example," A and/or B "includes scheme A, or scheme B, or a scheme satisfying both schemes A and B. In addition, technical solutions between various embodiments may be combined with each other, but must be realized by a person skilled in the art, and when the technical solutions are contradictory or cannot be realized, such a combination should not be considered to exist, and is not within the protection scope of the present invention.
The invention provides a respirator, which is used for a dish washing machine. Without loss of generality, the dishwasher comprises a body in which a washing chamber is arranged. The respirator is mounted on the body.
Referring to fig. 1 to 4, in one embodiment of the invention, the respirator 1 comprises:
Without loss of generality, in the present embodiment, the housing 10 further defines an air chamber 101, the air chamber 101 is provided with a breathing port 101a for communicating with the atmosphere and a communication port 101b for communicating with the washing chamber 20, so that the washing chamber 20 can communicate with the atmosphere sequentially through the communication port 101b, the air chamber 101 and the breathing port 101a to achieve air pressure balance in the washing chamber 20.
In addition, generally, a salt cavity of the water softener is provided with a regenerated salt or a high-concentration salt solution, during the operation of the water softener, regenerated water needs to be periodically introduced into the salt cavity, the regenerated water introduced into the salt cavity forms a regenerated salt solution, and when the softening performance of the soft water resin in the resin cavity is reduced and the soft water resin needs to be reduced, the formed regenerated salt solution in the salt cavity enters the resin cavity to reduce and regenerate the soft water resin. In this embodiment, when the soft water resin in the resin cavity needs to be reduced and regenerated, the regenerated water can be injected into the salt cavity of the water softener through the regenerated water outlet 105 a.
The technical scheme of the invention can limit the regeneration water cavity 105 through the water inlet channel 103 and the shell 10 together, so that a special wall body structure is not required to be arranged in the shell 10 to form the regeneration water cavity 105, that is, the water inlet channel 103 is reused as a wall body of the regeneration water cavity 105, thereby simplifying the structure of the respirator 1 and facilitating the production and preparation of the respirator 1; in addition, the regenerated water in the regenerated water cavity 105 can absorb heat emitted by the body 2 of the dishwasher in operation, thereby recovering the heat and reducing the power consumption of the dishwasher. It will be appreciated that during operation of the dishwasher, the body 2 of the dishwasher may dissipate heat outwardly.
Further, the inlet passage 103 includes a water inlet section 1031 and a water outlet section 1032, the upper end of the water inlet section 1031 is connected with the upper end of the water outlet section 1032, the lower end of the water inlet section 1031 is provided with a first water inlet 103a for being connected with raw water, and the lower end of the water outlet section 1032 is provided with a first water outlet 103b for being communicated with a resin cavity of the water softener.
Generally, a soft water resin is provided in a resin chamber of the water softener to adsorb calcium, magnesium ions, etc. in water flowing into the resin chamber to soften the water entering the resin chamber, and the softened water can reduce the probability of scale formation. In the invention, raw water can enter the water inlet section 1031 through the first water inlet 103a, and then flow into the resin cavity of the water softener from the first water outlet 103b through the water outlet section 1032, so that the water is softened by the resin cavity of the water softener and then flows into the washing cavity 20, thereby preventing scale from forming in the washing cavity 20 and improving the washing effect.
In this embodiment, the water inlet channel 103 not only includes upwards extends into water section 1031, still includes the play water section 1032 that extends down, has prolonged greatly the channel length of water inlet channel 103 can increase the ability that the inside and peripheral (mainly being the organism 2 of dish washer) heat of respirator 1 is absorbed to water inlet channel 103, provides the water that is higher than raw water temperature for the water softener, reduces and enters into the inside required energy consumption of further heating of dish washer to can reduce the energy consumption of dish washer.
Optionally, the water inlet channel 103 accounts for more than or equal to 3% of the volume inside the housing 10; thus, the volume of the water inlet channel 103 is larger, so that the heat inside and around the respirator 1 (mainly the body 2 of the dishwasher) can be better absorbed. Further optionally, the water inlet channel 103 comprises a percentage of the volume inside the housing 10 greater than or equal to 5%.
