CN219300986U - Tube connecting plate and mobile air conditioner - Google Patents

Abstract

The utility model discloses a take-over plate and a mobile air conditioner, wherein the take-over plate comprises a plate body, a first arm and a second arm, the plate body is provided with a flow guide part, the flow guide part protrudes towards one side of the plate body and forms a concave cavity on the other side of the plate body, the flow guide part is provided with a vent hole, the plate body is used for being attached to the surface of an air conditioner main body so that an air outlet on the air conditioner main body is communicated with the vent hole through the concave cavity, the first arm and the second arm are both connected with the plate body, and the first arm and the second arm are used for being clamped with the air conditioner main body and clamping and fixing the air conditioner main body between the first arm and the second arm. The connecting pipe plate is convenient to install and detach, so that the connecting pipe plate is conveniently and respectively switched to different air outlets of the air conditioner, and the convenience of operation is improved.

Description

Tube connecting plate and mobile air conditioner

Technical Field

The utility model relates to the technical field of air conditioners, in particular to a connecting pipe plate and a mobile air conditioner applying the same.

Background

The mobile air conditioner is a common electrical appliance in daily life, and is mainly used for adjusting the indoor environment to a proper temperature, so that the comfort of living or working is improved. At present, some mobile air conditioners are provided with two cold air outlets and a hot air outlet, wherein the cold air outlets are used for supplying cold air to flow out, the hot air outlets are used for supplying hot air to flow out, when a user uses the mobile air conditioner, one of the cold air outlets and the hot air outlets faces to an area needing to be temperature-adjusted, and the other one of the cold air outlets and the hot air outlets needs to be communicated with the outside through a pipeline, but in the related art, the problem that the butt joint of the pipeline and the cold air outlets or the hot air outlets is troublesome to install and detach exists, and inconvenience is caused to the use of the user.

Disclosure of Invention

The present utility model aims to solve at least one of the technical problems in the related art to some extent.

Therefore, the embodiment of the utility model provides the connecting pipe plate which is convenient to install and detach, so that the connecting pipe plate is conveniently and respectively switched to different air outlets of the air conditioner, and the convenience of operation is improved.

The embodiment of the utility model also provides a mobile air conditioner comprising the tube connecting plate.

The take-over plate of the embodiment of the utility model comprises:

the air conditioner comprises a plate body, wherein the plate body is provided with a flow guide part, the flow guide part protrudes towards one side of the plate body and forms a concave cavity on the other side of the plate body, the flow guide part is provided with a vent hole, and the plate body is used for being attached to the surface of the air conditioner main body so that an air outlet on the air conditioner main body is communicated with the vent hole through the concave cavity;

the first arm and the second arm are connected with the plate body, and the first arm and the second arm are used for being clamped with the air conditioner main body and clamping and fixing the air conditioner main body between the first arm and the second arm.

The connecting pipe plate is convenient to install and detach, so that the connecting pipe plate is conveniently and respectively switched to different air outlets of the air conditioner, and the convenience of operation is improved.

In some embodiments, the first arm and the second arm are respectively disposed on two opposite sides of the plate body, and the extending direction of the first arm and the extending direction of the second arm are opposite to the protruding direction of the flow guiding portion.

In some embodiments, the width dimension of the first arm tapers in a direction away from the plate body and/or the width dimension of the second arm tapers in a direction away from the plate body.

In some embodiments, the plate body comprises:

a flat plate portion, the flow guide portion being formed at the flat plate portion;

the first arc-shaped part and the second arc-shaped part are arranged oppositely, one side of the first arc-shaped part is smoothly connected with one side of the flat plate part, the first arm is smoothly connected with the other side of the first arc-shaped part, one side of the second arc-shaped part is smoothly connected with the other side of the flat plate part, and the second arm is smoothly connected with the other side of the second arc-shaped part.

In some embodiments, the cross-sectional dimension of the flow guiding portion is gradually reduced along the protruding direction of the flow guiding portion, and the vent hole is formed at the end of the flow guiding portion away from the plate body.

In some embodiments, the connection profile of the flow guiding part and the plate body is rectangular and has a width dimension and a length dimension, two air outlets are arranged on the air conditioner main body, the two air outlets are respectively positioned at the cold air outlet and the hot air outlet, the width dimension is not smaller than any one of the diameter of the cold air outlet and the diameter of the hot air outlet, and the length dimension is not smaller than the upper limit value of the distance between the profile of the cold air outlet and the profile of the hot air outlet.

