CN218528672U - Breathe soft system and cleaning machine - Google Patents

Abstract

The invention relates to a respiratory system, which comprises a flat shell, wherein the shell is provided with a water inlet and a water outlet, and the shell comprises a respirator unit and a water softener unit; the respirator unit comprises a water inlet flow channel connected with the water inlet; the water softener unit comprises a resin cavity and a saline cavity which are separated by a partition plate, and the upper part of the partition plate is provided with a communication port for communicating the resin cavity and the saline cavity; the resin cavity comprises a resin channel which is continuously bent in an S shape, ion exchange resin is arranged in the resin channel, and the tail end of the resin channel is connected with the water outlet; and a switching valve which can switch and communicate the resin cavity and the saline cavity is arranged on the water inlet channel. The exhale soft system is arranged on the side walls of other devices in a flat state, so that the space is saved, and meanwhile, the softening efficiency and the regeneration efficiency can be improved. The utility model discloses still relate to a cleaning machine, including the inner bag and as aforesaid exhale soft system, the attached setting of casing is on the lateral wall of inner bag, offers the supply opening that docks mutually with the delivery port on the lateral wall on the inner bag.

Description

Breathe soft system and cleaning machine

Technical Field

The invention relates to a soft calling system and a cleaning machine using the soft calling system.

Background

Present belt cleaning device such as cleaning machine, in order to guarantee its normal work, guarantee its abluent cleanliness factor simultaneously, can set up water softener and respirator to the cleaning machine usually, wherein the water softener can carry out softening treatment to intaking, remains water stain on the article after avoiding wasing, and the respirator then is used for realizing functions such as the inside and outside atmospheric pressure of cleaning machine cavity is balanced, the flow control of intaking.

The existing respirator is usually placed on the side wall of the inner container in the area close to the base and is connected with a water softener. Because only the functions of balancing air pressure, detecting water inflow and preventing siphonage need to be kept, the designed area is small, and the function is simple. The existing water softener needs to soften the inlet water of each channel and regenerate failed resin, so that the channel design is complex, and the volume is large because a large amount of resin needs to be stored. Therefore, a large space arrangement is required to meet the requirements of both. However, because these structures are disposed in the base of the cleaning machine, the space limitation is severe, and usually, the resin cavity is a simple cylindrical structure, such as a cylinder, and the path of water flowing through the water softener is simple, and the softening and regeneration efficiency cannot be improved to a greater extent.

In addition, the cleaning machine can heat and wash when carrying out cleaning operation for cleaning machine inner bag lateral wall temperature is higher, and for preventing to interfere, the one side that sets up the respirator structure does not set up the pitch damping usually and keeps warm, and a large amount of heat do not have the end dissipation, do not realize retrieving, is unfavorable for realizing further energy-conservation.

Disclosure of Invention

The first technical problem to be solved by the present invention is to provide a breathing soft system which can be disposed on the side wall of other devices in a flat state, save space, and improve the softening and regeneration efficiency.

The second technical problem to be solved by the present invention is to provide a cleaning machine which does not occupy extra base space, has water inlet softening efficiency and higher resin regeneration efficiency.

The technical scheme adopted by the invention for solving the first technical problem is as follows: a soft call system, comprising: the water softener comprises a flat shell, wherein a water inlet and a water outlet are formed in the shell, and a respirator unit and a water softener unit are arranged in the shell;

the respirator unit comprises a water inlet flow channel connected with a water inlet;

the water softener unit comprises a resin cavity and a saline cavity which are isolated by a partition plate, and the upper part of the partition plate is provided with a communication port for communicating the resin cavity and the saline cavity; the resin cavity comprises a resin channel which is continuously bent in an S shape, ion exchange resin is arranged in the resin channel, and the tail end of the resin channel is connected with the water outlet; and the water inlet runner is provided with a switching valve which can switch and communicate the resin cavity and the saline cavity.

In order to conveniently realize the monitoring of the inflow flow, a water flow sensor is arranged at the water inlet end of the inflow runner.