Further, the water inlet section 1031 and the water outlet section 1032 are at least partially arranged at intervals; in this way, on one hand, the spaced apart parts of the water inlet section 1031 and the water outlet section 1032 can absorb heat at different positions, thereby improving the heat absorption efficiency; on the other hand, the length of the whole water inlet channel 103 is also beneficial to be prolonged, so that the heat absorption capacity of the water inlet channel 103 is increased. It is understood that, in the present embodiment, the regeneration water chamber 105 is located between the water inlet section 1031 and the water outlet section 1032.
In this embodiment, optionally, the first water inlet 103a and the first water outlet 103b are both disposed at the lower end of the casing 10; thus, the water inlet section 1031 needs to extend upward from the lower end of the housing 10, and the water outlet section 1032 also needs to extend downward to the lower end of the housing 10, compared with the technical scheme that the first water inlet 103a and/or the first water outlet 103b are/is arranged on the side of the housing 10, the water inlet passage 103 in the technical scheme can be longer, so that the absorption of heat inside and around the respirator 1 is more facilitated, and further reduction of energy consumption of the dishwasher is facilitated. Further optionally, the upper end of the water inlet section 1031 and the upper end of the water outlet section 1032 are both disposed near the upper end of the housing 10; in this way, the inlet passage 103 can be longer, thereby facilitating the absorption of heat inside and around the respirator 1.
Further, the water inlet channel 103 is at least partially bent and extended. It can be understood that the bending and extending arrangement is beneficial to extending the length of the water inlet channel 103 on the one hand, thereby increasing the heat absorbing capacity of the water inlet channel 103, further being beneficial to further reducing the energy consumption of the dishwasher, and on the other hand, the water inlet buffering function is also provided. In this embodiment, optionally, a plurality of portions of the water inlet channel 103 are bent and extended, that is, a plurality of curved channels are formed on the water inlet channel 103, so that water can be buffered more advantageously, and meanwhile, the space in the shell 10 can be utilized as much as possible, so that the energy absorption area is as large as possible, and the energy absorption effect is improved.
In the present invention, further, the air chamber 101 is further provided with a steam channel 101d for communicating the communication port 101b with the upper part of the air chamber 101, and the water inlet channel 103 at least partially shares a channel wall with the steam channel 101 d; in this way, the hot and humid air in the steam channel 101d can be transferred to the water in the water inlet channel 103 through the shared channel wall, so that the heat of the hot and humid air in the steam channel 101d can be recovered by absorbing the heat through the water in the water inlet channel 103.
Further, a water storage cavity 102 is defined in the housing 10, the water storage cavity 102 is provided with a second water inlet 102a for communicating with a water softener resin cavity and a second water outlet 102b for communicating with the washing cavity 20, and water flowing out of the first water outlet 103b flows into the water storage cavity 102 from the second water inlet 102a through the water softener resin cavity and then flows into the washing cavity 20 from the second water outlet 102b of the water storage cavity 102. In this embodiment, the water entering the water storage cavity 102 is softened by the water softener, so that the probability of scale formation in the water storage cavity 102 can be reduced; in addition, the softened water is stored in the water storage cavity 102 and is introduced into the washing cavity 20 when needed, and the process does not need the water softener to soften again, so that the heat is prevented from being dissipated in the softening process. In addition, in the embodiment, the water is stored in the water storage cavity 102 to absorb the heat emitted by the body 2 of the dishwasher in operation, so that the heat is recovered and the power consumption of the dishwasher is reduced; it will be appreciated that the temperature of the water stored in the water storage chamber 102 can be further increased after absorbing heat, thereby further reducing the energy consumption required for heating the water entering the interior of the dishwasher. In this embodiment, the air cavity 101 and the water storage cavity 102 are respectively disposed at two opposite sides of the water inlet channel 103, so that the water inlet channel 103 also has an effect of separating the air cavity 101 and the water storage cavity 102.
Optionally, the second water outlet 102b is provided with a control valve 102c, by reasonably controlling the opening and closing of the control valve 102c, for example, in any washing procedure, after the water storage cavity 102 finishes delivering water to the washing cavity 20, the control valve 102c is closed, and the second water inlet 102a continues to feed water until the stored water in the water storage cavity 102 reaches a preset water level, so as to pre-store water for the next washing procedure, thereby saving the water feeding time of the next procedure.
Optionally, the water inlet section 1031 and the water outlet section 1032 are at least partially adjacent to each other and extend in parallel, and the adjacent and parallel parts of the water inlet section 1031 and the water outlet section 1032 are at least partially protruded toward the air chamber 101; so, can be in the increase the water storage chamber 102 volume in the time, increase inhalant canal 103 with the length of the part that humid and hot air contacted in the air chamber 101 to can be better with humid and hot air's in the air chamber 101 heat transfer gives water in the inhalant canal 103, thereby improve the recovery efficiency to heat in the humid and hot air.