In some embodiments, the free end of the first arm is provided with a first clamping portion, the first clamping portion is arranged on one side of the first arm facing the second arm, the free end of the second arm is provided with a second clamping portion, the second clamping portion is arranged on one side of the second arm facing the first arm, and the first clamping portion and the second clamping portion are both used for being clamped and matched in corresponding grooves on the air conditioner main body.

In some embodiments, the first clamping portion is provided with a first protruding tongue protruding towards the plate body, the second clamping portion is provided with a second protruding tongue protruding towards the plate body, and the first protruding tongue and the second protruding tongue are both used for stopping the inner groove wall of the groove.

In some embodiments, the first clamping portion is provided with a first hole, the first hole penetrates through the first clamping portion along the extending direction of the first arm, the second clamping portion is provided with a second hole, and the second hole penetrates through the second clamping portion along the extending direction of the second arm.

In some embodiments, the adapter plate is provided with a flange extending along an edge of the plate body, an edge of the first arm, an edge of the second arm.

The mobile air conditioner of the embodiment of the utility model comprises an air conditioner main body and the take-over plate in any embodiment, wherein the take-over plate is assembled on the air conditioner main body through the clamping connection of the first arm and the second arm.

In some embodiments, the mobile air conditioner includes an extension pipe connected to the extension pipe plate and for guiding the air flow discharged from the vent hole to the outside.

Drawings

Fig. 1 is a schematic front perspective view of a tubesheet according to an embodiment of the present utility model.

Fig. 2 is a schematic front side perspective view of a tubesheet according to an embodiment of the present utility model.

Fig. 3 is a rear side perspective view of a tubesheet according to an embodiment of the present utility model.

Fig. 4 is an enlarged partial schematic view at a in fig. 3.

Fig. 5 is a partially enlarged schematic view at B in fig. 3.

Fig. 6 is a schematic view of the installation of an air conditioning body and tube sheet according to an embodiment of the present utility model.

Fig. 7 is a schematic diagram of an arrangement of an air outlet of a mobile air conditioner according to an embodiment of the present utility model.

Fig. 8 is a perspective view of a mobile air conditioner according to an embodiment of the present utility model.

Reference numerals:

a tube receiving plate 100;

a plate body 1; a flat plate portion 11; a first arc-shaped portion 12; a second arc-shaped portion 13;

a diversion part 2;

a first arm 3; a first engaging portion 31; a first hole 311; a first tab 312;

a second arm 4; a second engaging portion 41; a second hole 411; a second tab 412;

a vent 5;

a flanging 6;

a cavity 7;

an air conditioner main body 200; a hot air outlet 201; a cool air outlet 202;

and an extension tube 300.

Detailed Description

Reference will now be made in detail to embodiments of the present utility model, examples of which are illustrated in the accompanying drawings. The embodiments described below by referring to the drawings are illustrative and intended to explain the present utility model and should not be construed as limiting the utility model.

As shown in fig. 1 to 3, a take-over plate 100 of an embodiment of the present utility model includes a plate body 1, a first arm 3 and a second arm 4. The material of the tube receiving plate 100 may be plastic, and the plate body 1, the first arm 3 and the second arm 4 may be integrally formed by injection molding.

As shown in fig. 1, the plate body 1 may be substantially rectangular plate-shaped, the middle portion of the plate body 1 may be provided with a flow guiding portion 2, the flow guiding portion 2 may be integrally formed with the plate body 1, and the flow guiding portion 2 may protrude toward the rear side of the plate body 1 and may form a cavity 7 at the front side of the plate body 1. The air guiding part 2 can be provided with an air vent 5, and the air vent 5 can be a through hole and can be positioned in the middle of the air guiding part 2.

When in use, the plate body 1 can be attached to the surface of the air conditioner main body 200, and the concave cavity 7 on the flow guiding part 2 can be blocked by the surface of the air conditioner main body 200 to form a relatively sealed space. The air outlet on the air conditioner body 200 may be covered in the outer peripheral outline of the air guiding part 2 and communicate with the concave cavity 7. Thereby, the air flow flowing out of the air outlet of the air conditioner main body 200 may first flow into the cavity 7 and then may flow out through the vent hole 5.

