CN110671806B - Anti-overflow drainage assembly, anti-overflow drainage device and mobile air conditioner - Google Patents

Abstract

The anti-overflow drainage assembly comprises a drainage pipe, a water receiving container is arranged on one side of the drainage pipe, a water retaining part is arranged inside the water receiving container, the water receiving container is divided into a first water receiving container and a second water receiving container, the first water receiving container is communicated with the drainage pipe, a first drainage port is formed in the second water receiving container, and a rotating part is arranged on the shell of the water receiving container. According to the invention, the water receiving container is divided into the first water receiving container and the second water receiving container through the water retaining part, meanwhile, the rotating part is arranged on the shell of the water receiving container, when water needs to be drained, only the drain pipe needs to be pulled upwards, then the plunger of the drain pipe is pulled out and connected with the water pipe, and finally the drain pipe needs to be pulled downwards to reset, so that the problem that residual water overflows and falls into the ground can be avoided, the technical bottleneck and pain point problems of the industry are solved, the consumer experience is improved, and the added value of the product is increased.

Description

Anti-overflow drainage assembly, anti-overflow drainage device and mobile air conditioner

Technical Field

The invention relates to the technical field of packaging structures, in particular to an anti-overflow drainage assembly, an anti-overflow drainage device and a mobile air conditioner.

Background

At present, mobile air conditioners in the market generally have three drainage modes for adapting to different use environments:

1. bottom drain (commonly called bottom manual drain): the water cooling device is suitable for the environment with lower humidity, stores water through the chassis, utilizes the condensate water cooling condenser after water atomization to satisfy the purpose of condensate water reuse, when the water yield reaches the water full protective water level or does not use the machine for a long time, needs to manually discharge the water of the chassis (or the water tank), needs to open the drainage rubber plug or the drainage cover at the bottom drainage nozzle during use, and then connects the drainage pipe to realize drainage.

2. Intermediate drainage (often called intermediate continuous drainage): the water receiving tray water outlet is suitable for the environment with higher humidity, the condensed water is directly discharged outwards through the water receiving tray water outlet in the middle, the water full protection of the chassis is avoided, the continuous work of the machine can be realized, the drainage rubber plug or the drainage cover at the bottom drainage nozzle is required to be opened during the use, and then the drainage is realized by connecting the drainage pipe.

3. Water pump drainage (commonly called automatic drainage): the water pump drainage device is suitable for long-term unattended machines or service environments and conditions needing to drain water to high places, a drainage rubber plug or a drainage cover at a drainage nozzle of the water pump needs to be opened during use, and then a drainage pipe is connected to realize drainage.

The above middle drainage has the problem that when a drainage rubber plug or a drainage cover is opened, residual condensed water overflows and falls into the ground.

Disclosure of Invention

One of the objects of the present invention is to provide an overflow preventing drainage assembly for preventing residual water from overflowing and falling to the ground after a drainage cover or a drainage rubber plug of a middle drainage nozzle is disassembled when a middle continuous drainage function is required.

The purpose of the invention is realized by the following technical scheme:

the anti-overflow drainage assembly comprises a drainage pipe, wherein a water receiving container is arranged on one side of the drainage pipe, a water retaining part is arranged inside the water receiving container and divides the water receiving container into a first water receiving container and a second water receiving container, the first water receiving container is communicated with the drainage pipe, the second water receiving container is provided with at least one first drainage port, and a shell of the water receiving container is provided with a rotating part. The water receiving container is divided into a first water receiving container and a second water receiving container by the water retaining part, the first water receiving container corresponds to a lower water opening of the middle water receiving tray, meanwhile, the shell of the water receiving container is provided with the rotating part, when the middle water discharging nozzle needs to be used for discharging water, the water discharging pipe only needs to be pulled upwards, the water receiving container can rotate around the rotating part to enable the water receiving container to incline, at the moment, the first water receiving container is higher than the second water receiving container, water flowing into the first water receiving container from the water receiving tray can flow to the second water receiving container through the water retaining part, water flowing into the second water receiving container can be discharged into the other water receiving tray below the middle water receiving tray through the first water discharging opening, then the plunger of the water discharging pipe is pulled out and connected with the water feeding pipe, finally, the water discharging pipe only needs to be pulled downwards to enable the water discharging pipe to reset, water flowing into the first water receiving container from the water receiving tray can flow into the container from the water pipe, the water receiving container, and the problem that residual water overflows and falls into the ground is avoided, the problems of technical bottlenecks and pain points of the industry are solved, the consumer experience is improved, and the added value of the product is increased.