In order to effectively exert the function of balancing air pressure, the shell is also provided with a first breathing port which can be communicated with other devices and a second breathing port which is communicated with the outside air; the respirator unit also comprises a condensation channel, the lower end of the condensation channel is communicated with the first breathing port, and the upper end of the condensation channel is communicated with the second breathing port.

In order to save the space that sets up in the casing, guarantee sufficient condensation route simultaneously, and then reach better condensation effect, first breathe the mouth and be close to casing left side edge and set up the lower part at the casing, the second breathes the mouth and is close to casing right side edge and set up the upper portion at the casing, condensation channel extends the setting along the edge of casing.

In order to improve the condensation effect, a plurality of ribs which are arranged in a staggered mode are arranged in the condensation channel, so that an S-shaped continuous and curved path is formed in the condensation channel.

In order to make the most of the space in the case, a more abundant installation space is provided for the water softener unit, the water inlet is provided at the bottom of the case, and the water inlet flow passage extends along the edge of the case and is located inside the condensation passage.

Preferably, the water inlet channel comprises an anti-siphon section which is arranged in a bent mode.

The structure is simple, the reliability of switching the water flowing to the saline water cavity or the resin cavity can be effectively improved, the tail end of the water inlet flow channel is positioned at the communication port, and the tail end of the water inlet flow channel is also connected with a water injection channel extending to the saline water cavity; the tail end of the water inlet flow channel faces the resin cavity and is further provided with a through hole, and the switching valve is close to the through hole and can be opened and closed.

In order to better guide the flow path of the resin cavity entering from the through hole, the entering water flow can start to flow from the starting end of the resin cavity so as to improve the full utilization of the resin at the starting end position, and a guide rib guiding to the communication hole is arranged at the position, close to the through hole, in the resin cavity.

In order to facilitate a user to add salt into the saline cavity of the shell, the shell is further provided with a salt adding port, and a salt adding channel communicated with the salt adding port is arranged in the saline cavity. Add the salt passageway and can follow vertical setting at the edge of casing, so can be more nearly apart from adding the salt mouth, and the direction salt that can be better enters into the salt water intracavity.

In order to enable the added softened salt to slowly descend along the salt adding channel, the sufficient contact degree of the salt and the water is improved, and the solubility and the dissolving efficiency of the salt in the water are improved, the guide plates which are arranged in the salt adding channel in a staggered mode and are inclined downwards.

In order to conveniently control the on-off of the water outlet, a switch valve capable of switching the water outlet is further arranged on the shell.

Preferably, the resin chamber and the saline chamber are arranged at left and right intervals by a partition plate.

The technical scheme adopted by the invention for solving the second technical problem is as follows: a cleaning machine, including having the inner bag that washs the chamber, its characterized in that: the breathing soft system is characterized in that the breathing soft system is further included, the shell is attached to the side wall of the inner container, and a water supply port which is in butt joint with the water outlet is formed in the side wall of the inner container.

Compared with the prior art, the invention has the advantages that: the utility model provides a breathe soft system, respirator unit and the integrative setting of water softener unit wholly adopt the shell structure of platykurtic, so conveniently use on the lateral wall of device, saved installation space. The soft calling system does not need to occupy the installation space in the base, releases the installation space in the base in the device and is beneficial to the space design of other structures in the base in the device. Based on the characteristic that the space of the resin cavity is relatively small due to the flat structure, if the resin channel which is S-shaped and continuously bent is arranged in the resin cavity, and resin is arranged in the resin channel with the structure, the resin quantity can be ensured, meanwhile, the contact area of water and the resin can be increased, the contact path of the water and the resin is prolonged, the soft water efficiency of the resin is improved, and the regeneration efficiency of the resin is improved.

In addition, the soft exhaling system can be used on the side wall of the device based on the structure of the soft exhaling system, and can also effectively absorb heat released by the side wall of the device even if the side wall of the device is not provided with a heat insulation structure, and the soft exhaling system is used for the device when in use, so that energy conservation is realized.