Optionally, the upper part of the air chamber 101 is communicated with the upper end of the water storage chamber 102; therefore, the hot and humid air gathered at the upper part of the air chamber 101 can also enter the water storage chamber 102 and transfer the heat to the stored water in the water storage chamber 102, so as to further improve the heat energy recovery capability of the respirator 1, and after the water temperature stored in the water storage chamber 102 is raised, the water temperature can be input into the washing chamber 20 in the next washing program, thereby reducing the time for heating the water in the washing process and reducing the energy consumption of the dishwasher.
Without loss of generality, in this embodiment, the air chamber 101 is located on the side of the water inlet section 1031 away from the water storage chamber 102, the water storage chamber 102 is located on the side of the water outlet section 1032 away from the air chamber 101, an anti-siphon structure is arranged between the upper end of the water outlet section 1032 and the upper end of the water inlet section 1031, a water inlet vent 103c communicated with the upper portion of the water storage chamber 102 is arranged on the anti-siphon structure, and the water inlet vent 103c can be communicated with the air chamber 101 through a communication position between the water storage chamber 102 and the air chamber 101, and further communicated with the external atmosphere. When the water supply into the water inlet channel 103 is stopped, negative pressure is formed at the upstream of the water inlet channel 103, so that water retained in the downstream of the water inlet channel 103 tends to flow back due to siphon, and air in the atmosphere can enter the water inlet channel 103 through the water inlet vent 103c due to the fact that the water inlet vent 103c is communicated with the atmosphere, so that the pressure difference in the water inlet channel 103 is balanced, and the siphon phenomenon of the water inlet channel 103 is prevented. Optionally, the anti-siphon structure includes bending channel section 1033 and gyration channel section 1034, bending channel section 1033 upwards protrudes, bending channel section 1033's one end with the upper end intercommunication of the section 1031 of intaking, gyration channel section 1034 sets up side by side the below of bending channel section 1033, gyration channel section 1034's one end with bending channel section 1033's the other end intercommunication, gyration channel section 1034's the other end with go out water section 1032 intercommunication, be equipped with on gyration channel section 1034 intake vent 103c, intake vent 103c is the slit setting usually. It can be understood that, in the present embodiment, since the air chamber 101 is adjacent to the water inlet section 1031, at least a portion of the water inlet section 1031 and the steam channel 101d share a channel wall on the water inlet channel 103.
In the present invention, further, a water passage 105b communicating the water storage chamber 102 with the upper end of the regeneration water chamber 105 is defined in the housing 10. In this embodiment, in the process of injecting water into the water storage cavity 102, water can be injected into the regeneration water cavity 105 through the water passage 105b, so that when the soft water resin in the resin cavity needs to be reduced and regenerated, the regeneration water can be injected into the salt cavity of the water softener through the regeneration water outlet 105 a. In this embodiment, optionally, the water channel 105b is configured in a tunnel form, that is, the water channel 105b does not pass through the water outlet section 1032, but is formed in the shell of the housing 10 in a tunnel form and bypasses the water outlet section 1032, so as to avoid the water channel 105b from affecting the smoothness of the water outlet section 1032.
Further, an air passing channel 105c communicating the space between the water inlet section 1031 and the water outlet section 1032 with the water storage cavity 102 is defined in the housing 10, and the air passing channel 105c is located at the upper side of the water passing channel 105 b; in this way, during the water filling process of the water storage chamber 102, when the water flows through the water passage 105b to fill the regeneration water chamber 105 and then continues to rise, the water in the space above the regeneration water chamber 105 and the water in the water storage chamber 102 can rise simultaneously due to the air passage 105 c. Optionally, the air passage channel 105c is configured in a tunnel form, that is, the air passage channel 105c does not pass through the water outlet section 1032, but is formed in the shell of the housing 10 and bypasses the water outlet section 1032 in a tunnel form, so as to avoid the air passage channel 105c from influencing the water outlet smoothness of the water outlet section 1032. In addition, optionally, above the water passing channel 105b, the water inlet section 1031 and the water outlet section 1032 are close to each other and extend in parallel, and the part of the water outlet section 1032 is biased toward the water inlet section 1031 to make more space for the water storage chamber 102 so as to store more water.