In this embodiment, the tube connecting plate 100 is used for connecting corresponding tubes, one end of each tube may be communicated with the ventilation hole 5, the other end of each tube may extend to the outside, and the air flow discharged from the air conditioner main body 200 may be discharged to the outside through the tube.

The first arm 3 and the second arm 4 are connected with the plate body 1, and the first arm 3 and the second arm 4 are used for clamping the air conditioner main body 200 and clamping and fixing the air conditioner main body 200 between the two. For example, as shown in fig. 1 to 3, the first arm 3 may be provided at the left side of the plate body 1, the second arm 4 may be provided at the right side of the plate body 1, and both the first arm 3 and the second arm 4 may extend toward the front side of the plate body 1. When the tube plate 100 is installed, the air conditioner main body 200 can be clamped and fixed between the first arm 3 and the second arm 4, and the first arm 3 and the second arm 4 can be in clamping fit with the air conditioner main body 200.

According to the take-over plate 100 provided by the embodiment of the utility model, the take-over plate 100 can be assembled with the air conditioner main body 200 in a clamping way through the first arm 3 and the second arm 4, so that the take-over plate 100 is convenient to install and disassemble, and further the take-over plate 100 can be respectively switched to different air outlet positions of the air conditioner main body 200, and the convenience of operation is improved.

Secondly, through setting up water conservancy diversion portion 2, the projection scope of the recess 7 that water conservancy diversion portion 2 corresponds is great for ventilation hole 5's projection scope in fore-and-aft direction, when taking over board 100 installation to the different positions of air conditioner main part 200, recess 7 can all cover the air outlet of different size specifications and different positions completely, has promoted the suitability and the commonality of taking over board 100 installation.

In addition, the concave cavity 7 has a larger space and can also have a flow-retarding effect, so that the impact of air flow on the butt joint tube plate 100 is improved, and a certain noise reduction effect is realized.

In some embodiments, the first arm 3 and the second arm 4 are respectively disposed on two opposite sides of the plate body 1, and the extending direction of the first arm 3 and the second arm 4 is opposite to the protruding direction of the flow guiding portion 2. For example, as shown in fig. 1 to 3, the first arm 3 may be integrally formed on the left side of the plate body 1 and may be adjacent to the top of the plate body 1, and the second arm 4 may be integrally formed on the right side of the plate body 1 and may also be adjacent to the top of the plate body 1. The first arm 3 and the second arm 4 may extend toward the front side of the plate body 1, and the flow guiding portion 2 may protrude toward the rear side of the plate body 1. So that the installation positions of the first arm 3, the second arm 4 and the diversion part 2 can be matched with the actual use state.

In some embodiments, the width dimension of the first arm 3 tapers in a direction away from the plate body 1. For example, as shown in fig. 1, the first arm 3 is located at the front side of the plate body 1 and may extend generally along the front-rear direction, and the width dimension of the first arm 3 is the dimension of the first arm 3 in the up-down direction, and the width dimension of the first arm 3 becomes gradually smaller along the direction from rear to front, so that on one hand, the connection structural strength between the first arm 3 and the plate body 1 can be ensured, and on the other hand, the capability of elastic deformation of the portion of the first arm 3 closer to the front end can be made stronger, thereby meeting the requirements of the snap-fit and disassembly.

Similarly, the width dimension of the second arm 4 becomes gradually smaller in a direction away from the plate body 1. As shown in fig. 1, the second arm 4 is located at the front side of the plate body 1 and may extend generally along the front-rear direction, and the width dimension of the second arm 4 is the dimension of the second arm 4 in the up-down direction, and the width dimension of the second arm 4 becomes gradually smaller along the direction from rear to front, so that on one hand, the connection structural strength of the second arm 4 and the plate body 1 can be ensured, and on the other hand, the capability of the second arm 4 to elastically deform at the portion closer to the front end is made stronger, thereby meeting the requirements of the snap-fit and the disassembly.

In some embodiments, the plate body 1 includes a flat plate portion 11, a first arc portion 12 and a second arc portion 13, the flow guiding portion 2 is formed on the flat plate portion 11, the first arc portion 12 and the second arc portion 13 are oppositely disposed, one side of the first arc portion 12 is smoothly connected to one side of the flat plate portion 11, the first arm 3 is smoothly connected to the other side of the first arc portion 12, one side of the second arc portion 13 is smoothly connected to the other side of the flat plate portion 11, and the second arm 4 is smoothly connected to the other side of the second arc portion 13.

