CN109008881B - Respirator of dish-washing machine - Google Patents

Abstract

The respirator comprises a steam condensation channel, a water inlet channel and a water tank, wherein the steam condensation channel comprises a first condensation inner wall, a second condensation inner wall and a third condensation inner wall, the water inlet channel comprises a water inlet pipe wall, and the water inlet pipe wall, the second condensation inner wall and the third condensation inner wall are surrounded by three sides to form the water tank; the water tank is communicated with the water inlet channel, and the water tank is mutually bordered by the steam condensation channel and is respectively spaced by the second condensation inner wall and the third condensation inner wall. Aiming at the defects in the background technology, the invention provides a respirator of a dish-washing machine, and the water tank structure in the respirator is utilized to ensure that the steam condensation effect in the respirator is better.

Description

Respirator of dish-washing machine

Technical Field

The invention relates to the technical field of dish-washing respirators, in particular to a dish-washing respirator.

Background

The dish washer is the household electrical appliance for washing tableware, and common functions include washing, drying, disinfection, storage, water softening and the like, and the respirator is an important part of a medium-high end dish washer, and the respirator has the function of balancing the pressure of the inner container of the dish washer with the external pressure, and preventing the pressure of the inner container from rising caused by steam generated by the inner container during the drying operation step of the dish washer so as to ensure the safe use of the dish washer.

The existing dish-washing machine breather is used for treating steam condensation in a direct-discharge mode, so that a large amount of steam is directly discharged into a kitchen when the dish-washing machine is used, a large amount of condensation water drops are formed on the dish-washing machine shell, potential safety hazards exist, and the use is inconvenient.

Disclosure of Invention

Aiming at the defects in the background technology, the invention provides a respirator of a dish-washing machine, and the water tank structure in the respirator is utilized to ensure that the steam condensation effect in the respirator is better.

To achieve the purpose, the invention adopts the following technical scheme:

the respirator comprises a steam condensation channel, a water inlet channel and a water tank, wherein the steam condensation channel comprises a first condensation inner wall, a second condensation inner wall and a third condensation inner wall, the water inlet channel comprises a water inlet pipe wall, and the water inlet pipe wall, the second condensation inner wall and the third condensation inner wall are surrounded by three sides to form the water tank;

the water tank is communicated with the water inlet channel, and the water tank is mutually bordered by the steam condensation channel and is respectively spaced by the second condensation inner wall and the third condensation inner wall.

Preferably, the steam condensation channel comprises a third condensation channel, the third condensation channel comprises a third condensation inner wall and a respirator outer wall, and the third condensation inner wall comprises vertical condensation walls which are parallel to each other left and right and are vertically staggered and transverse condensation walls connecting the two vertical condensation walls in an end-to-end manner;

the joint of the transverse condensation wall and the vertical condensation wall forms an obtuse angle with radian;

every two horizontal condensation walls and one vertical condensation wall are mutually connected to form a groove, and the notch of the groove faces the outer wall of the respirator.

Preferably, a water tank check valve mounting groove is formed in the water tank, the water tank check valve mounting groove is formed in the second condensation inner wall, and the water tank check valve is mounted in the water tank check valve mounting groove.

Preferably, the steam condensation channel further comprises a first condensation channel and a second condensation channel, the first condensation channel comprises a first condensation inner wall, a first condensation outer wall and a liner steam port, and the first condensation inner wall and the first condensation outer wall are connected with the liner steam port to form the first condensation channel;

the second condensation channel comprises a second condensation inner wall and a second condensation outer wall, and the second condensation outer wall and the second condensation inner wall are mutually parallel to form the second condensation channel;

the first condensation channel is communicated with the second condensation channel, and the second condensation channel is communicated with the third condensation channel.

Preferably, the outer wall of the respirator is provided with a plurality of condensing plates, and the condensing plates are leveled with the middle of the notch of each groove; the upper surface of the condensation plate and the joint of the outer wall of the respirator form a condensation rib position, and the angle of the condensation rib position is larger than 90 degrees.