The cleaning machine using the breath soft system has high softening efficiency based on the breath soft system, so that the cleaning effect is better. Based on the heat availability of the soft calling system, heat energy saving is realized. Based on the relative installation relation of the two, the installation space at the bottom of the inner container is saved.

Drawings

Fig. 1 is a perspective view of a soft call system in an embodiment of the present invention.

Fig. 2 is an internal structural diagram of a soft calling system in the embodiment of the invention.

Fig. 3 is a structural diagram of the installation of the soft calling system on the cleaning machine in the embodiment of the invention.

Detailed Description

The invention is described in further detail below with reference to the accompanying examples.

As shown in fig. 1 and 2, the respiratory system in the present embodiment includes a flat casing 100, a water inlet 101 and a water outlet 102 are provided on the casing 100, and a respirator unit and a water softener unit are included in the casing 100, wherein the respirator unit is used for functioning as a respirator in the prior art. The water softener unit plays the role of the water softener in the prior art, namely, softening water, adsorbing metal ions such as calcium and magnesium in the water and simultaneously regenerating resin particles playing a softening role in the water so as to recover the softening role of the water.

Specifically, the breather unit includes a water inlet flow passage 1 and a condensation passage 6. Wherein the water inlet channel 1 is connected with a water inlet 101 on the housing 100, the water inlet 101 in this embodiment is arranged at the bottom, and the water inlet 101 can be connected with an external water source. The water inlet flow passage 1 is used to supply water into the water softener unit. In order to conveniently realize the monitoring of the inflow water flow, a water flow sensor 11 is arranged at the water inlet end of the inflow channel 1. The water inlet channel 1 comprises an anti-siphon section 12 which is arranged in a bending way, and the shape of the anti-siphon section 12 relates to the design of the anti-siphon channel in the prior art.

The condensation channel 6 is used for balancing air pressure, and the casing 100 is provided with a first breathing port 103 which can be communicated with other devices and a second breathing port 104 which is communicated with the outside air. The first breathing port 103 in this embodiment is connected to a purge vapor vent described below. The lower extreme and the first mouth 103 of breathing of condensing passage 6 are linked together, condensing passage 6's upper end and second mouth 104 of breathing are linked together, first mouth 103 of breathing can set up the below at second mouth 104 of breathing promptly usually, so do benefit to and upwards move and condense because of its self characteristic from the vapor that first mouth 103 got into in condensing passage 6 of breathing, the water of condensation can flow back to in the device from first mouth 103 of breathing, and the little vapor of noncondensation then discharges from second mouth 104 of breathing, and then reach atmospheric pressure balance, the excessive risk of vapor has been reduced.

In order to save the space in the casing 100 and ensure a sufficient condensation path, thereby achieving a better condensation effect, the first breathing port 103 in this embodiment is disposed at the lower portion of the casing 100 near the left side edge of the casing 100, the second breathing port 104 is disposed at the upper portion of the casing 100 near the right side edge of the casing 100, and the condensation channel 6 extends along the edge of the casing 100, so that the condensation channel 6 is longest between the first breathing port 103 and the second breathing port 104. Simultaneously for further promoting the condensation effect to vapor, be equipped with a plurality of crisscross ribs 61 that set up in condensing channel 6 and make condensing channel 6 in form and be the route of S-shaped continuous bending, these ribs 61 can not only change the moving direction of vapor, can also improve the rising resistance of vapor, and then reach the purpose that promotes the condensation effect, reduce the outer row of vapor as far as, promoted user experience.

In order to fully utilize the space in the casing 100, the water inlet 101 is disposed at the bottom of the casing 100, and the water inlet channel 1 extends along the edge of the casing 100 and is located at the inner side of the condensation channel 6, so that the space in the casing 100 can be fully utilized, the waste of space is avoided, and a more abundant setting space is provided for the water softener unit to meet the functional realization of the water softener unit.

The water softener unit comprises a resin cavity 3 and a brine cavity 4 which are separated by a partition plate 2, the distribution positions of the resin cavity 3 and the brine cavity 4 are specifically set according to requirements, and in the embodiment, the resin cavity 3 and the brine cavity 4 are preferably arranged at left and right intervals by the partition plate 2. This facilitates the design of the water flow paths within each chamber.