For example, as shown in fig. 2 and 3, the flat plate portion 11 may be substantially rectangular, and the protruding portion may be provided at a central position of the flat plate portion 11. The cross sections of the first arc-shaped portion 12 and the second arc-shaped portion 13 may be substantially in a quarter arc shape, the flat plate portion 11 may be connected between the first arc-shaped portion 12 and the second arc-shaped portion 13, wherein the first arc-shaped portion 12 may be connected at a left side of the flat plate portion 11, the first arc-shaped portion 12 may be arranged to extend along a longitudinal edge of the left side of the flat plate portion 11, the second arc-shaped portion 13 may be connected at a right side of the flat plate portion 11, and the second arc-shaped portion 13 may be arranged to extend along a longitudinal edge of the right side of the flat plate portion 11. The first clamping portion 31 may be connected to the front end surface of the first arc portion 12, and the second clamping portion 41 may be connected to the front end surface of the second arc portion 13.

Thus, in use, the flat plate part 11 can be fully attached to the surface of the air conditioner main body 200, so that the tightness of the periphery of the air outlet of the air conditioner main body 200 is ensured, and the condition of wind channeling is avoided. The arrangement of the first arc-shaped part 12 and the second arc-shaped part 13 can realize smooth transition connection between the first arm 3 and the flat plate part 11 and between the second arm 4 and the flat plate part 11, and can play a role in eliminating stress and guaranteeing structural strength.

In some embodiments, the cross-sectional dimension of the flow guiding portion 2 is gradually reduced along the protruding direction of the flow guiding portion 2, and the vent hole 5 is provided at the end of the flow guiding portion 2 away from the plate body 1.

For example, as shown in fig. 1 to 3, the entire flow guiding portion 2 may have a truncated pyramid shape, and specifically may have a truncated pyramid structure. The cross section size of the diversion part 2 gradually becomes smaller along the front-to-back direction, so that the cross section size of the concave cavity 7 also gradually becomes smaller along the front-to-back direction, the effect of converging air flow is achieved, the air flow discharged from the vent hole 5 can have relatively high flow velocity, and the smoothness and the high efficiency of air flow discharge are ensured.

In some embodiments, the connection profile of the flow guiding portion 2 and the plate body 1 is rectangular and has a width dimension and a length dimension, two air outlets are disposed on the air conditioner main body 200, the two air outlets are respectively located at the cold air outlet 202 and the hot air outlet 201, the width dimension is not smaller than any one of the diameter of the cold air outlet 202 and the diameter of the hot air outlet 201, and the length dimension is not smaller than the upper limit value of the distance between the profile of the cold air outlet 202 and the profile of the hot air outlet 201.

For example, as shown in fig. 7, the air conditioner body 200 may be provided with a cool air outlet 202 and a hot air outlet 201, wherein the cool air outlet 202 is used for discharging cool air for preparation, the hot air outlet 201 is used for discharging hot air for preparation, wherein the cool air outlet 202 may be provided at a front side of the air conditioner body 200, the hot air outlet 201 may be provided at a rear side of the air conditioner body 200, and the cool air outlet 202 may be located above the hot air outlet 201.

As shown in fig. 3, the width dimension of the connection profile may be a dimension W in the left-right direction, which should be not smaller than the maximum value of the width dimension of the cool air outlet 202 (left-right direction) and the width dimension of the warm air outlet 201 (left-right direction). As shown in fig. 3, the length dimension of the connection profile may be the dimension L in the up-down direction. As shown in fig. 7, the distance between the upper edge of the cool air outlet 202 and the lower edge of the hot air outlet 201 may be a dimension M, and the dimension L should be not less than the dimension M.

Therefore, the diversion part 2 of the take-over plate 100 at the same elevation can completely cover the cold air outlet 202 or the hot air outlet 201 regardless of whether the take-over plate 100 is mounted on the front side or the rear side of the air conditioner main body 200, thereby ensuring the suitability and the universality of the take-over plate 100 for different air outlets.