The bottom end of the third condensation channel is provided with a condensed water collecting port, the condensed water collecting port is externally connected with a water cup and/or a reflux pipe, and the reflux pipe is led to the inner container of the dish washer;

the right side of the condensed water collecting port is provided with the air outlet, and the air outlet is externally connected with an exhaust pipe;

the central axis of the opening of the condensed water collecting port and the tail end of the last condensing plate are on the same straight line, and the horizontal plane of the condensed water collecting port is lower than the horizontal plane of the air outlet, so that a height difference is formed.

Preferably, the water inlet channel comprises a water inlet and a water inlet pipe wall, a flowmeter is arranged at the water inlet, the water inlet pipe wall surrounds the steam port of the inner container to form an annular waterway, the water inlet is communicated with the head end of the annular waterway, and the tail end of the annular waterway is communicated with the water tank.

Preferably, the respirator further comprises a drainage channel, the drainage channel comprises a drainage water inlet, a drainage water outlet, a drainage waterway and an anti-siphon channel, the drainage water inlet is communicated with the drainage waterway, the drainage waterway is communicated with the drainage outlet, the anti-siphon channel is communicated with the drainage waterway, and a drainage check valve is arranged in the anti-siphon channel;

the drainage waterway comprises an ascending waterway and a descending waterway, the ascending waterway is communicated with the drainage water inlet, and the descending waterway is communicated with the drainage water outlet.

Preferably, an upper spray arm water inlet channel is arranged between the drainage channel and the first condensation channel, an upper spray arm water inlet is arranged at the bottom end of the upper spray arm water inlet channel, and an upper spray arm water outlet is arranged at the top end of the upper spray arm water inlet channel.

Preferably, the bottom of the water tank is provided with an electromagnetic valve and a water tank drain outlet, and the electromagnetic valve controls the water tank drain outlet to be closed.

Preferably, the second condensation outer wall is provided with a steam inlet, and the steam inlet is communicated with the junction of the first condensation channel and the second condensation channel.

The beneficial effects are that:

1. the water tank and the steam condensing channel are mutually bordered, and the water in the water tank is used for continuously cooling a plurality of condensing walls of the steam condensing channel, so that the steam in the steam condensing channel can be greatly condensed in the respirator, the optimal condensing effect is achieved, and a large amount of steam is discharged;

2. utilize third condensation inner wall tortuous structure and condensation plate structure, increase the condensation area of contact of steam, increase condensation effect for condensation effect of condensation structure reaches best, and then reduces a large amount of outer row of steam.

Drawings

FIG. 1 is a schematic illustration of the present invention in a respirator configuration;

fig. 2 is a schematic structural view of the third condensation channel 13 of the present invention.

Wherein: the steam condensing channel 1, the first condensing channel 11, the first condensing outer wall 111, the first condensing inner wall 112, the liner steam port 113, the second condensing channel 12, the second condensing inner wall 121, the second condensing outer wall 122, the third condensing channel 13, the third condensing inner wall 131, the vertical condensing wall 1311, the horizontal condensing wall 1312, the respirator outer wall 132, the groove 133, the condensing plate 134, the condensation rib 135, the condensed water collecting port 136, the air outlet 137, the water inlet channel 2, the water inlet 21, the water inlet pipe wall 22, the flowmeter 23, the annular waterway 24, the water drain channel 3, the water drain water inlet 31, the water drain water outlet 32, the water drain waterway 33, the ascending waterway 331, the descending waterway 332, the anti-siphon channel 34, the water drain check valve 35, the water tank 4, the water tank check valve mounting groove 41, the water tank check valve 42, the electromagnetic valve 43, the water tank drain 44, the upper spray arm water inlet 5, the upper spray arm water inlet 51, the upper spray arm water outlet 52, the steam inlet 6.

Detailed Description

The technical scheme of the invention is further described below by the specific embodiments with reference to the accompanying drawings.