The upper portion of baffle 2 is seted up the intercommunication mouth 21 that communicates resin chamber 3 and salt solution chamber 4, so conveniently when carrying out resin regeneration, the strong brine in salt solution chamber 4 can enter into in the resin chamber 3 through intercommunication mouth 21.

Wherein resin chamber 3 is including being the resin passageway 31 of the continuous crooked setting of S-shaped, be equipped with ion exchange resin 32 in the resin passageway 31, concretely, utilize the crisscross setting of the protruding muscle of horizontal setting, and then form the continuous complete resin passageway 31 of S-shaped, set up a resin unit that includes ion exchange resin 32 between per two adjacent protruding muscle, so then set up a plurality of resin units in resin passageway 31, these resin units have guaranteed required ion exchange resin 32, this structure has also promoted water and ion exchange resin 32' S exchange area simultaneously, the softening has been promoted, regeneration efficiency.

The end of the resin passage 31 is connected to a water outlet 102 for discharging water softened by the resin, and the water outlet 102 is connected to a water supply port of an external device so as to discharge the softened water to the external device. Of course, during the regeneration process, the waste water discharged from the regeneration process can enter the external device through the water outlet 102 and be discharged through the drainage system of the external device. In order to control the on-off of the water outlet 102, a switch valve 106 for opening and closing the water outlet 102 is further disposed on the housing 100. When the external device needs to intake water, the on-off valve 106 is controlled to operate to open the water outlet 102, and when the external device finishes the water intake and needs to work, the on-off valve 106 is controlled to operate to close the water outlet 102. For the following cleaning machine, when the cleaning machine works, the shell 100 of the breathing soft system is filled with water, the cleaning process of the cleaning machine is usually heated and cleaned, in the cleaning process, the heat in the inner container 200 is dissipated to the shell 100 of the breathing soft system through the side wall, the shell 100 can absorb the heat to heat the water in the shell, and the heated water can be used in the next cleaning process of the cleaning machine, so that the heat is reused, and the heating energy consumption of the cleaning machine is reduced.

The water inlet flow passage 1 is provided with a switching valve 5 which can switch and communicate the resin cavity 3 and the salt water cavity 4, when the softening working chamber is carried out, the switching valve 5 switches the water inlet flow passage 1 to be communicated with the resin cavity 3, and when the resin regeneration working is carried out, the switching valve 5 switches the water inlet flow passage 1 to be communicated with the salt cavity. Simple structure ground, and can effectively improve the reliability of the switching that water flows to the saline chamber 4 or resin chamber 3 in, the end of inlet channel 1 is located intercommunication mouth 21 department, and the end of inlet channel 1 still is connected with the water injection passageway 41 that extends to the saline chamber 4. The tail end of the water inlet flow channel 1 faces the resin cavity 3 and is further provided with a through hole 13, and the switching valve 5 is arranged close to the through hole 13 and can open and close the through hole 13.

In order to better guide the flow path of the resin chamber 3 entering from the through hole 13, so that the entering water flow can start to flow from the starting end of the resin chamber 3 to improve the full utilization of the resin at the starting end position, a guide rib 33 guiding to the communication hole 13 is arranged at a position close to the through hole 13 in the resin chamber 3. After the through hole 13 is opened, the water flowing in from the through hole 13 flows to the initial position of the resin cavity 3 under the action of the guide rib 33, so that the water flow can gradually flow downstream from the initial position of the resin cavity 3, and the contact sufficiency of the water flow and the resin is ensured.

In order to facilitate a user to add salt into the saline water cavity 4 of the housing 100, the housing 100 is further provided with a salt adding port 105, and the saline water cavity 4 is internally provided with a salt adding passage 42 communicated with the salt adding port 105. The salting channel 42 in this embodiment may be vertically disposed at the edge of the housing 100, which may be both closer to the salting port 105 and better direct the salt into the saline chamber 4.