In some embodiments, the free end of the first arm 3 is provided with a first clamping portion 31, the first clamping portion 31 is arranged on one side of the first arm 3 facing the second arm 4, the free end of the second arm 4 is provided with a second clamping portion 41, the second clamping portion 41 is arranged on one side of the second arm 4 facing the first arm 3, and the first clamping portion 31 and the second clamping portion 41 are both used for being clamped and matched in corresponding grooves on the air conditioner main body 200.

For example, as shown in fig. 2, the first clamping portion 31 may be integrally formed at a front end of the first arm 3, and the first clamping portion 31 may be located at a right side of the first arm 3, the second clamping portion 41 may be integrally formed at a front end of the second arm 4, and the second clamping portion 41 may be located at a left side of the second arm 4. As shown in fig. 6, the air conditioner body 200 may be provided with a groove, and when the tube plate 100 is assembled, the first clamping portion 31 may be inserted into the groove on the left side of the air conditioner body 200, and the second clamping portion 41 may be inserted into the groove on the right side of the air conditioner body 200.

Therefore, the air conditioner main body 200 is clamped and fixed between the first arm 3 and the second arm 4, and a part of the air conditioner main body 200 can be clamped between the first clamping part 31 and the plate body 1 and between the second clamping part 41 and the plate body 1, so that constraint limit of multiple directions of the butt joint tube plate 100 can be realized, and the stability of fixing the adapter tube plate 100 is enhanced.

In some embodiments, the first locking portion 31 is provided with a first protruding tongue 312 protruding toward the plate body 1, the second locking portion 41 is provided with a second protruding tongue 412 protruding toward the plate body 1, and both the first protruding tongue 312 and the second protruding tongue 412 are used for abutting against the inner groove wall of the groove.

For example, as shown in fig. 4, the first tab 312 may be integrally formed with the first clamping portion 31, the first tab 312 may be disposed at a position of a right rear edge of the first clamping portion 31, and the first tab 312 may protrude toward the rear side. Similarly, as shown in fig. 5, the second protruding tongue 412 may be integrally formed on the second clamping portion 41, the second protruding tongue 412 may be disposed at a position of the left rear edge of the second clamping portion 41, and the second protruding tongue 412 may also protrude to the rear side.

In use, the first protruding tongue 312 and the second protruding tongue 412 can be in contact with the inner wall of the groove, so as to ensure the clamping effect of the first clamping portion 31 and the second clamping portion 41 and the inner wall of the groove, and ensure the stability of assembling the adapter plate 100.

In some embodiments, the first clamping portion 31 is provided with a first hole 311, the first hole 311 penetrates the first clamping portion 31 along the extending direction of the first arm 3, the second clamping portion 41 is provided with a second hole 411, and the second hole 411 penetrates the second clamping portion 41 along the extending direction of the second arm 4.

For example, as shown in fig. 4, the first hole 311 may be a square hole, the first hole 311 may penetrate the first clamping portion 31 in the front-rear direction, as shown in fig. 5, the second hole 411 may be a square hole, and the second hole 411 may penetrate the second clamping portion 41 in the front-rear direction. Thus, on the one hand, the elastic deformation performance of the first clamping portion 31 and the second clamping portion 41 can be enhanced, so that the clamping fit is facilitated, and on the other hand, the consumable materials can be reduced, and the weight of the tube connecting plate 100 can be reduced.

In some embodiments, the adapter plate 100 is provided with a flange 6, the flange 6 extending along the edge of the plate body 1, the edge of the first arm 3, the edge of the second arm 4. For example, as shown in fig. 1 and 2, all edges of the plate body 1, the upper edge and the lower edge of the first arm 3, and the upper edge and the lower edge of the second arm 4 may be provided with flanges 6, so that the effect of enhancing structural strength can be achieved, the condition that stress concentration is easy to occur at the edge of the adapter plate 100 is avoided, and structural stability and durability in use are ensured.

The following describes a mobile air conditioner according to an embodiment of the present utility model.

As shown in fig. 6, the mobile air conditioner of the embodiment of the present utility model includes an air conditioner main body 200 and a take-over plate 100, and the take-over plate 100 may be the take-over plate 100 described in any of the above embodiments. The joint plate 100 may be snap-fitted to the rear side of the air conditioner body 200 by the first arm 3 and the second arm 4.