A respirator of a dishwasher with a water tank 4 structure of the embodiment is shown in fig. 1, and comprises a steam condensation channel 1, a water inlet channel 2 and a water discharge channel 3, wherein the steam condensation channel 1 comprises a first condensation inner wall 112, a second condensation inner wall 121 and a third condensation inner wall 131, the water inlet channel 2 comprises a water inlet pipe wall 22, and the water inlet pipe wall 22, the second condensation inner wall 121 and the third condensation inner wall 131 are circularly wound to form the water tank 4;

the water tank 4 is communicated with the water inlet channel 2, and the water tank 4 and the steam condensation channel 1 are mutually bordered and respectively separated by the second condensation inner wall 121 and the third condensation inner wall 131;

the water tank 4 is internally provided with a water tank check valve mounting groove 41, the water tank check valve mounting groove 41 is arranged on the second condensation inner wall 121, and the water tank check valve 42 is arranged in the water tank check valve mounting groove 41.

In the prior art, condensed steam in the respirator is generally cooled naturally and then discharged, but the condensed steam in the respirator is insufficient, and finally a large amount of steam is discharged out of the respirator, so that the condensation effect is poor.

In the embodiment, the water tank 4 is designed, and the water in the water tank 4 is utilized to fully condense steam, so that the steam can be largely condensed into water when the respirator is internally provided, and the situation that a large amount of steam is discharged is reduced.

The water tank 4 is formed by encircling and combining the water inlet pipe wall 22, the second condensation inner wall 121 and the third condensation inner wall 131, namely, the steam condensation channel 1 and the water tank 4 are only separated by the second condensation inner wall 121 and the third condensation inner wall 131, a large amount of steam is filled in the steam condensation channel 1, the second condensation inner wall 121 and the third condensation inner wall 131 are continuously cooled through the water tank 4, the effect of condensing a large amount of steam is achieved, meanwhile, an annular waterway 24 is formed between the water inlet pipe wall 22 and the first condensation outer wall 111, and the annular waterway 24 is used for supplementing water to the water tank 4, so that when the annular waterway 24 is used for water inlet, the temperature of the first condensation outer wall 111 is reduced, and the effect of cooling and condensing the steam in the steam condensation channel 1 is achieved.

The water tank check valve 42 in the water tank 4 is designed to prevent water in the water tank 4 from flowing back to the annular waterway 24 due to steam pressure, thereby achieving an anti-siphon effect.

Preferably, the steam condensation channel 1 includes a first condensation channel 11, a second condensation channel 12 and a third condensation channel 13, the first condensation channel 11 includes a first condensation inner wall 112, a first condensation outer wall 111 and a liner steam port 113, and the first condensation inner wall 112 and the first condensation outer wall 111 are connected with the liner steam port 113 to form the first condensation channel 11;

the second condensation channel 12 includes a second condensation inner wall 121 and a second condensation outer wall 122, and the second condensation outer wall 122 and the second condensation inner wall 121 are parallel to each other to form the second condensation channel 12;

the first condensation channel 11 is in communication with the second condensation channel 12, and the second condensation channel 12 is in communication with the third condensation channel 13.

The main inlet of steam is at inner bag steam port 113, and inner bag steam port 113 communicates with the inner bag, and the steam in the inner bag can get into first condensation channel 11 through inner bag steam port 113, then gets into second condensation channel 12 along first condensation channel 11, finally gets into third condensation channel 13, realizes the effect of three times condensation respectively in three sections condensation channel for steam can be by a large amount of condensation in the respirator, improves the condensation effect.