Furthermore, the water retaining part is provided with at least one second water outlet, the second water outlet is lower than the first water receiving container, and the water retaining part is a water retaining plate. When the height of the second water outlet is lower than that of the first water receiving container, the water of the first water receiving container can be better ensured to flow into the second water receiving container smoothly.

Furthermore, the first water discharge opening is arranged at the bottom of the second water receiving container or on the side wall of the second water receiving container. The first water discharging opening is arranged at the bottom or the side wall of the second water receiving container, and can discharge water which flows into the second water receiving container from the first water receiving container into the other water receiving tray below the middle water receiving tray.

Further, the first water discharge opening is located at a lower height than the second water discharge opening. Can guarantee that the water flowing into the second water receiving container can not flow back into the first water receiving container.

Furthermore, the rotating part is arranged on the outer side wall of the first water receiving container or the outer side wall of the second water receiving container. The rotating part is arranged on the outer side wall, so that the water receiving container can rotate around the rotating part.

Furthermore, the rotating part comprises a rotating shaft and a limiting boss matched with the rotating shaft. The rotating shaft is used for rotating the water receiving container, and the limiting boss is used for limiting the water receiving container.

Furthermore, the rotation axis symmetry sets up on the lateral wall of first water receiving container, spacing boss symmetry sets up on the lateral wall of first water receiving container, or the rotation axis symmetry sets up on the lateral wall of second water receiving container, spacing boss symmetry sets up on the lateral wall of second water receiving container. The outer side wall of the first water receiving container or the outer side wall of the second water receiving container can ensure that the water receiving containers rotate around the rotating shaft.

Furthermore, the rotating part further comprises fixing plates symmetrically arranged on the rotating shaft, and the fixing plates are provided with rotating holes matched with the rotating shaft and limiting holes matched with the limiting bosses. The fixing plate is used for fixing the overflow-preventing drainage device inside the overflow-preventing drainage device.

Furthermore, a pipe orifice of the drain pipe is provided with threads, and the drain pipe is arranged in a square shape or a circular shape; the water receiving container is an arc cylinder or a square. The pipe orifice of the drain pipe is provided with a screw thread which can fix the drain cover.

The invention has the beneficial effects that: the invention relates to an anti-overflow drainage assembly, which comprises a drainage pipe, wherein one side of the drainage pipe is provided with an integrally formed water receiving container, a water retaining part is arranged inside the water receiving container to divide the water receiving container into a first water receiving container and a second water receiving container, the first water receiving container is communicated with the drainage pipe, the second water receiving container is provided with at least one first drainage port, and a shell of the water receiving container is provided with a rotating part. The water that flows into first water receiving container from the water collector can flow into second water receiving container through water retaining part, the water that flows into second water receiving container can discharge into another water receiving tray below middle water receiving tray through first drain port, then extract the plunger of drain pipe and connect the water pipe, it resets to only need to break off with the fingers and thumb downwards the drain pipe at last, the water that flows into first water receiving container from the water receiving tray will follow in the container of water pipe inflow dress, the ground problem has been avoided spilling over to fall into to residual water, solve trade technical bottleneck and pain point problem, improve consumer experience, increase the added value of product.

The second purpose of the invention is to provide an overflow-proof drainage device which avoids the defects in the prior art, the overflow-proof drainage device uses the overflow-proof drainage component, because the water-retaining part divides the water-receiving container into a first water-receiving container and a second water-receiving container, and the first water-receiving container corresponds to the water outlet of the middle water-receiving tray, and meanwhile, the shell of the water-receiving container is provided with a rotating part, when needing to use the middle water outlet for drainage, the water-receiving container only needs to be pulled upwards, the water-receiving container rotates around the rotating part to enable the water-receiving container to incline, at the moment, the first water-receiving container is higher than the second water-receiving container, the water flowing into the first water-receiving container from the water-receiving tray flows to the second water-receiving container through the water-retaining part, the water flowing into the second water-receiving container is drained into the other water-receiving tray below the middle water-receiving tray through the first water outlet, and then the plunger of the water draining pipe is pulled out and connected with the water pipe, at last, the drain pipe is only needed to be pulled downwards to reset the drain pipe, water flowing into the first water receiving container from the water receiving disc flows into the container filled with water from the water pipe, the problem that residual water overflows and falls into the ground is avoided, the problems of technical bottlenecks and pain points of the industry are solved, the consumer experience is improved, and the added value of products is increased.