In some embodiments, the mobile air conditioner includes an extension pipe 300, and the extension pipe 300 is connected to the extension pipe plate 100 and serves to guide the air flow discharged from the ventilation hole 5 to the outside. For example, as shown in fig. 8, the extension tube 300 may be fixedly coupled to the tube plate 100 by screw fitting, snap connection, or the like. The extension tube 300 may be a flexible hose, and in particular may be a bellows, so as to meet the expansion and deformation requirements of the through-wall arrangement.

While the above embodiments have been shown and described, it should be understood that the above embodiments are illustrative and not to be construed as limiting the utility model, and that variations, modifications, alternatives, and variations of the above embodiments may be made by those of ordinary skill in the art without departing from the scope of the utility model.

Claims (12)

1. A take-over plate, comprising:

the air conditioner comprises a plate body, wherein the plate body is provided with a flow guide part, the flow guide part protrudes towards one side of the plate body and forms a concave cavity on the other side of the plate body, the flow guide part is provided with a vent hole, and the plate body is used for being attached to the surface of the air conditioner main body so that an air outlet on the air conditioner main body is communicated with the vent hole through the concave cavity;

the first arm and the second arm are connected with the plate body, and the first arm and the second arm are used for being clamped with the air conditioner main body and clamping and fixing the air conditioner main body between the first arm and the second arm.

2. The tube-connecting plate according to claim 1, wherein the first arm and the second arm are respectively provided on two opposite sides of the plate body, and the extending directions of the first arm and the second arm are opposite to the protruding directions of the flow guiding portion.

3. The header plate of claim 2, wherein the width dimension of the first arm tapers in a direction away from the plate body and/or the width dimension of the second arm tapers in a direction away from the plate body.

4. The tube-contacting plate of claim 1, wherein the plate body comprises:

a flat plate portion, the flow guide portion being formed at the flat plate portion;

the first arc-shaped part and the second arc-shaped part are arranged oppositely, one side of the first arc-shaped part is smoothly connected with one side of the flat plate part, the first arm is smoothly connected with the other side of the first arc-shaped part, one side of the second arc-shaped part is smoothly connected with the other side of the flat plate part, and the second arm is smoothly connected with the other side of the second arc-shaped part.

5. The tube-receiving plate according to claim 1, wherein the cross-sectional dimension of the flow-guiding portion is gradually reduced along the protruding direction of the flow-guiding portion, and the vent hole is provided at an end of the flow-guiding portion away from the plate body.

6. The tube connecting plate according to claim 1, wherein the connecting profile of the flow guiding part and the plate body is rectangular and has a width dimension and a length dimension, two air outlets are arranged on the air conditioner main body, the two air outlets are respectively positioned at a cold air outlet and a hot air outlet, the width dimension is not smaller than any one of the diameter of the cold air outlet and the diameter of the hot air outlet, and the length dimension is not smaller than the upper limit value of the distance between the profile of the cold air outlet and the profile of the hot air outlet.

7. The tube connecting plate according to claim 1, wherein the free end of the first arm is provided with a first clamping portion, the first clamping portion is arranged on one side of the first arm facing the second arm, the free end of the second arm is provided with a second clamping portion, the second clamping portion is arranged on one side of the second arm facing the first arm, and the first clamping portion and the second clamping portion are both used for being clamped and matched in corresponding grooves on the air conditioner main body.

8. The tube plate of claim 7, wherein the first clamping portion is provided with a first protruding tongue protruding toward the plate body, the second clamping portion is provided with a second protruding tongue protruding toward the plate body, and the first protruding tongue and the second protruding tongue are both used for abutting against an inner groove wall of the groove.

9. The tube sheet of claim 7, wherein the first clamping portion has a first hole extending therethrough along the direction of extension of the first arm, and the second clamping portion has a second hole extending therethrough along the direction of extension of the second arm.

10. The tube sheet of any one of claims 1-9, wherein the tube sheet is provided with a flange extending along an edge of the sheet body, an edge of the first arm, an edge of the second arm.

11. A mobile air conditioner, characterized by comprising an air conditioner main body and the pipe connecting plate as described in any one of 1-10, wherein the pipe connecting plate is assembled to the air conditioner main body through the first arm and the second arm in a clamping manner.

12. The mobile air conditioner of claim 11, comprising an extension tube connected to the extension tube plate and for guiding the air flow discharged from the vent hole to the outside.

Images