Preferably, as shown in fig. 2, the third condensation channel 13 is composed of a third condensation inner wall 131 and a respirator outer wall 132, where the third condensation inner wall 131 includes vertical condensation walls 1311 parallel to each other and arranged in a vertically staggered manner, and a transverse condensation wall 1312 connecting the two vertical condensation walls 1311 from end to end;

the junction of the horizontal condensation wall 1312 and the vertical condensation wall 1311 forms an obtuse angle with radian;

each two of the transverse condensation walls 1312 and one of the vertical condensation walls 1311 are engaged with each other to form a recess 133, and the notch of the recess 133 faces the outer wall 132 of the respirator.

In this embodiment, the third condensation channel 13 formed by the third condensation inner wall 131 and the outer wall 132 of the respirator is used to fully implement condensation of steam, and the meandering structure of the third condensation inner wall 131 is utilized to make the steam continuously contact with the ice-cold third condensation inner wall 131 in the process of the third condensation channel 13, and the third condensation inner wall 131 is continuously cooled by the water tank 4 due to being bordered by the water tank 4, so that hot steam is continuously cooled and condensed into water drops, and then flows to the bottom end of the third condensation channel 13 along the third condensation inner wall 131, and the joint of the transverse condensation wall 1312 and the vertical condensation wall 1311 forms a certain obtuse angle, so that a certain gradient exists in the transverse condensation wall 1312, and the obtuse angle with radian is also used to facilitate the water drops after condensation to flow down along the third condensation inner wall 131, so as to prevent the water drops from directly dropping to the bottom end of the third condensation channel 13 to form a water curtain to block the passing of steam. In fig. 1, arrows indicate the flow direction of steam.

The groove 133 is designed to increase the contact area between the steam and the third condensation inner wall 131, so as to accelerate the cooling condensation of the steam and achieve the effect of full condensation of the steam.

Preferably, the respirator outer wall 132 is provided with a plurality of condensing panels 134, the condensing panels 134 being level with the middle of the notch of each groove 133; the junction of the condensation plate 134 and the outer wall 132 of the respirator forms a condensation rib 135, and the angle of the condensation rib 135 is greater than 90 degrees.

The condensation plate 134 is designed to increase the contact area with the ice-cooled condensation wall when the steam falls, so as to cool and condense, and the other is designed to cooperate with the groove 133, so that the steam can be reflected into the groove 133 when the steam falls, thereby accelerating the condensation effect, and meanwhile, a certain amount of condensed water is carried, so that the condensed water can flow along the condensation plate 134 without forming a water curtain to block the passage of the steam.

The angle of the condensation rib 135 is greater than 90 degrees to make the condensation plate 134 have a certain gradient, so that the condensed water can fall along the condensation plate 134, and at the same time, provide a reflection effect for the steam entering the groove 133.

Preferably, the bottom end of the third condensation channel 13 is provided with a condensed water collecting port 136, the condensed water collecting port 136 is externally connected with a water cup or a reflux pipe, and the reflux pipe is led to the inner container of the dish washer; the condensed water collecting port 136 may collect condensed water in the third condensing channel 13, drain to a water cup, then pour, or drain to a return pipe, and flow to a dishwasher liner for recycling.

The right side of the condensed water collecting port 136 is provided with the air outlet 137, and the air outlet 137 can be externally connected with an exhaust pipe; the steam condensing channel 1 can sufficiently condense a large amount of steam, but a small amount of steam is discharged, so that the condensed water is not accumulated on the outer wall of the dish washer, and an exhaust pipe can be externally connected to discharge the steam to a reasonable position through the exhaust pipe.

The center of the opening of the condensed water collecting port 136 is on the same line with the end of the last condensing plate 134, and the horizontal plane of the condensed water collecting port 136 is lower than the horizontal plane of the air outlet 137, forming a height difference.

The condensed water collecting port 136 is to collect condensed water, so that a certain height difference exists between the condensed water collecting port and the air outlet 137, so that condensed water does not flow out from the air outlet 137.

Preferably, the water inlet channel 2 comprises a water inlet 21 and the annular wall, a flowmeter 23 is arranged at the water inlet 21, the water inlet pipe wall 22 surrounds the steam port 113 of the inner container to form an annular waterway 24, the water inlet 21 is communicated with the head end of the annular waterway 24, and the tail end of the annular waterway 24 is communicated with the water tank 4.