The invention also aims to avoid the defects in the prior art and provide a mobile air conditioner which uses the anti-overflow drainage device, because the water-retaining part divides the water-receiving container into a first water-receiving container and a second water-receiving container, the first water-receiving container corresponds to the lower water opening of the middle water-receiving tray, and meanwhile, the shell of the water-receiving container is provided with a rotating part, when the middle water-discharging nozzle is used for draining water, the water-receiving container can rotate around the rotating part to incline the water-receiving container, the first water-receiving container is higher than the second water-receiving container, the water flowing into the first water-receiving container from the water-receiving tray can flow to the second water-receiving container through the water-retaining part, the water flowing into the second water-receiving container can be discharged into the other water-receiving tray below the middle water-receiving tray through the first water-discharging opening, and then the plunger of the water-discharging pipe is pulled out and connected with the water-receiving tray, at last, the drain pipe is only needed to be pulled downwards to reset the drain pipe, water flowing into the first water receiving container from the water receiving disc flows into the container filled with water from the water pipe, the problem that residual water overflows and falls into the ground is avoided, the problems of technical bottlenecks and pain points of the industry are solved, the consumer experience is improved, and the added value of products is increased.

Drawings

The invention is further illustrated by means of the attached drawings, but the embodiments in the drawings do not constitute any limitation to the invention, and for a person skilled in the art, other drawings can be derived on the basis of the following drawings without inventive effort.

Fig. 1 is a schematic view showing an overall structure of an overflow preventing drain assembly of the present invention.

Fig. 2 is a schematic view of the entire structure of an overflow preventing drain assembly according to the present invention when it is upwardly broken.

Fig. 3 is a schematic view showing an overall structure of an overflow preventing drain assembly according to the present invention when it is reset.

Fig. 4 is a schematic view showing a structure in which an overflow preventing drain assembly of the present invention is installed in an overflow preventing drain device.

Fig. 5 is a schematic structural view of an overflow preventing drain assembly according to embodiment 6 of the present invention.

Fig. 6 is a schematic structural view of an overflow preventing drainage apparatus according to embodiment 7 of the present invention.

The figure includes:

the water collecting device comprises a water discharge pipe 1, a water receiving container 2, a water retaining part 3, a second water discharge port 31, a first water receiving container 4, a second water receiving container 5, a first water discharge port 51, a rotating part 6, a rotating shaft 61, a limiting boss 62, a fixing plate 7, a rotating hole 71 and a limiting hole 72.

Detailed Description

The invention is further described with reference to the following examples.

Example 1

The anti-overflow water drainage assembly of the embodiment is shown in fig. 1, and includes a water drainage pipe 1, one side of the water drainage pipe 1 is provided with an integrally formed water receiving container 2, a water blocking part 3 is arranged inside the water receiving container 2 to divide the water receiving container 2 into a first water receiving container 4 and a second water receiving container 5, the first water receiving container 4 is communicated with the water drainage pipe 1, the second water receiving container 5 is provided with a first water drainage opening 51, and a rotating part 6 is arranged on an outer shell of the water receiving container 2. The water receiving container 2 is divided into a first water receiving container 4 and a second water receiving container 5 through a water retaining part 3, the first water receiving container 4 corresponds to a water outlet of an intermediate water receiving tray, meanwhile, a rotating part 6 is arranged on the shell of the water receiving container 2, when the intermediate water discharging nozzle is needed for discharging water, the water discharging pipe 1 is only needed to be pulled upwards, as shown in figure 2, the water receiving container 2 rotates around the rotating part 6 to enable the water receiving container 2 to incline, at the moment, the first water receiving container 4 is higher than the second water receiving container 5, water flowing into the first water receiving container 4 from the water receiving tray flows to the second water receiving container 5 through the water retaining part 3, the water flowing into the second water receiving container 5 is discharged into another water receiving tray below the intermediate water receiving tray through a first water discharging nozzle 51, then a plunger of the water discharging pipe 1 is pulled out and connected with the water feeding pipe, and finally, as shown in figure 3, the water discharging pipe 1 is only needed to be pulled downwards to reset, the water flowing into the first water receiving container 4 from the water receiving disc flows into the container filled with water from the water pipe, so that the problem that residual water overflows and falls into the ground is avoided, the problems of technical bottlenecks and pain points of the industry are solved, the consumer experience is improved, and the additional value of a product is increased.