In order to make the added softened salt slowly descend along the salt adding channel 42, so as to improve the sufficient contact degree of the salt with water and improve the solubility and dissolving efficiency of the salt in the water, the guide plates 421 which are arranged in the salt adding channel 42 in a staggered mode and are inclined downwards are arranged.

The soft calling system comprises the following working processes: when the water softening operation is required, the switching valve 5 is controlled to operate to open the through hole 13, water supplied by the water source enters the water inlet channel 1 in the shell 100 from the water inlet 101, the water enters the resin cavity 3 through the through hole 13 on the water inlet channel 1, the water flowing through is softened under the action of the ion exchange resin 32 in the resin cavity 3, and the softened water is supplied to an external device through the water outlet 102. When ion exchange resin 32 in resin chamber 3 needs to be regenerated, when the brine concentration in brine chamber 4 does not reach the standard, remind the user to add salt, the user can add salt through salt adding port 105, add salt and enter brine chamber 4 through salt adding passage 42, dissolve in brine chamber 4 and form the strong brine. At the same time, the switching valve 5 is controlled to operate to close the through hole 13, so that water entering from the water inlet 101 enters the brine cavity 4 through the water injection channel 41, the concentrated brine is pressed into the resin cavity 3 through the communication port 21, the ion exchange resin 32 in the resin cavity 3 is regenerated, and after the regeneration is completed, the switch valve 106 is controlled to open the water outlet 102, and the waste brine is discharged outwards.

The utility model provides a breathe soft system, respirator unit and the integrative setting of water softener unit wholly adopt the casing 100 structure of platykurtic, so conveniently use on the lateral wall of device, saved installation space. The soft calling system does not need to occupy the installation space in the base, releases the installation space in the base in the device and is beneficial to the space design of other structures in the base in the device. Based on the characteristic that the space of the resin cavity 3 is relatively small due to the flat structure, in the invention, the resin channel 31 which is S-shaped and continuously bent is arranged in the resin cavity 3, and if the resin is arranged in the resin channel 31 with the structure, the resin amount can be ensured, meanwhile, the contact area of water and the resin can be increased, the contact path of the water and the resin can be prolonged, and the soft water efficiency of the resin and the regeneration efficiency of the resin can be improved.

In addition, the soft exhaling system can be used on the side wall of the device based on the structure of the soft exhaling system, and can also effectively absorb heat released by the side wall of the device even if the side wall of the device is not provided with a heat insulation structure, and the soft exhaling system is used for the device when in use, so that energy conservation is realized.

As shown in fig. 3, the present invention further relates to a cleaning machine, which comprises an inner container 200 having a cleaning cavity, and further comprises a breathing soft system as mentioned above, wherein the inner container 200 is generally provided with a casing, the lower portion of the inner container 200 is provided with a base, and the base is connected with the casing to jointly form a cleaning machine structure. The shell 100 of the respiratory system is attached to the sidewall of the inner container 200, and a water supply port butted with the water outlet 102 is opened on the sidewall of the inner container 200. The casing also encloses the expiration system, so that the expiration system becomes part of the washing machine. The salt adding port 105 in the breath system can be arranged on the shell of the washing machine, and when a user opens the door body of the inner container 200, the salt adding port 105 can be seen, so that the user can add salt inwards.

The cleaning machine using the soft expiration system has high softening efficiency based on the soft expiration system, so that the cleaning effect is better. Based on the heat availability of the soft calling system, heat energy saving is realized. Based on the relative installation relationship between the two, the installation space at the bottom of the inner container 200 is saved.

In this embodiment, the flow passages, channels, and the like in the casing 100 can be isolated and formed by ribs, rib plates, and the like on the inner wall of the casing 100.

Directional terms such as "front", "rear", "upper", "lower", "left", "right", "side", "top", "bottom", and the like are used in the description and claims of the present invention to describe various example structural parts and elements of the present invention, but these terms are used herein for convenience of description only and are determined based on example orientations shown in the drawings. Because the disclosed embodiments of the present invention may be oriented in different directions, the directional terms are used for descriptive purposes and are not to be construed as limiting, e.g., "upper" and "lower" are not necessarily limited to directions opposite to or coincident with the direction of gravity.