The water inlet 21 is externally connected with a tap water source, whether water in the water tank 4 is saturated or not can be known through the flowmeter 23, tap water enters from the water inlet 21, passes through the flowmeter 23 and the annular waterway 24 and finally flows into the water tank 4, and because the annular waterway 24 surrounds the steam port 113 of the inner container, some steam emitted from the steam port 113 of the inner container can be condensed by the annular waterway 24.

Preferably, the drain channel 3 includes a drain water inlet 31, a drain water outlet 32, a drain water channel 33 and an anti-siphon channel 34, the drain water inlet 31 is communicated with the drain water channel 33, the drain water channel 33 is communicated with the drain water outlet, the anti-siphon channel 34 is communicated with the drain water channel 33, and a drain check valve 35 is arranged in the anti-siphon channel 34;

the drain water inlet 31 is externally connected with a drain pump, the drain pump is mainly used for pumping some dirty water in the liner, the dirty water is conveyed to the drain water inlet 31 and is discharged from the drain water outlet 32 along the drain water channel 33, and the drain check valve 35 is used for preventing backflow in the drain water channel 33, so that an anti-siphon effect is achieved.

The drain water path 33 includes an ascending water path 331 and a descending water path 332, the ascending water path 331 is communicated with the drain water inlet 31, and the descending water path 332 is communicated with the drain water outlet 32.

The ascending waterway 331 and the descending waterway 332 are arranged because the drain water inlet 31 is externally connected with a drain pump, so that the dirty water entering from the drain water inlet 31 is prevented from being too much to be discharged from the drain water outlet 32 in time, thereby playing a buffering effect and enabling the dirty water to be smoothly discharged.

Preferably, an upper spray arm water inlet channel 5 is arranged between the water drain channel 3 and the first condensation channel 11, an upper spray arm water inlet 51 is arranged at the bottom end of the upper spray arm water inlet channel 5, and an upper spray arm water outlet 52 is arranged at the top end of the upper spray arm water inlet channel.

The water inlet 51 of the upper spray arm is externally connected with a water suction pump, the water outlet 52 of the upper spray arm is externally connected with the upper spray arm, and water is conveyed to the upper spray arm for spraying by using the water inlet channel 5 of the upper spray arm through water pumping.

Preferably, a solenoid valve 43 and a water tank drain 44 are provided at the bottom of the water tank 4, and the solenoid valve 43 controls the closing of the water tank drain 44.

The valve head of the solenoid valve 43 completely closes the tank drain port 44 when not activated, which corresponds to closing the tank drain port 44, but the valve head of the solenoid valve 43 is controlled to open the tank drain port 44, thereby draining water in the tank 4.

Preferably, the second condensation outer wall 122 is provided with a steam inlet 6, and the steam inlet 6 is communicated with the junction where the first condensation channel 11 and the second condensation channel 12 are mutually connected.

The steam inlet 6 is externally connected with the inner container, but only a small part of steam in the inner container can enter, and the steam entering through the steam inlet 6 can be condensed due to the fact that the steam inlet 6 is communicated with the steam condensing channel 1.

The technical principle of the present invention is described above in connection with the specific embodiments. The description is made for the purpose of illustrating the general principles of the invention and should not be taken in any way as limiting the scope of the invention. Other embodiments of the invention will be apparent to those skilled in the art from consideration of this specification without undue burden.