The water retaining part 3 is provided with a second water outlet 31, the second water outlet 31 is lower than the first water receiving container 4, and the water retaining part 3 is a water retaining plate. The second water outlet 31 is lower than the first water receiving container 4 in height, so that when the water receiving container 2 is in an inclined state, water in the first water receiving container 4 can smoothly flow into the second water receiving container 5.

The first drain port 51 is opened at the bottom of the second water receiving container 5. The first water discharge opening 51 is arranged at the bottom of the second water receiving container 5 and can discharge water which flows into the second water receiving container 5 from the first water receiving container 4 into another water receiving tray below the middle water receiving tray.

The first drain port 51 is located at a lower height than the second drain port 31. The water flowing into the second water receiving container 5 can not flow back into the first water receiving container 4.

The rotating part 6 is arranged on the outer side wall of the first water receiving container 4, and the rotating part 6 is arranged on the outer side wall to enable the water receiving container 2 to rotate around the rotating part 6.

The rotating part 6 comprises a rotating shaft 61 and a limit boss 62 matched with the rotating shaft 61. The rotating shaft 61 is used for rotating the water receiving container 2, and the limiting boss 62 is used for limiting the water receiving container 2.

The rotating shafts 61 are symmetrically arranged on the outer side wall of the first water receiving container 4, and the limiting bosses 62 are symmetrically arranged on the outer side wall of the first water receiving container 4. The arrangement on the outer side wall of the first water receiving container 4 can ensure that the water receiving container 2 rotates around the rotating shaft 61.

As shown in fig. 4, the rotating part 6 further includes a fixing plate 7 symmetrically disposed on the rotating shaft 61, and the fixing plate 7 is provided with a rotating hole 71 engaged with the rotating shaft 61 and a limiting hole 72 engaged with the limiting boss 62. The fixing plate 7 is used for fixing the overflow preventing drain assembly in the overflow preventing drain apparatus.

The pipe orifice of the drain pipe 1 is provided with threads 11, and the drain pipe is arranged in a circular shape; the water receiving container 2 is arranged in an arc cylinder shape. The mouth of the drain pipe 1 is provided with a screw thread 11 to fix the drain cover.

Example 2

The other structure of this embodiment is the same as that of embodiment 1, except that the second water receiving container 5 is provided with a plurality of first drain ports 51.

Example 3

The other structure of this embodiment is the same as that of embodiment 1, except that the water guard 3 is provided with a plurality of second water discharge ports 31.

Example 4

The other structure of this embodiment is the same as that of embodiment 1, except that the first drain port 51 is opened on the side wall of the second water receiving container 5, and the water that flows from the first water receiving container 4 into the second water receiving container 5 can be drained to another water receiving tray below the intermediate water receiving tray by being opened on the side wall of the second water receiving container 5.

Example 5

The other structure of this embodiment is the same as that of embodiment 1, except that the rotating member 6 is disposed on the outer sidewall of the second water receiving container 5, the rotating shafts 61 of the corresponding components are symmetrically disposed on the outer sidewall of the second water receiving container 5, the limiting bosses 62 are symmetrically disposed on the outer sidewall of the second water receiving container 5, and the rotating shafts 61 of the second water receiving container 5 are also disposed on the outer sidewall of the second water receiving container 5 to ensure that the water receiving container 2 rotates around the rotating shafts 61.

Example 6

The other structure of the present embodiment is the same as that of embodiment 1, except that the drain pipe 1 is arranged in a square shape; the water receiving container 2 is arranged in a square shape as shown in fig. 5.

Example 7

An overflow preventing drainage device is provided, which uses any one of the overflow preventing drainage assemblies in embodiments 1 to 6, because the water retaining member 3 divides the water receiving container 2 into a first water receiving container 4 and a second water receiving container 5, and the first water receiving container 4 corresponds to the drain opening of the middle water receiving tray, and the rotating member 6 is arranged on the shell of the water receiving container 2, when needing to use the middle drain nozzle for drainage, the drain pipe 1 is only needed to be pulled upwards, the water receiving container 2 rotates around the rotating member 6, so that the water receiving container 2 is inclined, at the moment, the first water receiving container 4 is higher than the second water receiving container 5, the water flowing into the first water receiving container 4 from the water receiving tray flows to the second water receiving container 5 through the water retaining member 3, the water flowing into the second water receiving container 5 can be drained into another water receiving tray below the middle water receiving tray through the first drain opening 51, then extract the plunger of drain pipe 1 and connect the water feeding pipe, only need at last to break off the drain pipe 1 downwards and make it reset with the fingers and thumb, the water that flows into first water receiving container 4 from the water collector will flow into the container of dress water from the water pipe in, avoided residual water to spill over and fall into ground problem, solve industry technical bottleneck and pain point problem, improve consumer experience, increase the added value of product.