In the present invention, further, a drain channel 104 is defined in the housing 10, and at least a part of the water inlet channel 103 shares a channel wall with the drain channel 104. Without loss of generality, in this embodiment, the drainage channel 104 is provided with a sewage inlet 104a and a sewage outlet 104b, wherein the sewage inlet 104a is adapted to communicate with the washing chamber 20 and the sewage outlet 104b is adapted to communicate with a sewer. The drainage process of the dishwasher is as follows: the washing-sewage generated in the washing chamber 20 enters the drain passage 104 through the sewage inlet 104a and is then discharged to the sewage through the sewage outlet 104b, thereby performing a draining process of the dishwasher. It can be understood that, since the sewage in the drainage channel 104 is usually at a high temperature, at least a portion of the water inlet channel 103 and the drainage channel 104 share the channel wall, so that the water in the water inlet channel 103 can be heated by the drainage channel 104 in a heat conduction manner during the process of draining the sewage, thereby recovering the heat energy in the high-temperature sewage and reducing the power consumption of the dishwasher. Of course, water is typically stored in the inlet passage 103.
Further, a balance air pressure passage 1041 communicated with the drainage passage 104 is further defined in the housing 10, a check valve 1042 is disposed between the balance air pressure passage 1041 and the air chamber 101, and a conduction direction of the check valve 1042 is from the air chamber 101 to the balance air pressure passage 1041; at least a portion of the water inlet passage 103 shares a passage wall with the equilibrium gas pressure passage 1041. In this embodiment, when the dishwasher stops the draining process, a negative pressure will be formed in the upstream section of the drainage channel 104, so that the water retained in the downstream section of the drainage channel 104 communicated with the sewer has a tendency of flowing back due to siphoning, and since the atmosphere can be communicated with the balanced air pressure channel 1041 through the breathing port 101a, the air chamber 101 and the one-way valve 1042, the air in the atmosphere can enter the drainage channel 104 through the balanced air pressure channel 1041 to balance the pressure difference in the drainage channel 104, and prevent the drainage channel 104 from siphoning, thereby preventing the water in the drainage channel 104 from flowing back into the washing chamber 20 after draining, and ensuring the water retained in the drainage channel 104 to be drained smoothly. In this embodiment, when the dishwasher drains water, there is a part of high temperature sewage that enters into the balanced air pressure passage 1041, so, at least part of the water inlet passage 103 and the balanced air pressure passage 1041 share the passage wall, so that the high temperature sewage that enters into the balanced air pressure passage 1041 can heat the water in the water inlet passage 103, thereby further recovering the heat energy in the high temperature sewage, and reducing the power consumption of the dishwasher.
In this embodiment, in order to facilitate the communication between the balanced air pressure passage 1041 and the air chamber 101, in a case where the air chamber 101 is adjacent to a side of the water inlet section 1031, optionally, the water drain passage 104 and the balanced air pressure passage 1041 are both located on a side of the water inlet section 1031 facing away from the water outlet section 1032. In this case, on the water inlet passage 103, sharing a passage wall with the water discharge passage 104 and/or the balanced air pressure passage 1041 is the water inlet section 1031; and when the air chamber 101 and the water storage chamber 102 are respectively arranged at the two opposite sides of the water inlet channel 103, the water inlet channel 103 and the water storage chamber 102 are respectively arranged at the two opposite sides of the water inlet channel 103, so that the space in the shell 10 is more reasonably utilized.
In this embodiment, optionally, a flow meter 1035 is disposed on the water inlet section 1031 to control the water inlet amount of the dishwasher. Further, the flow meter 1035 is located between a channel wall on the water inlet section 1031, which is shared with the water discharge channel 104, and a channel wall on the water inlet section 1031, which is shared with the balanced air pressure channel 1041, so that the structure of the part is compact and the space utilization is more reasonable.
In the present invention, the air chamber 101 is further provided with a condensation chamber 101c adjacent to the communication port 101b, the condensation chamber 101c is not lower than the lower edge of the communication port 101b, and the opening of the condensation chamber 101c faces the communication port 101b, so as to reduce the leakage of the moist and hot air through the condensation chamber 101c, and meanwhile, a plurality of chamber walls of the condensation chamber 101c can provide a condensation effect, so that the present invention has a high condensation efficiency, and can well recover the heat energy in the moist and hot air, and the condensed water condensed by the condensation chamber 101c can flow back to the communication port 101b through the opening and flow back to the washing chamber 20 through the communication port 101b, so as to realize the recovery of the condensed water, thereby enabling the dishwasher to preserve heat and save energy, and reducing the energy consumption of the dishwasher.