Claims (6)

1. A dishwasher respirator, characterized in that: the respirator comprises a steam condensation channel, a water inlet channel and a water tank, wherein the steam condensation channel comprises a first condensation inner wall, a second condensation inner wall and a third condensation inner wall, the water inlet channel comprises a water inlet pipe wall, and the water inlet pipe wall, the second condensation inner wall and the third condensation inner wall are surrounded by three sides to form the water tank;

the water tank is communicated with the water inlet channel, and the water tank and the steam condensation channel are mutually bordered and respectively separated by the second condensation inner wall and the third condensation inner wall;

the steam condensation channel comprises a third condensation channel, the third condensation channel comprises a third condensation inner wall and a respirator outer wall, and the third condensation inner wall comprises vertical condensation walls which are parallel to each other left and right and are vertically staggered and transverse condensation walls connecting the two vertical condensation walls in a head-tail mode;

the joint of the transverse condensation wall and the vertical condensation wall forms an obtuse angle with radian;

each two transverse condensation walls are mutually connected with one vertical condensation wall to form a groove, and the notch of the groove faces the outer wall of the respirator;

a water tank one-way valve mounting groove is formed in the water tank, the water tank one-way valve mounting groove is formed in the second condensation inner wall, and the water tank one-way valve is mounted in the water tank one-way valve mounting groove;

the steam condensation channel further comprises a first condensation channel and a second condensation channel, the first condensation channel comprises a first condensation inner wall, a first condensation outer wall and a liner steam port, and the first condensation inner wall and the first condensation outer wall are connected with the liner steam port to form the first condensation channel;

the second condensation channel comprises a second condensation inner wall and a second condensation outer wall, and the second condensation outer wall and the second condensation inner wall are mutually parallel to form the second condensation channel;

the first condensation channel is communicated with the second condensation channel, and the second condensation channel is communicated with the third condensation channel;

the outer wall of the respirator is provided with a plurality of condensing plates which are leveled with the middle of the notch of each groove; the joint of the upper surface of the condensing plate and the outer wall of the respirator forms a condensing rib position, and the angle of the condensing rib position is larger than 90 degrees;

the bottom end of the third condensation channel is provided with a condensed water collecting port, the condensed water collecting port is externally connected with a water cup and/or a reflux pipe, and the reflux pipe is led to the inner container of the dish washer;

an air outlet is formed in the right side of the condensed water collecting port, and the air outlet is externally connected with an exhaust pipe;

the central axis of the opening of the condensed water collecting port and the tail end of the last condensing plate are on the same straight line, and the horizontal plane of the condensed water collecting port is lower than the horizontal plane of the air outlet, so that a height difference is formed.

2. A dishwasher respirator according to claim 1, wherein:

the water inlet channel comprises a water inlet and a water inlet pipe wall, a flowmeter is arranged at the water inlet, the water inlet pipe wall surrounds the steam port of the inner container to form an annular waterway, the water inlet is communicated with the head end of the annular waterway, and the tail end of the annular waterway is communicated with the water tank.

3. A dishwasher respirator according to claim 1, wherein:

the respirator also comprises a drainage channel, wherein the drainage channel comprises a drainage water inlet, a drainage water outlet, a drainage waterway and an anti-siphon channel, the drainage water inlet is communicated with the drainage waterway, the drainage waterway is communicated with the drainage water outlet, the anti-siphon channel is communicated with the drainage waterway, and a drainage check valve is arranged in the anti-siphon channel;

the drainage waterway comprises an ascending waterway and a descending waterway, the ascending waterway is communicated with the drainage water inlet, and the descending waterway is communicated with the drainage water outlet.

4. A dishwasher respirator according to claim 3, wherein:

an upper spray arm water inlet channel is arranged between the drainage channel and the first condensation channel, an upper spray arm water inlet is arranged at the bottom end of the upper spray arm water inlet channel, and an upper spray arm water outlet is arranged at the top end of the upper spray arm water inlet channel.

5. A dishwasher respirator according to claim 1, wherein:

the bottom of the water tank is provided with an electromagnetic valve and a water tank water outlet, and the electromagnetic valve controls the water tank water outlet to be closed.

6. A dishwasher respirator according to claim 1, wherein:

the second condensation outer wall is provided with the steam inlet, the steam inlet intercommunication first condensation passageway with the juncture that the second condensation passageway links up each other.