Example 8

A mobile air conditioner is provided, the mobile air conditioner uses any one of the water overflow preventing drainage devices of embodiments 1 to 6, because the water retaining part 3 divides the water receiving container 2 into a first water receiving container 4 and a second water receiving container 5, the first water receiving container 4 corresponds to a water outlet of an intermediate water receiving tray, and meanwhile, the rotating part 6 is arranged on the shell of the water receiving container 2, when the intermediate water discharging nozzle is needed for drainage, only the drainage pipe 1 needs to be pulled upwards, the water receiving container 2 rotates around the rotating part 6 to enable the water receiving container 2 to incline, at the moment, the first water receiving container 4 is higher than the second water receiving container 5, the water flowing into the first water receiving container 4 from the water receiving tray flows to the second water receiving container 5 through the water retaining part 3, the water flowing into the second water receiving container 5 is pulled out through the first water discharging nozzle 51 to be discharged into another water receiving tray below the intermediate water receiving tray, and then the plunger of the drainage pipe 1 is connected in parallel, at last, the drain pipe 1 is only needed to be pulled downwards to reset, water flowing into the first water receiving container 4 from the water receiving disc flows into the container filled with water from the water pipe, the problem that residual water overflows and falls into the ground is avoided, the problems of technical bottlenecks and pain points of the industry are solved, the consumer experience is improved, and the added value of products is increased.

Finally, it should be noted that the above embodiments are only used for illustrating the technical solutions of the present invention, and not for limiting the protection scope of the present invention, although the present invention is described in detail with reference to the preferred embodiments, it should be understood by those skilled in the art that modifications or equivalent substitutions can be made on the technical solutions of the present invention without departing from the spirit and scope of the technical solutions of the present invention.

Claims (7)

1. An anti-overflow drainage assembly, characterized in that: the water receiving device comprises a drain pipe, wherein a water receiving container is arranged on one side of the drain pipe, a water retaining part is arranged in the water receiving container to divide the water receiving container into a first water receiving container and a second water receiving container, the first water receiving container is communicated with the drain pipe, the second water receiving container is provided with at least one first drain opening, and a shell of the water receiving container is provided with a rotating part; the water retaining part is provided with at least one second water outlet, the height of the second water outlet is lower than that of the first water receiving container, and the water retaining part is a water retaining plate; the first drainage port is arranged at the bottom of the second water receiving container or on the side wall of the second water receiving container; the first drain opening is located at a height lower than a height at which the second drain opening is located.

2. An overflow preventing drain assembly as defined in claim 1, wherein: the rotating part is arranged on the outer side wall of the first water receiving container or the outer side wall of the second water receiving container; the rotating part comprises a rotating shaft and a limiting boss matched with the rotating shaft.

3. An overflow preventing drain assembly as defined in claim 2, wherein: the rotation axis symmetry sets up on the lateral wall of first water receiving container, spacing boss symmetry sets up on the lateral wall of first water receiving container, or rotation axis symmetry sets up on the lateral wall of second water receiving container, spacing boss symmetry sets up on the lateral wall of second water receiving container.

4. An overflow preventing drain assembly as defined in claim 2, wherein: the rotating part further comprises fixing plates symmetrically arranged on the rotating shaft, and the fixing plates are provided with rotating holes matched with the rotating shaft and limiting holes matched with the limiting bosses.

5. An overflow preventing drain assembly as defined in claim 1, wherein: the pipe orifice of the drain pipe is provided with threads, and the drain pipe is arranged in a square shape or a circular shape; the water receiving container is an arc cylinder or a square.

6. The utility model provides a drainage device of anti-overflow water which characterized in that: an overflow preventing drain assembly comprising the overflow preventing drain assembly as claimed in any one of claims 1 to 5.

7. A mobile air conditioner is characterized in that: a water discharge apparatus including an overflow preventing function as claimed in claim 6.

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