Further, the breathing port 101a is located on the lower side of the communication port 101 b; in this way, on one hand, due to the light weight property of the hot and humid air, the hot and humid air entering the respirator 1 from the communication port 101b cannot move to the breathing port 101a and then is discharged out of the respirator 1, but moves upwards to the upper part of the air chamber 101 and condenses at the upper part of the air chamber 101 to recover the water and heat energy in the hot and humid air, so that the dishwasher is kept warm and energy-saving, and on the other hand, the dirt and static foreign matters entering from the breathing port 101a cannot reach the communication port 101b due to the self gravity, so that no dirt and static foreign matters enter the washing chamber 20.
Further, the air chamber 101 is further provided with a breathing passage 101e for communicating the breathing port 101a and the communication port 101 b; the breathing passage 101e includes a first passage section e1 adjacent to the communication port 101b, the first passage section e1 extending in the up-down direction; in this way, a small amount of hot and humid air moving towards the breathing opening 101a can be condensed by the channel wall of the first channel section e1, and water and heat energy in the hot and humid air can be recovered, so as to further improve the heat preservation and energy saving capability of the dishwasher, and further reduce the energy consumption of the dishwasher.
In this embodiment, optionally, the first channel section e1 extends obliquely upward; in this way, the channel length of the first channel segment e1 with the same height can be prolonged, so that the condensation stroke of the first channel segment e1 is increased, and the condensation capacity of the first channel segment e1 on the hot and humid air is improved, so as to be more beneficial to recovering the water and the heat energy of the hot and humid air entering the breathing channel 101 e. Further alternatively, the first channel segment e1 is in a concave arc shape, which can further extend the channel length of the first channel segment e1, and can facilitate the condensed water condensed on the channel wall of the first channel segment e1 away from the communication port 101b to flow back to the communication port 101b and flow back to the washing chamber 20 through the communication port 101 b.
Optionally, the breathing passage 101e further comprises a second passage section e2 extending from top to bottom, and the first passage section e1 is communicated with the middle position of the second passage section e 2. It will be appreciated that in most cases the first channel section e1 will not be able to recover all the water and heat from the hot and humid air entering the breathing channel 101e, i.e. the air entering the second channel section e2 will still carry heat and water. In this embodiment, the hot and humid air leaking to the second passage section e2 is collected at the upper end of the second passage section e2 to condense out condensed water at the upper end of the second passage section e2, and the condensed water can be partially returned from the first passage section e1 to the communication port 101b, thereby further recovering the condensed water and the heat.
Further, the breathing passage 101e further includes a third passage section e3 extending from top to bottom, an upper end of the third passage section e3 is communicated with a lower end of the second passage section e2, and the lower end of the third passage section e3 is provided with the breathing opening 101 a. In this embodiment, the third channel segment e3 extends downward from the lower end of the second channel segment e2, and the lower end of the third channel segment e3 extends downward beyond the lower side of the communication port 101b, and the breathing port 101a is disposed at the lower end of the third channel segment e3, which is favorable for positioning the breathing port 101a at the lower side of the communication port 101 b. Optionally, the channel width of the third channel segment e3 is greater than the channel width of the second channel segment e 2; it will be appreciated that the larger the channel width, the larger the channel space, and the larger the channel space is for facilitating the exchange of airflow breath at the breathing opening 101 a.
Further, an insect prevention structure 101g is arranged in the third channel segment e3, so that the insect prevention structure 101g can limit the insects such as cockroaches from entering the communication opening 101b through the breathing channel 101e, and the insects such as cockroaches can be limited from entering the washing chamber 20 through the breathing opening 101 a.
Further, the insect-proof structure 101g includes a plurality of insect-proof ribs g1 arranged at intervals in the extending direction of the third channel segment e 3. It can be understood that the pest prevention blocking rib g1 can block insects such as cockroaches and prevent the insects such as the cockroaches from passing through the breathing channel 101 e; in addition, the insect-proof rib g1 is simple in structure and easy to prepare and implement. Of course, in other embodiments, the insect-proof structure 101g may further include other structures such as an insect-proof net disposed in the third channel segment e 3.