Claims (14)

1. A soft call system, comprising: the water softener comprises a flat shell (100), wherein a water inlet (101) and a water outlet (102) are formed in the shell (100), and a respirator unit and a water softener unit are arranged in the shell (100);

the respirator unit comprises a water inlet flow channel (1) connected with a water inlet (101);

the water softener unit comprises a resin cavity (3) and a saline water cavity (4) which are separated by a partition plate (2), and the upper part of the partition plate (2) is provided with a communication port (21) for communicating the resin cavity (3) with the saline water cavity (4); the resin cavity (3) comprises a resin channel (31) which is arranged in an S-shaped continuous bending mode, ion exchange resin (32) is arranged in the resin channel (31), and the tail end of the resin channel (31) is connected with the water outlet (102); and the water inlet channel (1) is provided with a switching valve (5) which can be switched to communicate the resin cavity (3) and the saline cavity (4).

2. The caller system of claim 1, wherein: and a water flow sensor (11) is arranged at the water inlet end of the water inlet flow channel (1).

3. The caller system of claim 1, wherein: the shell (100) is also provided with a first breathing port (103) which can be communicated with other devices and a second breathing port (104) which is communicated with the outside air; the respirator unit further comprises a condensation channel (6), the lower end of the condensation channel (6) is communicated with the first breathing port (103), and the upper end of the condensation channel (6) is communicated with the second breathing port (104).

4. The soft call system of claim 3, wherein: the first breathing port (103) is arranged at the lower part of the shell (100) close to the left side edge of the shell (100), the second breathing port (104) is arranged at the upper part of the shell (100) close to the right side edge of the shell (100), and the condensation channel (6) is arranged along the edge of the shell (100) in an extending way.

5. The soft call system of claim 3, wherein: a plurality of ribs (61) which are arranged in a staggered mode are arranged in the condensation channel (6) so that an S-shaped continuous bent path is formed in the condensation channel (6).

6. The soft call system of claim 4, wherein: the water inlet (101) is arranged at the bottom of the shell (100), and the water inlet flow channel (1) extends along the edge of the shell (100) and is positioned on the inner side of the condensation channel (6).

7. The soft call system of claim 6, wherein: the water inlet flow channel (1) comprises an anti-siphon section (12) which is arranged in a bending mode.

8. The softer-call system according to any one of claims 1 to 7, characterized in that: the tail end of the water inlet flow channel (1) is positioned at the communication port (21), and the tail end of the water inlet flow channel (1) is also connected with a water injection channel (41) extending into the saline water cavity (4); the tail end of the water inlet flow channel (1) faces the resin cavity (3) and is further provided with a through hole (13), and the switching valve (5) is close to the through hole (13) and can be opened and closed to the through hole (13).

9. The caller system of claim 8, wherein: and a guide rib (33) which guides to the communication hole (13) is arranged at a position close to the through hole (13) in the resin cavity (3).

10. The softer-call system according to any one of claims 1 to 7, characterized in that: still be equipped with on casing (100) and add salt mouth (105), be equipped with in salt cavity (4) and add salt passageway (42) that salt mouth (105) are linked together.

11. The soft call system of claim 10, wherein: guide plates (421) which are arranged in the salt adding channel (42) in a staggered mode and incline downwards.

12. The softer-call system according to any one of claims 1 to 7, characterized in that: the shell (100) is also provided with a switch valve (106) capable of switching the water outlet (102).

13. The softer-call system according to any one of claims 1 to 7, characterized in that: the resin cavity (3) and the saline cavity (4) are arranged at left and right intervals through the partition plate (2).

14. A washing machine comprising an inner container (200) with a washing chamber, characterized in that: the respiratory soft system as claimed in any one of claims 1 to 13, wherein the housing (100) is attached to a side wall of the inner container (200), and a water supply port connected with the water outlet (102) is formed on the side wall of the inner container (200).

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