For the technical scheme of arranging a plurality of insect-proof blocking ribs g1, further, one end of the insect-proof blocking rib g1 is connected with the channel side wall of the third channel segment e3, and a gap is formed between the other end of the insect-proof blocking rib g1 and the channel side wall of the third channel segment e3 to form a breathing gap; in addition, in the extending direction of the third channel segment e3, any two adjacent insect-proof blocking ribs g1 are arranged in a staggered manner, so that the crawling direction of insects such as cockroaches needs to be changed continuously if the insects such as cockroaches pass through the multiple insect-proof blocking ribs g1, and the passing difficulty of the insects such as cockroaches can be effectively improved.
Furthermore, in the three arbitrary adjacent protection against insects muscle g1, be located the protection against insects muscle g1 in the middle of being close to the breathing gap one end stretch into the remaining two protection against insects muscle g1 forms in the space to make the protection against insects structure 101g that a plurality of protection against insects muscle g1 formed more have the puzzlement nature, can increase the difficulty that insects such as cockroaches pass through breathing passageway 101 e.
Further, the cross section of the third channel segment e3 perpendicular to the extending direction thereof is rectangular, and one end and two sides of the insect-proof blocking rib g1 are connected with the channel wall of the breathing channel 101 e; therefore, on one hand, all gaps except the breathing gap are eliminated, the probability that insects such as cockroaches pass through the breathing channel 101e can be reduced, and on the other hand, the structural strength of the third channel segment e3 is enhanced. It is understood that the rectangular shape here means that the third channel section e3 is substantially flat and has four side walls, the four side walls surround the channel side walls, and the vermin-proof barrier rib g1 is connected to three of the side walls at a distance from the remaining side walls.
Furthermore, one end of the insect-proof blocking rib g1 close to the breathing gap extends obliquely in a direction away from the breathing opening 101a, so that the length of the single insect-proof blocking rib g1 can be increased, and the effective length of the insects such as cockroaches to pass through is increased; on the other hand, when insects such as cockroaches pass through the obliquely extending insect-proof blocking rib g1, the insect-proof blocking rib tends to slide downwards, so that the insect-proof blocking rib is not beneficial to standing of the insects such as cockroaches, and the difficulty of the insects such as cockroaches in passing is further improved.
Further, the width w2 of at least one of the breathing gaps is smaller than the width w1 of the breathing opening 101a (see fig. 4); even if some insects pass through the breathing port 101a, they cannot pass through the small breathing gap and cannot enter the communication port 101 b. Optionally, the width of each breathing gap is smaller than the width of the breathing opening 101 a. Typically, at least, the width of the breathing gap near the breathing opening 101a is smaller than the width of the breathing opening 101 a. Further, the width of the breathing gap gradually decreases from the direction away from the breathing opening 101 a; it is understood that, gradually decreasing here means that for any two adjacent breathing gaps, the width of the breathing gap farther than the breathing opening 101a is smaller than the width of the breathing gap closer than the breathing opening 101a, so as to gradually limit the passage of insects with different volume sizes, and prevent a large amount of insects from blocking one breathing gap and affecting the breathing smoothness of the respirator 1.
The invention further provides a dishwasher, which comprises a machine body and a respirator, the specific structure of the respirator refers to the above embodiments, and the dishwasher adopts all the technical schemes of all the above embodiments, so that the dishwasher at least has all the beneficial effects brought by the technical schemes of the above embodiments, and the detailed description is omitted. The washing machine comprises a machine body, a washing cavity, a water inlet, a water outlet, a water inlet pipe, a water outlet pipe and a water outlet pipe, wherein the machine body is internally provided with the washing cavity, and the wall of the machine body is provided with a through hole which penetrates through the through hole; the respirator is arranged on the machine body, and a communication port of the respirator is communicated with the washing cavity through the through hole.
The above description is only a preferred embodiment of the present invention, and is not intended to limit the scope of the present invention, and all modifications and equivalents of the present invention, which are made by the contents of the present specification and the accompanying drawings, or directly/indirectly applied to other related technical fields, are included in the scope of the present invention.
Claims (14)
1. A respirator for a dishwasher, the dishwasher comprising a body in which is provided a washing chamber, the respirator comprising:
the casing, inject the water inlet passage in the casing, the extension path of water inlet passage with the casing restricts out the regeneration water chamber jointly, the regeneration water chamber is equipped with the regeneration water export, the regeneration water export is used for communicating with the salt chamber of water softener.
2. The respirator of claim 1, wherein the water inlet passage comprises a water inlet section and a water outlet section, wherein the upper end of the water inlet section is connected with the upper end of the water outlet section, the lower end of the water inlet section is provided with a first water inlet for connecting with raw water, and the lower end of the water outlet section is provided with a first water outlet for communicating with the resin cavity of the water softener; the water inlet section and the water outlet section are at least partially arranged at intervals, and the regeneration water cavity is positioned between the water inlet section and the water outlet section.
3. The respirator of claim 2, wherein the first water inlet and the first water outlet are both disposed at a lower end of the housing; and/or the presence of a gas in the gas,
the upper end of the water inlet section and the upper end of the water outlet section are both close to the upper end of the shell.
4. The respirator of claim 1, wherein the inlet channel extends at least partially in a serpentine configuration.
5. The respirator of claim 4, wherein the plurality of portions of the inlet passage extend in a serpentine manner.
6. The respirator of claim 1, wherein the housing further defines a drain passage within the housing, at least a portion of the water inlet passage sharing a passage wall with the drain passage.
7. The respirator of claim 1, further comprising an air chamber, a drain passage, and an equilibrium air pressure passage in communication with the drain passage, the air chamber being provided with a breathing port for communicating with the atmosphere and a communication port for communicating with the washing chamber, a one-way valve being provided between the equilibrium air pressure passage and the air chamber, the one-way valve being in communication from the air chamber toward the equilibrium air pressure passage;
at least a portion of the water inlet channel shares a channel wall with the equilibrium gas pressure channel.
8. The respirator of claim 6 or 7, wherein the housing further defines a water storage chamber, the water storage chamber is provided with a second water inlet for communicating with the water softener resin chamber and a second water outlet for communicating with the washing chamber, and water flowing out of the first water outlet flows into the water storage chamber from the second water inlet through the water softener resin chamber; a water passing channel for communicating the water storage cavity with the regeneration water cavity is further defined in the shell;
the drainage channel and the water storage cavity are respectively arranged on two opposite sides of the water inlet channel.
9. The respirator of claim 1, further comprising an air chamber defined within the housing, the air chamber having a breathing port for communicating with the atmosphere, a communication port for communicating with the washing chamber, and a steam passage communicating the communication port with an upper portion of the air chamber;
the water inlet channel at least partially shares a channel wall with the steam channel.
10. The respirator of claim 1, further defining within the housing an air chamber provided with a breathing port for communicating with the atmosphere and a communication port for communicating with the washing chamber, and a water storage chamber provided with a second water inlet for communicating with a water softener resin chamber and a second water outlet for communicating with the washing chamber, water flowing out of the first water outlet passing through the water softener resin chamber from the second water inlet into the water storage chamber; a water passing channel for communicating the water storage cavity with the regeneration water cavity is further defined in the shell;
the air chamber with the water storage chamber is located inhalant canal's opposite both sides.
11. The respirator of claim 10, wherein the water inlet passage comprises a water inlet section and a water outlet section, wherein the upper end of the water inlet section is connected with the upper end of the water outlet section, the lower end of the water inlet section is provided with a first water inlet for connecting with raw water, and the lower end of the water outlet section is provided with a first water outlet for communicating with the water softener resin cavity;
the water inlet section and the water outlet section are at least partially close to each other and extend in parallel, and the water inlet section and the water outlet section which are close to each other and parallel to each other are at least partially arranged towards the air cavity in a protruding mode.
12. The respirator of claim 10, wherein an upper portion of the air chamber communicates with an upper end of the water storage chamber.
13. The respirator of claim 1, wherein the inlet passage comprises a percentage of the volume within the housing that is greater than or equal to 3%.
14. A dish washing machine is characterized by comprising a machine body, wherein a washing cavity is arranged in the machine body, a through hole is formed in the wall of the machine body in a penetrating mode, and the through hole is communicated with the washing cavity; and
a respirator as claimed in any one of claims 1 to 13 mounted to said body, said communication port communicating with said wash chamber through said through hole.
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CN202110093000.0A CN112716421A (en) | 2021-01-22 | 2021-01-22 | Respirator and dish washing machine |
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